Compilation Stages#
This notebook describes the different compilation stages in the IQM circuit-to-pulse compiler.
from math import pi
from pprint import pprint
from IPython.core.display import HTML
from qiskit import QuantumCircuit, visualization
from qiskit.compiler import transpile
from iqm.iqm_client.util import print_env_vars
from iqm.qiskit_iqm import IQMProvider
from iqm.pulla.pulla import Pulla
from iqm.pulla.utils_qiskit import sweep_job_to_qiskit, qiskit_to_pulla, get_qiskit_compiler
from iqm.pulse.playlist.visualisation.base import inspect_playlist
from iqm.pulse.builder import ScheduleBuilder
from iqm.pulse.playlist.instructions import VirtualRZ
from iqm.pulse.playlist.schedule import Schedule, Segment
print_env_vars()
pulla = Pulla()
provider = IQMProvider()
backend = provider.get_backend()
qc = QuantumCircuit(3, 3)
qc.h(0)
qc.cx(0, 1)
qc.cx(0, 2)
qc.measure_all()
# Transpile, route and optimize the circuit
qc_transpiled = transpile(qc, backend=backend, layout_method='sabre', optimization_level=3)
# Print the circuit
qc_transpiled.draw(output='mpl', style="clifford", idle_wires=False)
Standard stages#
The IQM circuit-to-pulse compiler comes with a pre-defined “standard” set of customizable stages. These standard stages are also used by IQM Server to submit a circuit to IQM Server (without using Pulla).
A CompilationStage consists of multiple pass functions, which are just normal Python functions. The pass function arguments fall into the following three categories:
The first argument is always the “payload” to compile (e.g. the quantum circuits).
Arguments that are one of the
iqm.cpc.compiler.compilation_stage.DEFAULT_CONTEXT_KEYScan be added into the args and the corresponding object will then be fetched automatically from thecontext(this includes having the wholecontextas an arg).Finally, the so-called stage options, meaning that any other argument will become a changeable setting in under
Compiler.get_settings(...).stages.
View the standard stages via Compiler.show_stages() and click on individual stages to show the stage pass functions they consist of and further click on the individual stages to view their docstrings.
compiler = pulla.get_standard_compiler()
compiler.show_stages()
Circuit-level Stages (1)
Stage 0: circuit_stage Perform Circuit-level transformations.
| Pass 0: validate_settings | list[iqm.pulse.circuit_operations.Circuit] |
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circuits: list[iqm.pulse.circuit_operations.Circuit],settings: exa.common.data.setting_node.SettingNode) -> list[iqm.pulse.circuit_operations.Circuit] Validate the settings for circuit execution options (only some combinations make sense).
Raises an error if full MOVE gate tracking is used without move gate validation. Raises a warning if terminal
measurements would be used with active reset.
Args:
circuits: The circuits to compiler.
settings: The settings tree to validate.
Returns:
The circuits as they were.
Raises:
CircuitError: if full MOVE gate tracking is used without move gate validation.
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| Pass 1: map_components | Iterable[iqm.pulse.circuit_operations.Circuit] |
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circuits: collections.abc.Iterable[iqm.pulse.circuit_operations.Circuit],component_mapping: dict[str, str] | None,context: dict[str, typing.Any]) -> Iterable[iqm.pulse.circuit_operations.Circuit] Maps the logical component names in a sequence of instructions to the corresponding physical component names.
Modifies ``instructions`` in place. If no mapping is provided, returns the circuits as they are.
Args:
circuits: The circuits to compiler.
component_mapping: Mapping of logical component names to physical component names.
``None`` means the identity mapping.
context: The Compiler context.
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| Pass 2: subscribe_and_probe | list[iqm.pulse.circuit_operations.Circuit] |
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circuits: list[iqm.pulse.circuit_operations.Circuit],settings: exa.common.data.setting_node.SettingNode,context: dict[str, typing.Any],additionally_subscribed_components: list[str],additionally_probed_components: list[str],probe_all: bool = True,convert_terminal_measurements: bool = True) -> list[iqm.pulse.circuit_operations.Circuit] Add additional terminal measurements to the circuit and modify measurement instruction arguments.
The additional measurements can be subscribed to (i.e. they'd return measurement data) or be just probe pulses
for potentially improving the terminal measurement fidelity in case the measurement calibration is not 100%
factorizable.
In addition, the pass hashes all readout keys since there is a data processing limit for the readout key length.
The keys should then be unmapped in the return data post-processing. The terminal measurements can also be converted
to the ``measure_fidelity`` operation which is calibrated to maximize the fidelity while not necessarily being
projective (QNDness is typically not important for the terminal measurement).
Args:
circuits: The circuits to compile.
settings: The settings tree.
context: The Compiler context.
additionally_subscribed_components: Additional components to measure in the terminal measurement (besides the
ones explicitly measured in the circuit itself).
additionally_probed_components: Additional components to send the probe pulse to besides the
ones explicitly measured in the circuit itself). The measurement data will not be collected from these
components.
probe_all: Whether to send to probe pulse to all components in the terminal measurement (overrides
``additionally_probed_components``).
convert_terminal_measurements: Whether to convert the terminal measurement data to the ``measure_fidelity``
operation that is calibrated to maximize the fidelity while not necessarily being QND. This option will
be turned to ``False`` automatically if active reset is used (active reset is not reliable in the presence
of leakage).
Returns:
The circuits with the aforementioned modifications.
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| Pass 3: validate_circuits | list[iqm.pulse.circuit_operations.Circuit] |
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circuits: list[iqm.pulse.circuit_operations.Circuit],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],move_gate_validation: bool = True,validate_prx: bool = True,validate_calset: bool = False) -> list[iqm.pulse.circuit_operations.Circuit] Validate circuits and aggerate metrics data from them.
Args:
circuits: The circuits to compile.
builder: The ScheduleBuilder.
context: The compiler context.
move_gate_validation: Whether to do the move gate validation.
validate_prx: Whether to do the validation.
validate_calset: Whether to validate the calibration set (if the calibration point used is not from a
calibration set, this validation might not make sense).
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Pulse-level Stages (5)
Stage 0: circuit_resolution Resolve Circuits into TimeBoxes.
| Pass 0: resolve_circuits | list[iqm.pulse.timebox.TimeBox] |
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circuits: list[iqm.pulse.circuit_operations.Circuit] | list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,scheduling_strategy: str = 'ASAP') -> list[iqm.pulse.timebox.TimeBox] Resolve the circuits to timeboxes.
Args:
circuits: The circuit to resolve.
builder: The schedule builder.
scheduling_strategy: Scheduling strategy to be used in the resolved TimeBoxes (see :class:`.TimeBox`).
Returns:
List of TimeBoxes (one TimeBox per circuit).
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Stage 1: timebox_stage Perform TimeBox-level transformations.
| Pass 0: multiplex_readout | list[iqm.pulse.timebox.TimeBox] |
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timeboxes: list[iqm.pulse.timebox.TimeBox],timebox_input: bool) -> list[iqm.pulse.timebox.TimeBox] Merge any MultiplexedProbeTimeBoxes inside a TimeBox representing a circuit.
This pass optimizes a situation where multiple "measure" gates on disjoint set of loci exist sequentially in the
circuit.
Without optimization, each gate would result in a separate trigger event, which results in worse performance.
For example, with the measurement instructions [M(QB1), M(QB2), M(QB3)], we'd first measure QB1, then QB2, then QB3.
This optimization merges the measurement timeboxes, so that we'll measure QB1, QB2, and QB3 at the same time
(if the hardware channel configuration allows it), corresponding to M(QB1, QB2, QB3).
Goes through the children of `circuit_box`, and places them in the same temporal order.
Whenever a MultiplexedProbeTimeBox is encountered (i.e. from a measure gate), it is merged with the previous pending
MultiplexedProbeTimeBox and left pending.
If any other box type with colliding loci is encountered, first places the pending MultiplexedProbeTimeBox.
This essentially delays all measurements until the last possible moment.
This stage pass is skipped if the circuits to be compiled were given in the TimeBox-level, as the logic within does
not work for deep recursive TimeBoxes.
Args:
timeboxes: Timeboxes representing circuits.
timebox_input: Whether the circuits were inputted already in the TimeBox format.
Returns:
New TimeBoxes with the same content, except with some MultiplexedProbeTimeBoxes merged.
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| Pass 1: prepend_heralding | list[iqm.pulse.timebox.TimeBox] |
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timeboxes: list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],add_heralding: bool = False) -> list[iqm.pulse.timebox.TimeBox] Add the heralding measurement TimeBox to all circuits (locus: active components that can be measured).
Args:
timeboxes: Timeboxes representing circuits.
builder: The ScheduleBuilder.
context: Compiler context.
add_heralding: Whether to add the heralding measurement timebox to the schedules.
Returns:
The timeboxes with the prepended heralding measurement.
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| Pass 2: prepend_reset | list[iqm.pulse.timebox.TimeBox] |
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timeboxes: list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],active_reset_cycles: int | None = None) -> list[iqm.pulse.timebox.TimeBox] Add a reset timebox to all circuits for all active components.
Args:
timeboxes: TimeBoxes representing circuits.
builder: The ScheduleBuilder.
context: The compiler context.
active_reset_cycles: Number of active reset cycles applied. `None` means no active reset cycles, in which case
reset is done by relaxation (waiting).
Returns:
The timeboxes with the prepended reset.
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Stage 2: timebox_resolution Resolve TimeBoxes into Schedules.
| Pass 0: resolve_timeboxes | list[iqm.pulse.playlist.schedule.Schedule] |
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timeboxes: list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,neighborhood: int = 1) -> list[iqm.pulse.playlist.schedule.Schedule] Resolve the timeboxes to schedules.
Args:
timeboxes: TimeBoxes representing circuits.
builder: The ScheduleBuilder.
neighborhood: The neighborhood for the scheduling (see: :meth:`.ScheduleBuilder.resolve_timebox`).
Returns:
The time-resolved schedules (one for each circuit).
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Stage 3: dynamical_decoupling Apply dynamical decoupling sequences to idle qubits in the Schedules.
| Pass 0: apply_dd_strategy | list[iqm.pulse.playlist.schedule.Schedule] |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],dd_is_disabled: bool = True,use_standard_dd_strategy: bool = True,DDStrategy_merge_contiguous_waits: bool = True,DDStrategy_target_qubits: list[str] | None = None,DDStrategy_skip_leading_wait: bool = True,DDStrategy_skip_trailing_wait: bool = True,DDStrategy_gate_sequences_ratio: list[int] | None = None,DDStrategy_gate_sequences_gate_pattern_xy: list[str] | None = None,DDStrategy_gate_sequences_align: list[str] | None = None) -> list[iqm.pulse.playlist.schedule.Schedule] Insert dynamical decoupling sequences into the schedules, if dynamical decoupling is enabled.
DDStrategy can also be read from the Compiler context, from under the key `"DDStrategy"`. In this case, the
strategy provided will override the DDStrategy options given as args to this function.
Args:
schedules: Schedules representing the compiled circuits.
builder: The ScheduleBuilder.
context: Compiler context.
dd_is_disabled: Set to ``False`` to enable dynamical decoupling.
use_standard_dd_strategy: Whether to use the standard decoupling strategy (overrides the below arguments).
DDStrategy_target_qubits: The qubits to which DD is applied (``None`` means apply to every applicable qubit).
DDStrategy_merge_contiguous_waits: Whether to merge contiguous waits (see :class:`.DDStrategy`).
DDStrategy_skip_leading_wait: Whether to skip leading waits (see :class:`.DDStrategy`).
DDStrategy_skip_trailing_wait: Whether to skip trailing waits (see :class:`.DDStrategy`).
DDStrategy_gate_sequences_ratio: Minimal durations for the Wait to be replaced with the DD sequence
(in PRX gate durations) in the DD sequence.
DDStrategy_gate_sequences_gate_pattern_xy: XY Gate patterns in the DD sequence. If you want to provide custom
PRX angles instead of XY patterns, you must provide the DDStrategy in the Compiler context.
DDStrategy_gate_sequences_align: Alignments in the DD sequence ("asap", "alap" or "center")
Returns:
THe schedules where applicable Waits are replaced with DD sequences.
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Stage 4: schedule_stage Perform Schedule-level transformations.
| Pass 0: apply_move_gate_phase_corrections | list[iqm.pulse.playlist.schedule.Schedule] |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],move_gate_frame_tracking_mode: str = 'full') -> list[iqm.pulse.playlist.schedule.Schedule] Apply calibrated phase corrections if MOVE gates are used.
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| Pass 1: clean_schedule | list[iqm.pulse.playlist.schedule.Schedule] |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder) -> list[iqm.pulse.playlist.schedule.Schedule] Remove non-functional instructions from `schedules`.
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Finalization Stages (2)
Stage 0: schedule_resolution Translate Schedules into a hardware-executable Playlist.
| Pass 0: build_playlist_and_merge_contexts | iqm.models.playlist.playlist.Playlist |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],compute_execution_time_metrics: bool = False,ignore_input_components: bool = False) -> iqm.models.playlist.playlist.Playlist Build the playlist from the schedules and merge the contexts for individual sweep spots.
When merging the context, the active components are the union of the active components in each sweep spot
(unless explicitly given by the user). The default context keys are not merged (these should not be modified
by any of the sweep spots), and any other keys in the context will be merged to mapping from the sweep spot id
to the context entry.
Args:
schedules: Schedules to build into a Playlist.
builder: The ScheduleBuilder.
context: The Compiler context.
compute_execution_time_metrics: Whether to compute schedule duration and minimum execution time for circuits.
ignore_input_components: If True, components are always replaced with the ones found in context.
Returns:
The Playlist containing schedules.
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Stage 1: job_creation Package the Playlist and metadata into a job description to be submitted to IQM Server.
| Pass 0: create_run_definition | iqm.station_control.interface.models.run.RunDefinition |
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playlist: iqm.models.playlist.playlist.Playlist,context: dict[str, typing.Any],data_size_safety_switch: bool = True,force_ragged_data: bool = False) -> iqm.station_control.interface.models.run.RunDefinition Create MQE-style RunDefinition.
Args:
playlist: The Playlist to create the RunDefinition for.
context: The Compiler context.
data_size_safety_switch: Whether to throw an error with exceedingly large return data sizes (set to ``False``
if you want to still run the job and are sure the DB and/or the stack can handle it).
force_ragged_data: Whether to force the return data to the sparse ragged format even if the
dimensions are representable as a cartesian product.
Returns:
The RunDefinition.
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Post-processing Stages (2)
Stage 0: construct_run_result Aggregate raw hardware data into a structured run result object.
| Pass 0: construct_run_result | iqm.cpc.core.run_result.RunResult |
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pulla_data: iqm.cpc.compiler.post_process.PullaData,context: dict[str, typing.Any]) -> iqm.cpc.core.run_result.RunResult Construct the dataset and attach it to a RunResult object.
Unmaps the hashed readout keys.
Args:
pulla_data: The Pulla data (run data and sweep data).
context: The Compiler context.
Returns:
The RunResult.
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Stage 1: construct_data_variables Map measured counts and states to high-level user variables.
| Pass 0: create_ragged_data_index | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Adds ``MultiIndex`` to the trigger index dimension for accessing ragged data via the hard sweep values.
If there is a non-uniform number of readout triggers for n RO label across the segments of the playlist, the data
cannot be reshaped into an N-dimensional box with the dims
``(
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| Pass 1: extract_counter_group_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Extracts the data for all counter readout groups into their own data variables in the dataset.
Args:
run: the run result.
Returns:
The run result with new data variables for each counter readout group added.
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| Pass 2: rename_data_variables | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult,context: dict[str, typing.Any]) -> iqm.cpc.core.run_result.RunResult Rename the data variables in the dataset and optionally change their data types.
Args:
run: The RunResult object.
context: Compiler context.
Returns:
The post-processed run results with the data variables renamed.
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| Pass 3: classify_two_states | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Classify the complex data using the calibrated threshold.
If the observations are not available, a warning is logged.
Args:
run: The run result.
Returns:
The run result with the discriminated shots added.
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| Pass 4: average_single_shot_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Average the shots (or more generally the average bins) into a new data variable in the dataset.
If the data is already averaged, it is returned unchanged.
Args:
run: The RunResult object.
Returns:
The RunResult with the single shot data variables averaged.
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| Pass 5: contrast_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Add contrast for several components/readouts.
Contrast is calculated from complex integrated data with PCA. If a data variable is not complex (i.e. it is already
discriminated) it is retained as it is.
Args:
run: The RunResult object.
Returns:
The RunResult with the contrast data variable added for all complex variables.
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| Pass 6: add_counter_averaged_readout | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Add single-qubit excited state probabilities from the multi qubit counter results to the dataset.
Args:
run: The run result.
Returns:
The run result with new data variables for averaged readout for each component added.
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| Pass 7: compute_excitation_probability_from_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Compute the excited state probability for several components.
For complex readout data, this is done using the averaged threshold readout observations and for
threshold discriminated data using the 01 and 10 assignment error observations. If the
aforementioned observations are not available, a warning is thrown.
Args:
run: The RunResult object.
Returns:
The RunResult with the excited state probability added into the dataset.
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| Pass 8: add_counts_for | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Add single-qubit excited state probabilities from the multi qubit counter results to the dataset.
This is done only if the dimensions of the single qubit probabilities are equal.
Args:
run: The run result.
Returns:
The run result with the counter data added.
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| Pass 9: rename_measure_ancilla_variables | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Rename composite measure labels in data variables.
A composite measure label is of the format `"
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| Pass 10: process_metadata | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Process the metadata in the RunResult.
- Set the target data variables
- Process tuples serialised into lists back into tuples.
Args:
run: The RunResult.
Returns:
The RunResult with the metadata processed.
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Compiling the above circuit is possible by running the standard stages. The compiler context is used to implement stateful effects during the compilation and it will collect some useful info and metadata about the circuits in question.
circuits, compiler = qiskit_to_pulla(pulla, backend, qc_transpiled)
# Set the number of shots
shots = 1000
settings = compiler.get_settings(circuits=circuits)
settings.set_shots(shots)
job_definition, context = compiler.compile(circuits=circuits, settings=settings)
print("Final job definition:")
pprint(job_definition)
print("Context fields:")
print(list(context.keys()))
Final job definition:
RunDefinition(additional_run_properties={'circuit_generation_function_name': 'Foo',
'components': ['QB1',
'QB2',
'QB3',
'QB4',
'QB5'],
'components_grouping_mode': 'list',
'computational_resonators': [],
'coupler_mapping': {'TC-1-3': ['QB1',
'QB3'],
'TC-2-3': ['QB2',
'QB3'],
'TC-3-4': ['QB3',
'QB4'],
'TC-3-5': ['QB3',
'QB5']},
'couplers': [],
'integration_data_parameters': ['QB1__meas_3_1_2',
'QB3__meas_3_1_0',
'QB5__meas_3_1_1'],
'probe_lines': {'QB1': 'PL_RO-1',
'QB3': 'PL_RO-1',
'QB5': 'PL_RO-1'},
'qubits': ['QB1',
'QB2',
'QB3',
'QB4',
'QB5'],
'ragged_data_labels': {},
'ragged_hard_sweeps': [],
'ragged_hard_sweeps_data': [],
'ragged_parallel_sweeps': {},
'readout_components': ['QB1',
'QB3',
'QB5'],
'readout_group_names': ['all_components'],
'readout_groups': [['QB1',
'QB3',
'QB5']],
'readout_groups_without_label': ['all_components'],
'readout_label_to_impl': {'QB1__meas_3_1_2': 'measure_fidelity.constant',
'QB3__meas_3_1_0': 'measure_fidelity.constant',
'QB5__meas_3_1_1': 'measure_fidelity.constant'},
'target_data_parameters': [],
'time_trace_data_parameters': []},
hard_sweeps={'QB1__meas_3_1_2': [(Sweep(parameter=Parameter(name='repetitions', label='Averaging bin', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), data=[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254, 255, 256, 257, 258, 259, 260, 261, 262, 263, 264, 265, 266, 267, 268, 269, 270, 271, 272, 273, 274, 275, 276, 277, 278, 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, 289, 290, 291, 292, 293, 294, 295, 296, 297, 298, 299, 300, 301, 302, 303, 304, 305, 306, 307, 308, 309, 310, 311, 312, 313, 314, 315, 316, 317, 318, 319, 320, 321, 322, 323, 324, 325, 326, 327, 328, 329, 330, 331, 332, 333, 334, 335, 336, 337, 338, 339, 340, 341, 342, 343, 344, 345, 346, 347, 348, 349, 350, 351, 352, 353, 354, 355, 356, 357, 358, 359, 360, 361, 362, 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, 373, 374, 375, 376, 377, 378, 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'QB3__meas_3_1_0': [(Sweep(parameter=Parameter(name='repetitions', label='Averaging bin', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), data=[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, 180, 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'QB5__meas_3_1_1': [(Sweep(parameter=Parameter(name='repetitions', label='Averaging bin', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), data=[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, 180, 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981, 982, 983, 984, 985, 986, 987, 988, 989, 990, 991, 992, 993, 994, 995, 996, 997, 998, 999]),)]},
components=['QB1', 'QB2', 'QB3', 'QB4', 'QB5'],
default_data_parameters=['QB1__meas_3_1_2',
'QB3__meas_3_1_0',
'QB5__meas_3_1_1'],
default_sweep_parameters=[],
run_id=None,
username='Pulla User',
experiment_name='Pulla',
experiment_label='pulla',
options={},
software_version_set_id=0,
sweep_definition=SweepDefinition(sweep_id=None,
dut_label='M136_W521_A20_J10',
settings=SettingNode{'controllers': SettingNode{'QB1': SettingNode{'drive': SettingNode{'continuous_wave_enabled': Setting(parameter=Parameter(name='QB1__drive.continuous_wave_enabled', label='Enable continuous wave mode', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB1.drive.continuous_wave_enabled'), 'frequency': Setting(parameter=Parameter(name='QB1__drive.frequency', label='Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3893001948.56542, read_only=False, path='controllers.QB1.drive.frequency'), 'continuous_wave_amplitude': Setting(parameter=Parameter(name='QB1__drive.continuous_wave_amplitude', label='Scaling factor for CW output amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB1.drive.continuous_wave_amplitude'), 'status': Setting(parameter=Parameter(name='QB1__drive.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB1.drive.status'), 'local_oscillator': SettingNode{'phase': Setting(parameter=Parameter(name='QB1__drive.local_oscillator.phase', label='Phase', unit='deg', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB1.drive.local_oscillator.phase'), 'power': Setting(parameter=Parameter(name='QB1__drive.local_oscillator.power', label='Power', unit='dBm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=15, read_only=False, path='controllers.QB1.drive.local_oscillator.power'), 'frequency': Setting(parameter=Parameter(name='QB1__drive.local_oscillator.frequency', label='LO frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB1.drive.local_oscillator.frequency'), 'status': Setting(parameter=Parameter(name='QB1__drive.local_oscillator.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB1.drive.local_oscillator.status')}, 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='QB1__drive.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.0, read_only=False, path='controllers.QB1.drive.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='QB1__drive.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.QB1.drive.awg.device_type'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='QB1__drive.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB1.drive.awg.instruction_duration_granularity'), 'feedback_sources': Setting(parameter=Parameter(name='QB1__drive.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.QB1.drive.awg.feedback_sources'), 'status': Setting(parameter=Parameter(name='QB1__drive.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB1.drive.awg.status'), 'sampling_rate': Setting(parameter=Parameter(name='QB1__drive.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.QB1.drive.awg.sampling_rate'), 'intermediate_frequency': Setting(parameter=Parameter(name='QB1__drive.awg.intermediate_frequency', label='IQ intermediate frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-295000000.0, read_only=False, path='controllers.QB1.drive.awg.intermediate_frequency'), 'instruction_duration_min': Setting(parameter=Parameter(name='QB1__drive.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB1.drive.awg.instruction_duration_min'), 'trigger_delay': Setting(parameter=Parameter(name='QB1__drive.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5.24e-07, read_only=False, path='controllers.QB1.drive.awg.trigger_delay'), 'continuous_wave': SettingNode{'enabled': Setting(parameter=Parameter(name='QB1__drive.awg.continuous_wave.enabled', label='Continuous wave mode enabled', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB1.drive.awg.continuous_wave.enabled'), 'amplitude': Setting(parameter=Parameter(name='QB1__drive.awg.continuous_wave.amplitude', label='CW output amplitude scale', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB1.drive.awg.continuous_wave.amplitude')}, 'mixer_correction': SettingNode{'amplitude_imbalance': Setting(parameter=Parameter(name='QB1__drive.awg.mixer_correction.amplitude_imbalance', label='Amplitude imbalance', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB1.drive.awg.mixer_correction.amplitude_imbalance'), 'dc_bias_i': Setting(parameter=Parameter(name='QB1__drive.awg.mixer_correction.dc_bias_i', label='LO suppression DC bias I', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB1.drive.awg.mixer_correction.dc_bias_i'), 'phase_imbalance': Setting(parameter=Parameter(name='QB1__drive.awg.mixer_correction.phase_imbalance', label='I-Q phase imbalance', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB1.drive.awg.mixer_correction.phase_imbalance'), 'dc_bias_q': Setting(parameter=Parameter(name='QB1__drive.awg.mixer_correction.dc_bias_q', label='LO suppression DC bias Q', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB1.drive.awg.mixer_correction.dc_bias_q')}}}, 'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='QB1__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.21586795337665216, read_only=False, path='controllers.QB1.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='QB1__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3.0517694540765916e-05, read_only=True, path='controllers.QB1.flux.voltage_resolution')}}, 'QB2': SettingNode{'drive': SettingNode{'continuous_wave_enabled': Setting(parameter=Parameter(name='QB2__drive.continuous_wave_enabled', label='Enable continuous wave mode', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB2.drive.continuous_wave_enabled'), 'frequency': Setting(parameter=Parameter(name='QB2__drive.frequency', label='Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3894390434.844012, read_only=False, path='controllers.QB2.drive.frequency'), 'continuous_wave_amplitude': Setting(parameter=Parameter(name='QB2__drive.continuous_wave_amplitude', label='Scaling factor for CW output amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB2.drive.continuous_wave_amplitude'), 'status': Setting(parameter=Parameter(name='QB2__drive.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB2.drive.status'), 'local_oscillator': SettingNode{'phase': Setting(parameter=Parameter(name='QB2__drive.local_oscillator.phase', label='Phase', unit='deg', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB2.drive.local_oscillator.phase'), 'power': Setting(parameter=Parameter(name='QB2__drive.local_oscillator.power', label='Power', unit='dBm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=15, read_only=False, path='controllers.QB2.drive.local_oscillator.power'), 'frequency': Setting(parameter=Parameter(name='QB2__drive.local_oscillator.frequency', label='LO frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB2.drive.local_oscillator.frequency'), 'status': Setting(parameter=Parameter(name='QB2__drive.local_oscillator.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB2.drive.local_oscillator.status')}, 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='QB2__drive.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.0, read_only=False, path='controllers.QB2.drive.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='QB2__drive.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.QB2.drive.awg.device_type'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='QB2__drive.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB2.drive.awg.instruction_duration_granularity'), 'feedback_sources': Setting(parameter=Parameter(name='QB2__drive.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.QB2.drive.awg.feedback_sources'), 'status': Setting(parameter=Parameter(name='QB2__drive.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB2.drive.awg.status'), 'sampling_rate': Setting(parameter=Parameter(name='QB2__drive.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.QB2.drive.awg.sampling_rate'), 'intermediate_frequency': Setting(parameter=Parameter(name='QB2__drive.awg.intermediate_frequency', label='IQ intermediate frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-295000000.0, read_only=False, path='controllers.QB2.drive.awg.intermediate_frequency'), 'instruction_duration_min': Setting(parameter=Parameter(name='QB2__drive.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB2.drive.awg.instruction_duration_min'), 'trigger_delay': Setting(parameter=Parameter(name='QB2__drive.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5.78e-07, read_only=False, path='controllers.QB2.drive.awg.trigger_delay'), 'continuous_wave': SettingNode{'enabled': Setting(parameter=Parameter(name='QB2__drive.awg.continuous_wave.enabled', label='Continuous wave mode enabled', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB2.drive.awg.continuous_wave.enabled'), 'amplitude': Setting(parameter=Parameter(name='QB2__drive.awg.continuous_wave.amplitude', label='CW output amplitude scale', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB2.drive.awg.continuous_wave.amplitude')}, 'mixer_correction': SettingNode{'amplitude_imbalance': Setting(parameter=Parameter(name='QB2__drive.awg.mixer_correction.amplitude_imbalance', label='Amplitude imbalance', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB2.drive.awg.mixer_correction.amplitude_imbalance'), 'dc_bias_i': Setting(parameter=Parameter(name='QB2__drive.awg.mixer_correction.dc_bias_i', label='LO suppression DC bias I', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB2.drive.awg.mixer_correction.dc_bias_i'), 'phase_imbalance': Setting(parameter=Parameter(name='QB2__drive.awg.mixer_correction.phase_imbalance', label='I-Q phase imbalance', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB2.drive.awg.mixer_correction.phase_imbalance'), 'dc_bias_q': Setting(parameter=Parameter(name='QB2__drive.awg.mixer_correction.dc_bias_q', label='LO suppression DC bias Q', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB2.drive.awg.mixer_correction.dc_bias_q')}}}, 'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='QB2__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.6240347913573094, read_only=False, path='controllers.QB2.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='QB2__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3.0517694540765916e-05, read_only=True, path='controllers.QB2.flux.voltage_resolution')}}, 'QB3': SettingNode{'drive': SettingNode{'continuous_wave_enabled': Setting(parameter=Parameter(name='QB3__drive.continuous_wave_enabled', label='Enable continuous wave mode', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB3.drive.continuous_wave_enabled'), 'frequency': Setting(parameter=Parameter(name='QB3__drive.frequency', label='Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4097440314.279422, read_only=False, path='controllers.QB3.drive.frequency'), 'continuous_wave_amplitude': Setting(parameter=Parameter(name='QB3__drive.continuous_wave_amplitude', label='Scaling factor for CW output amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB3.drive.continuous_wave_amplitude'), 'status': Setting(parameter=Parameter(name='QB3__drive.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB3.drive.status'), 'local_oscillator': SettingNode{'phase': Setting(parameter=Parameter(name='QB3__drive.local_oscillator.phase', label='Phase', unit='deg', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB3.drive.local_oscillator.phase'), 'power': Setting(parameter=Parameter(name='QB3__drive.local_oscillator.power', label='Power', unit='dBm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=15, read_only=False, path='controllers.QB3.drive.local_oscillator.power'), 'frequency': Setting(parameter=Parameter(name='QB3__drive.local_oscillator.frequency', label='LO frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB3.drive.local_oscillator.frequency'), 'status': Setting(parameter=Parameter(name='QB3__drive.local_oscillator.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB3.drive.local_oscillator.status')}, 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='QB3__drive.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.0, read_only=False, path='controllers.QB3.drive.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='QB3__drive.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.QB3.drive.awg.device_type'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='QB3__drive.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB3.drive.awg.instruction_duration_granularity'), 'feedback_sources': Setting(parameter=Parameter(name='QB3__drive.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.QB3.drive.awg.feedback_sources'), 'status': Setting(parameter=Parameter(name='QB3__drive.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB3.drive.awg.status'), 'sampling_rate': Setting(parameter=Parameter(name='QB3__drive.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.QB3.drive.awg.sampling_rate'), 'intermediate_frequency': Setting(parameter=Parameter(name='QB3__drive.awg.intermediate_frequency', label='IQ intermediate frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-295000000.0, read_only=False, path='controllers.QB3.drive.awg.intermediate_frequency'), 'instruction_duration_min': Setting(parameter=Parameter(name='QB3__drive.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB3.drive.awg.instruction_duration_min'), 'trigger_delay': Setting(parameter=Parameter(name='QB3__drive.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=6.87e-07, read_only=False, path='controllers.QB3.drive.awg.trigger_delay'), 'continuous_wave': SettingNode{'enabled': Setting(parameter=Parameter(name='QB3__drive.awg.continuous_wave.enabled', label='Continuous wave mode enabled', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB3.drive.awg.continuous_wave.enabled'), 'amplitude': Setting(parameter=Parameter(name='QB3__drive.awg.continuous_wave.amplitude', label='CW output amplitude scale', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB3.drive.awg.continuous_wave.amplitude')}, 'mixer_correction': SettingNode{'amplitude_imbalance': Setting(parameter=Parameter(name='QB3__drive.awg.mixer_correction.amplitude_imbalance', label='Amplitude imbalance', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB3.drive.awg.mixer_correction.amplitude_imbalance'), 'dc_bias_i': Setting(parameter=Parameter(name='QB3__drive.awg.mixer_correction.dc_bias_i', label='LO suppression DC bias I', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB3.drive.awg.mixer_correction.dc_bias_i'), 'phase_imbalance': Setting(parameter=Parameter(name='QB3__drive.awg.mixer_correction.phase_imbalance', label='I-Q phase imbalance', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB3.drive.awg.mixer_correction.phase_imbalance'), 'dc_bias_q': Setting(parameter=Parameter(name='QB3__drive.awg.mixer_correction.dc_bias_q', label='LO suppression DC bias Q', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB3.drive.awg.mixer_correction.dc_bias_q')}}}, 'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='QB3__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.5618562620999104, read_only=False, path='controllers.QB3.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='QB3__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3.0517694540765916e-05, read_only=True, path='controllers.QB3.flux.voltage_resolution')}}, 'QB4': SettingNode{'drive': SettingNode{'continuous_wave_enabled': Setting(parameter=Parameter(name='QB4__drive.continuous_wave_enabled', label='Enable continuous wave mode', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB4.drive.continuous_wave_enabled'), 'frequency': Setting(parameter=Parameter(name='QB4__drive.frequency', label='Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3895637797.115004, read_only=False, path='controllers.QB4.drive.frequency'), 'continuous_wave_amplitude': Setting(parameter=Parameter(name='QB4__drive.continuous_wave_amplitude', label='Scaling factor for CW output amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB4.drive.continuous_wave_amplitude'), 'status': Setting(parameter=Parameter(name='QB4__drive.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB4.drive.status'), 'local_oscillator': SettingNode{'phase': Setting(parameter=Parameter(name='QB4__drive.local_oscillator.phase', label='Phase', unit='deg', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB4.drive.local_oscillator.phase'), 'power': Setting(parameter=Parameter(name='QB4__drive.local_oscillator.power', label='Power', unit='dBm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=15, read_only=False, path='controllers.QB4.drive.local_oscillator.power'), 'frequency': Setting(parameter=Parameter(name='QB4__drive.local_oscillator.frequency', label='LO frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB4.drive.local_oscillator.frequency'), 'status': Setting(parameter=Parameter(name='QB4__drive.local_oscillator.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB4.drive.local_oscillator.status')}, 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='QB4__drive.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.0, read_only=False, path='controllers.QB4.drive.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='QB4__drive.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.QB4.drive.awg.device_type'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='QB4__drive.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB4.drive.awg.instruction_duration_granularity'), 'feedback_sources': Setting(parameter=Parameter(name='QB4__drive.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.QB4.drive.awg.feedback_sources'), 'status': Setting(parameter=Parameter(name='QB4__drive.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB4.drive.awg.status'), 'sampling_rate': Setting(parameter=Parameter(name='QB4__drive.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.QB4.drive.awg.sampling_rate'), 'intermediate_frequency': Setting(parameter=Parameter(name='QB4__drive.awg.intermediate_frequency', label='IQ intermediate frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-295000000.0, read_only=False, path='controllers.QB4.drive.awg.intermediate_frequency'), 'instruction_duration_min': Setting(parameter=Parameter(name='QB4__drive.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB4.drive.awg.instruction_duration_min'), 'trigger_delay': Setting(parameter=Parameter(name='QB4__drive.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5.84e-07, read_only=False, path='controllers.QB4.drive.awg.trigger_delay'), 'continuous_wave': SettingNode{'enabled': Setting(parameter=Parameter(name='QB4__drive.awg.continuous_wave.enabled', label='Continuous wave mode enabled', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB4.drive.awg.continuous_wave.enabled'), 'amplitude': Setting(parameter=Parameter(name='QB4__drive.awg.continuous_wave.amplitude', label='CW output amplitude scale', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB4.drive.awg.continuous_wave.amplitude')}, 'mixer_correction': SettingNode{'amplitude_imbalance': Setting(parameter=Parameter(name='QB4__drive.awg.mixer_correction.amplitude_imbalance', label='Amplitude imbalance', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB4.drive.awg.mixer_correction.amplitude_imbalance'), 'dc_bias_i': Setting(parameter=Parameter(name='QB4__drive.awg.mixer_correction.dc_bias_i', label='LO suppression DC bias I', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB4.drive.awg.mixer_correction.dc_bias_i'), 'phase_imbalance': Setting(parameter=Parameter(name='QB4__drive.awg.mixer_correction.phase_imbalance', label='I-Q phase imbalance', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB4.drive.awg.mixer_correction.phase_imbalance'), 'dc_bias_q': Setting(parameter=Parameter(name='QB4__drive.awg.mixer_correction.dc_bias_q', label='LO suppression DC bias Q', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB4.drive.awg.mixer_correction.dc_bias_q')}}}, 'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='QB4__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.6465238319459756, read_only=False, path='controllers.QB4.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='QB4__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3.0517694540765916e-05, read_only=True, path='controllers.QB4.flux.voltage_resolution')}}, 'QB5': SettingNode{'drive': SettingNode{'continuous_wave_enabled': Setting(parameter=Parameter(name='QB5__drive.continuous_wave_enabled', label='Enable continuous wave mode', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB5.drive.continuous_wave_enabled'), 'frequency': Setting(parameter=Parameter(name='QB5__drive.frequency', label='Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3897780416.464923, read_only=False, path='controllers.QB5.drive.frequency'), 'continuous_wave_amplitude': Setting(parameter=Parameter(name='QB5__drive.continuous_wave_amplitude', label='Scaling factor for CW output amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB5.drive.continuous_wave_amplitude'), 'status': Setting(parameter=Parameter(name='QB5__drive.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB5.drive.status'), 'local_oscillator': SettingNode{'phase': Setting(parameter=Parameter(name='QB5__drive.local_oscillator.phase', label='Phase', unit='deg', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB5.drive.local_oscillator.phase'), 'power': Setting(parameter=Parameter(name='QB5__drive.local_oscillator.power', label='Power', unit='dBm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=15, read_only=False, path='controllers.QB5.drive.local_oscillator.power'), 'frequency': Setting(parameter=Parameter(name='QB5__drive.local_oscillator.frequency', label='LO frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.QB5.drive.local_oscillator.frequency'), 'status': Setting(parameter=Parameter(name='QB5__drive.local_oscillator.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB5.drive.local_oscillator.status')}, 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='QB5__drive.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.0, read_only=False, path='controllers.QB5.drive.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='QB5__drive.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.QB5.drive.awg.device_type'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='QB5__drive.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB5.drive.awg.instruction_duration_granularity'), 'feedback_sources': Setting(parameter=Parameter(name='QB5__drive.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.QB5.drive.awg.feedback_sources'), 'status': Setting(parameter=Parameter(name='QB5__drive.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.QB5.drive.awg.status'), 'sampling_rate': Setting(parameter=Parameter(name='QB5__drive.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.QB5.drive.awg.sampling_rate'), 'intermediate_frequency': Setting(parameter=Parameter(name='QB5__drive.awg.intermediate_frequency', label='IQ intermediate frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-295000000.0, read_only=False, path='controllers.QB5.drive.awg.intermediate_frequency'), 'instruction_duration_min': Setting(parameter=Parameter(name='QB5__drive.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.QB5.drive.awg.instruction_duration_min'), 'trigger_delay': Setting(parameter=Parameter(name='QB5__drive.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5.52e-07, read_only=False, path='controllers.QB5.drive.awg.trigger_delay'), 'continuous_wave': SettingNode{'enabled': Setting(parameter=Parameter(name='QB5__drive.awg.continuous_wave.enabled', label='Continuous wave mode enabled', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='controllers.QB5.drive.awg.continuous_wave.enabled'), 'amplitude': Setting(parameter=Parameter(name='QB5__drive.awg.continuous_wave.amplitude', label='CW output amplitude scale', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB5.drive.awg.continuous_wave.amplitude')}, 'mixer_correction': SettingNode{'amplitude_imbalance': Setting(parameter=Parameter(name='QB5__drive.awg.mixer_correction.amplitude_imbalance', label='Amplitude imbalance', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.QB5.drive.awg.mixer_correction.amplitude_imbalance'), 'dc_bias_i': Setting(parameter=Parameter(name='QB5__drive.awg.mixer_correction.dc_bias_i', label='LO suppression DC bias I', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB5.drive.awg.mixer_correction.dc_bias_i'), 'phase_imbalance': Setting(parameter=Parameter(name='QB5__drive.awg.mixer_correction.phase_imbalance', label='I-Q phase imbalance', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB5.drive.awg.mixer_correction.phase_imbalance'), 'dc_bias_q': Setting(parameter=Parameter(name='QB5__drive.awg.mixer_correction.dc_bias_q', label='LO suppression DC bias Q', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='controllers.QB5.drive.awg.mixer_correction.dc_bias_q')}}}, 'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='QB5__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.957553309769913, read_only=False, path='controllers.QB5.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='QB5__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3.0517694540765916e-05, read_only=True, path='controllers.QB5.flux.voltage_resolution')}}, 'TC-3-4': SettingNode{'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='TC-3-4__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.1076191936327977, read_only=False, path='controllers.TC-3-4.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='TC-3-4__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=9e-05, read_only=True, path='controllers.TC-3-4.flux.voltage_resolution'), 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='TC-3-4__flux.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.TC-3-4.flux.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='TC-3-4__flux.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.TC-3-4.flux.awg.device_type'), 'trigger_delay': Setting(parameter=Parameter(name='TC-3-4__flux.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5.3e-07, read_only=False, path='controllers.TC-3-4.flux.awg.trigger_delay'), 'feedback_sources': Setting(parameter=Parameter(name='TC-3-4__flux.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.TC-3-4.flux.awg.feedback_sources'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='TC-3-4__flux.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-3-4.flux.awg.instruction_duration_granularity'), 'sampling_rate': Setting(parameter=Parameter(name='TC-3-4__flux.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.TC-3-4.flux.awg.sampling_rate'), 'status': Setting(parameter=Parameter(name='TC-3-4__flux.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.TC-3-4.flux.awg.status'), 'instruction_duration_min': Setting(parameter=Parameter(name='TC-3-4__flux.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-3-4.flux.awg.instruction_duration_min'), 'precompensation': SettingNode{'fir_kernel': Setting(parameter=Parameter(name='TC-3-4__flux.awg.precompensation.fir_kernel', label='FIR impulse response samples', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[1.0], read_only=False, path='controllers.TC-3-4.flux.awg.precompensation.fir_kernel'), 'timeconstants': Setting(parameter=Parameter(name='TC-3-4__flux.awg.precompensation.timeconstants', label='Precompensation timeconstants', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[2.56322554e-06, 5.73498401e-07], read_only=False, path='controllers.TC-3-4.flux.awg.precompensation.timeconstants'), 'amplitudes': Setting(parameter=Parameter(name='TC-3-4__flux.awg.precompensation.amplitudes', label='Precompensation amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[-0.00200975, -0.01081126], read_only=False, path='controllers.TC-3-4.flux.awg.precompensation.amplitudes')}}}}, 'TC-1-3': SettingNode{'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='TC-1-3__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.0839404128487973, read_only=False, path='controllers.TC-1-3.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='TC-1-3__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=9e-05, read_only=True, path='controllers.TC-1-3.flux.voltage_resolution'), 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='TC-1-3__flux.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.TC-1-3.flux.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='TC-1-3__flux.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.TC-1-3.flux.awg.device_type'), 'trigger_delay': Setting(parameter=Parameter(name='TC-1-3__flux.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5e-07, read_only=False, path='controllers.TC-1-3.flux.awg.trigger_delay'), 'feedback_sources': Setting(parameter=Parameter(name='TC-1-3__flux.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.TC-1-3.flux.awg.feedback_sources'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='TC-1-3__flux.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-1-3.flux.awg.instruction_duration_granularity'), 'sampling_rate': Setting(parameter=Parameter(name='TC-1-3__flux.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.TC-1-3.flux.awg.sampling_rate'), 'status': Setting(parameter=Parameter(name='TC-1-3__flux.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.TC-1-3.flux.awg.status'), 'instruction_duration_min': Setting(parameter=Parameter(name='TC-1-3__flux.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-1-3.flux.awg.instruction_duration_min'), 'precompensation': SettingNode{'fir_kernel': Setting(parameter=Parameter(name='TC-1-3__flux.awg.precompensation.fir_kernel', label='FIR impulse response samples', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[1.0], read_only=False, path='controllers.TC-1-3.flux.awg.precompensation.fir_kernel'), 'timeconstants': Setting(parameter=Parameter(name='TC-1-3__flux.awg.precompensation.timeconstants', label='Precompensation timeconstants', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[7.2259895e-07, 2.10931568e-08, 5.68728855e-08, 1.09834893e-07], read_only=False, path='controllers.TC-1-3.flux.awg.precompensation.timeconstants'), 'amplitudes': Setting(parameter=Parameter(name='TC-1-3__flux.awg.precompensation.amplitudes', label='Precompensation amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[-0.01139311, -0.05833012, -0.0036522, -0.01364289], read_only=False, path='controllers.TC-1-3.flux.awg.precompensation.amplitudes')}}}}, 'TC-3-5': SettingNode{'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='TC-3-5__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.0375797785615527, read_only=False, path='controllers.TC-3-5.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='TC-3-5__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=9e-05, read_only=True, path='controllers.TC-3-5.flux.voltage_resolution'), 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='TC-3-5__flux.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.TC-3-5.flux.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='TC-3-5__flux.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.TC-3-5.flux.awg.device_type'), 'trigger_delay': Setting(parameter=Parameter(name='TC-3-5__flux.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5.3e-07, read_only=False, path='controllers.TC-3-5.flux.awg.trigger_delay'), 'feedback_sources': Setting(parameter=Parameter(name='TC-3-5__flux.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.TC-3-5.flux.awg.feedback_sources'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='TC-3-5__flux.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-3-5.flux.awg.instruction_duration_granularity'), 'sampling_rate': Setting(parameter=Parameter(name='TC-3-5__flux.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.TC-3-5.flux.awg.sampling_rate'), 'status': Setting(parameter=Parameter(name='TC-3-5__flux.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.TC-3-5.flux.awg.status'), 'instruction_duration_min': Setting(parameter=Parameter(name='TC-3-5__flux.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-3-5.flux.awg.instruction_duration_min'), 'precompensation': SettingNode{'fir_kernel': Setting(parameter=Parameter(name='TC-3-5__flux.awg.precompensation.fir_kernel', label='FIR impulse response samples', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[1.0], read_only=False, path='controllers.TC-3-5.flux.awg.precompensation.fir_kernel'), 'timeconstants': Setting(parameter=Parameter(name='TC-3-5__flux.awg.precompensation.timeconstants', label='Precompensation timeconstants', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[2.97626632e-06, 6.70519295e-07, 1.11508326e-07, 2.45160204e-08], read_only=False, path='controllers.TC-3-5.flux.awg.precompensation.timeconstants'), 'amplitudes': Setting(parameter=Parameter(name='TC-3-5__flux.awg.precompensation.amplitudes', label='Precompensation amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[-0.00355422, -0.00826827, -0.01511899, -0.01599437], read_only=False, path='controllers.TC-3-5.flux.awg.precompensation.amplitudes')}}}}, 'TC-2-3': SettingNode{'flux': SettingNode{'voltage': Setting(parameter=Parameter(name='TC-2-3__flux.voltage', label='Bias voltage', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.07037831440337904, read_only=False, path='controllers.TC-2-3.flux.voltage'), 'voltage_resolution': Setting(parameter=Parameter(name='TC-2-3__flux.voltage_resolution', label='Bias voltage resolution', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=9e-05, read_only=True, path='controllers.TC-2-3.flux.voltage_resolution'), 'awg': SettingNode{'output_range': Setting(parameter=Parameter(name='TC-2-3__flux.awg.output_range', label='DAC output range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.0, read_only=False, path='controllers.TC-2-3.flux.awg.output_range'), 'device_type': Setting(parameter=Parameter(name='TC-2-3__flux.awg.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='hdawg', read_only=True, path='controllers.TC-2-3.flux.awg.device_type'), 'trigger_delay': Setting(parameter=Parameter(name='TC-2-3__flux.awg.trigger_delay', label='Delay to correct trigger skew', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5e-07, read_only=False, path='controllers.TC-2-3.flux.awg.trigger_delay'), 'feedback_sources': Setting(parameter=Parameter(name='TC-2-3__flux.awg.feedback_sources', label='Available feedback signal sources', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=True, path='controllers.TC-2-3.flux.awg.feedback_sources'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='TC-2-3__flux.awg.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-2-3.flux.awg.instruction_duration_granularity'), 'sampling_rate': Setting(parameter=Parameter(name='TC-2-3__flux.awg.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2400000000.0, read_only=True, path='controllers.TC-2-3.flux.awg.sampling_rate'), 'status': Setting(parameter=Parameter(name='TC-2-3__flux.awg.status', label='Enable output', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.TC-2-3.flux.awg.status'), 'instruction_duration_min': Setting(parameter=Parameter(name='TC-2-3__flux.awg.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.TC-2-3.flux.awg.instruction_duration_min'), 'precompensation': SettingNode{'fir_kernel': Setting(parameter=Parameter(name='TC-2-3__flux.awg.precompensation.fir_kernel', label='FIR impulse response samples', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[1.0], read_only=False, path='controllers.TC-2-3.flux.awg.precompensation.fir_kernel'), 'timeconstants': Setting(parameter=Parameter(name='TC-2-3__flux.awg.precompensation.timeconstants', label='Precompensation timeconstants', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[1.49010655e-06, 5.32712049e-07, 8.8959505e-08, 2.34737149e-08], read_only=False, path='controllers.TC-2-3.flux.awg.precompensation.timeconstants'), 'amplitudes': Setting(parameter=Parameter(name='TC-2-3__flux.awg.precompensation.amplitudes', label='Precompensation amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[-0.00362817, -0.00929551, -0.01643672, -0.01374434], read_only=False, path='controllers.TC-2-3.flux.awg.precompensation.amplitudes')}}}}, 'PL_RO-1': SettingNode{'readout': SettingNode{'output_range': Setting(parameter=Parameter(name='PL_RO-1__readout.output_range', label='Signal output max range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.75, read_only=False, path='controllers.PL_RO-1.readout.output_range'), 'integration_stop_dead_time': Setting(parameter=Parameter(name='PL_RO-1__readout.integration_stop_dead_time', label='Minimum delay after integration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=256, read_only=True, path='controllers.PL_RO-1.readout.integration_stop_dead_time'), 'integration_start_dead_time': Setting(parameter=Parameter(name='PL_RO-1__readout.integration_start_dead_time', label='Minimum delay for readout pulses', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='controllers.PL_RO-1.readout.integration_start_dead_time'), 'input_range': Setting(parameter=Parameter(name='PL_RO-1__readout.input_range', label='Signal input range', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.5, read_only=False, path='controllers.PL_RO-1.readout.input_range'), 'device_type': Setting(parameter=Parameter(name='PL_RO-1__readout.device_type', label='Device type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='uhfqa', read_only=True, path='controllers.PL_RO-1.readout.device_type'), 'trigger_delay': Setting(parameter=Parameter(name='PL_RO-1__readout.trigger_delay', label='Delay after trigger', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5e-07, read_only=False, path='controllers.PL_RO-1.readout.trigger_delay'), 'instruction_duration_granularity': Setting(parameter=Parameter(name='PL_RO-1__readout.instruction_duration_granularity', label='Instruction duration granularity', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=16, read_only=True, path='controllers.PL_RO-1.readout.instruction_duration_granularity'), 'sampling_rate': Setting(parameter=Parameter(name='PL_RO-1__readout.sampling_rate', label='Sampling rate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1800000000.0, read_only=True, path='controllers.PL_RO-1.readout.sampling_rate'), 'instruction_duration_min': Setting(parameter=Parameter(name='PL_RO-1__readout.instruction_duration_min', label='Minimum instruction duration', unit='samples', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=32, read_only=True, path='controllers.PL_RO-1.readout.instruction_duration_min'), 'center_frequency': Setting(parameter=Parameter(name='PL_RO-1__readout.center_frequency', label='Center frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5450000000.0, read_only=False, path='controllers.PL_RO-1.readout.center_frequency'), 'local_oscillator': SettingNode{'phase': Setting(parameter=Parameter(name='PL_RO-1__readout.local_oscillator.phase', label='Phase', unit='deg', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.PL_RO-1.readout.local_oscillator.phase'), 'power': Setting(parameter=Parameter(name='PL_RO-1__readout.local_oscillator.power', label='Power', unit='dBm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=13, read_only=False, path='controllers.PL_RO-1.readout.local_oscillator.power'), 'frequency': Setting(parameter=Parameter(name='PL_RO-1__readout.local_oscillator.frequency', label='LO frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.PL_RO-1.readout.local_oscillator.frequency'), 'status': Setting(parameter=Parameter(name='PL_RO-1__readout.local_oscillator.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.PL_RO-1.readout.local_oscillator.status')}}, 'twpa': SettingNode{'voltage_2': Setting(parameter=Parameter(name='PL_RO-1__twpa.voltage_2', label='Output voltage channel 11', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.56, read_only=False, path='controllers.PL_RO-1.twpa.voltage_2'), 'resistance': Setting(parameter=Parameter(name='PL_RO-1__twpa.resistance', label='Resistance', unit='ohm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=300, read_only=True, path='controllers.PL_RO-1.twpa.resistance'), 'power': Setting(parameter=Parameter(name='PL_RO-1__twpa.power', label='Power', unit='dBm', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=14.5, read_only=False, path='controllers.PL_RO-1.twpa.power'), 'voltage_1': Setting(parameter=Parameter(name='PL_RO-1__twpa.voltage_1', label='Output voltage channel 10', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.56, read_only=False, path='controllers.PL_RO-1.twpa.voltage_1'), 'frequency': Setting(parameter=Parameter(name='PL_RO-1__twpa.frequency', label='LO frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=10150000000.0, read_only=False, path='controllers.PL_RO-1.twpa.frequency'), 'twpa_id': Setting(parameter=Parameter(name='PL_RO-1__twpa.twpa_id', label='TWPA ID', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='TWPA_ST_B2_44D', read_only=True, path='controllers.PL_RO-1.twpa.twpa_id'), 'status': Setting(parameter=Parameter(name='PL_RO-1__twpa.status', label='Output on', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='controllers.PL_RO-1.twpa.status')}}, 'counter': SettingNode{'subscribed_channels': Setting(parameter=Parameter(name='counter.subscribed_channels', label='Subscribed channels', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='controllers.counter.subscribed_channels'), 'result': Setting(parameter=Parameter(name='counter.result', label='Multi-qubit state probabilities', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=True, path='controllers.counter.result')}, 'options': SettingNode{'trigger_master': Setting(parameter=Parameter(name='options.trigger_master', label='Trigger master controller name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='QB3__drive.awg', read_only=False, path='controllers.options.trigger_master'), 'chunk_size_multiplicity': Setting(parameter=Parameter(name='options.chunk_size_multiplicity', label='Chunk size multiplicity', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=False, path='controllers.options.chunk_size_multiplicity'), 'averaging_bins': Setting(parameter=Parameter(name='options.averaging_bins', label='Number of bins to average the repetititions', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1000, read_only=False, path='controllers.options.averaging_bins'), 'iterator': Setting(parameter=Parameter(name='options.iterator', label='Iteration', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='controllers.options.iterator'), 'max_playlist_chunk_size': Setting(parameter=Parameter(name='options.max_playlist_chunk_size', label='Max playlist chunk size', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=100000, read_only=False, path='controllers.options.max_playlist_chunk_size'), 'end_delay': Setting(parameter=Parameter(name='options.end_delay', label='Time after segment until next trigger', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.12e-06, read_only=False, path='controllers.options.end_delay'), 'playlist_repeats': Setting(parameter=Parameter(name='options.playlist_repeats', label='Number of playlist repeats', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1000, read_only=False, path='controllers.options.playlist_repeats')}}, 'gates': SettingNode{'barrier': SettingNode{'': SettingNode{'QB5': SettingNode{}, 'TC-1-3': SettingNode{}, 'QB1': SettingNode{}, 'QB4': SettingNode{}, 'QB3': SettingNode{}, 'TC-3-5': SettingNode{}, 'PL_RO-1': SettingNode{}, 'QB2': SettingNode{}, 'TC-3-4': SettingNode{}, 'TC-2-3': SettingNode{}}}, 'delay': SettingNode{'wait': SettingNode{'QB1': SettingNode{}, 'QB2': SettingNode{}, 'QB3': SettingNode{}, 'QB4': SettingNode{}, 'QB5': SettingNode{}}}, 'measure': SettingNode{'constant': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.constant.QB1.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB1.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.constant.QB1.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5217285714.285714, read_only=False, path='gates.measure.constant.QB1.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.constant.QB1.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.045728563763529, read_only=False, path='gates.measure.constant.QB1.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.constant.QB1.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.2791071428571429, read_only=False, path='gates.measure.constant.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.constant.QB1.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.constant.QB1.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.constant.QB1.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB1.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.constant.QB1.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([0.00579371, 0.00843677, 0.0113594 , ..., 0.78900872, 0.79664688,
0.8035038 ], shape=(1440,)), read_only=False, path='gates.measure.constant.QB1.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.constant.QB1.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.02896419, -0.02759826, -0.02629985, ..., -0.57655531,
-0.5863827 , -0.59529963], shape=(1440,)), read_only=False, path='gates.measure.constant.QB1.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.constant.QB1.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.03572985152348126, read_only=False, path='gates.measure.constant.QB1.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.constant.QB1.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.constant.QB1.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.constant.QB1.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure.constant.QB1.acquisition_delay')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.constant.QB2.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB2.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.constant.QB2.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4915485714.285714, read_only=False, path='gates.measure.constant.QB2.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.constant.QB2.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.296737101268782, read_only=False, path='gates.measure.constant.QB2.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.constant.QB2.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.30000000000000004, read_only=False, path='gates.measure.constant.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.constant.QB2.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.constant.QB2.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.constant.QB2.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB2.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.constant.QB2.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.01652652, -0.01436001, -0.01202007, ..., 0.84352725,
0.84935379, 0.85464031], shape=(1440,)), read_only=False, path='gates.measure.constant.QB2.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.constant.QB2.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([7.15579570e-03, 3.72783976e-03, 2.42460726e-04, ...,
4.94337464e-01, 5.07380577e-01, 5.19220516e-01], shape=(1440,)), read_only=False, path='gates.measure.constant.QB2.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.constant.QB2.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.014903244074267808, read_only=False, path='gates.measure.constant.QB2.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.constant.QB2.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.constant.QB2.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.constant.QB2.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure.constant.QB2.acquisition_delay')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.constant.QB3.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB3.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.constant.QB3.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=6101600000.0, read_only=False, path='gates.measure.constant.QB3.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.constant.QB3.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.2617432268693056, read_only=False, path='gates.measure.constant.QB3.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.constant.QB3.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.16592857142857145, read_only=False, path='gates.measure.constant.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.constant.QB3.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.constant.QB3.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.constant.QB3.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB3.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.constant.QB3.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.01590809, -0.01320829, -0.01036792, ..., 0.786515 ,
0.79448985, 0.80165076], shape=(1440,)), read_only=False, path='gates.measure.constant.QB3.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.constant.QB3.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([ 0.0069008 , 0.00580315, 0.00476069, ..., -0.32857142,
-0.33487374, -0.34055623], shape=(1440,)), read_only=False, path='gates.measure.constant.QB3.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.constant.QB3.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.004155214760336201, read_only=False, path='gates.measure.constant.QB3.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.constant.QB3.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.constant.QB3.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.constant.QB3.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure.constant.QB3.acquisition_delay')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.constant.QB4.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB4.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.constant.QB4.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5811400000.0, read_only=False, path='gates.measure.constant.QB4.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.constant.QB4.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.0355567595728177, read_only=False, path='gates.measure.constant.QB4.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.constant.QB4.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.22624642857142857, read_only=False, path='gates.measure.constant.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.constant.QB4.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.constant.QB4.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.constant.QB4.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB4.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.constant.QB4.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([0.02574036, 0.02964464, 0.03390654, ..., 0.89397359, 0.90300218,
0.91114416], shape=(1440,)), read_only=False, path='gates.measure.constant.QB4.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.constant.QB4.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.02828731, -0.02693777, -0.02563723, ..., -0.39907177,
-0.40589203, -0.41208775], shape=(1440,)), read_only=False, path='gates.measure.constant.QB4.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.constant.QB4.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.005518932989706017, read_only=False, path='gates.measure.constant.QB4.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.constant.QB4.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.constant.QB4.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.constant.QB4.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure.constant.QB4.acquisition_delay')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.constant.QB5.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB5.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.constant.QB5.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5510685714.285714, read_only=False, path='gates.measure.constant.QB5.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.constant.QB5.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-2.8968589550266213, read_only=False, path='gates.measure.constant.QB5.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.constant.QB5.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.15979642857142856, read_only=False, path='gates.measure.constant.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.constant.QB5.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.constant.QB5.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.constant.QB5.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure.constant.QB5.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.constant.QB5.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.01267041, -0.00987769, -0.00691842, ..., 0.09118683,
0.07992623, 0.06972885], shape=(1440,)), read_only=False, path='gates.measure.constant.QB5.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.constant.QB5.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([ 0.00443858, 0.00108815, -0.00225643, ..., 0.84707554,
0.86220508, 0.87590879], shape=(1440,)), read_only=False, path='gates.measure.constant.QB5.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.constant.QB5.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.02309068011298452, read_only=False, path='gates.measure.constant.QB5.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.constant.QB5.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.constant.QB5.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.constant.QB5.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure.constant.QB5.acquisition_delay')}}, 'fast_constant': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB1.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB1.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB1.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB1.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB1.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB1.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB1.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB1.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.fast_constant.QB1.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB1.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB1.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB1.locus_deadtime')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB2.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB2.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB2.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB2.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB2.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB2.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB2.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB2.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.fast_constant.QB2.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB2.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB2.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB2.locus_deadtime')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB3.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB3.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB3.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB3.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB3.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB3.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB3.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB3.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.fast_constant.QB3.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB3.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB3.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB3.locus_deadtime')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB4.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB4.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB4.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB4.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB4.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB4.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB4.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB4.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.fast_constant.QB4.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB4.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB4.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB4.locus_deadtime')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB5.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB5.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB5.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB5.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB5.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB5.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure.fast_constant.QB5.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB5.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure.fast_constant.QB5.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure.fast_constant.QB5.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.measure.fast_constant.QB5.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure.fast_constant.QB5.locus_deadtime')}}, 'constant_bias': SettingNode{}}, 'measure_fidelity': SettingNode{'constant': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB1.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5217285714.285714, read_only=False, path='gates.measure_fidelity.constant.QB1.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.0143230990355314, read_only=False, path='gates.measure_fidelity.constant.QB1.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.2791071428571429, read_only=False, path='gates.measure_fidelity.constant.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.constant.QB1.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB1.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.04991703, -0.04393035, -0.03769187, ..., 0.78122431,
0.78865088, 0.79531766], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB1.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.00286735, -0.00256957, -0.00225998, ..., -0.58658366,
-0.59686228, -0.6061929 ], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB1.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.035994194952641695, read_only=False, path='gates.measure_fidelity.constant.QB1.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.constant.QB1.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB1.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure_fidelity.constant.QB1.acquisition_delay')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB2.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4915485714.285714, read_only=False, path='gates.measure_fidelity.constant.QB2.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.2085265814555797, read_only=False, path='gates.measure_fidelity.constant.QB2.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.30000000000000004, read_only=False, path='gates.measure_fidelity.constant.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.constant.QB2.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB2.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.0611552 , -0.05671822, -0.05209765, ..., 0.83919576,
0.84550719, 0.8512271 ], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB2.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.00351297, -0.00583362, -0.00822655, ..., 0.50066602,
0.51331951, 0.5247975 ], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB2.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.014239852511900703, read_only=False, path='gates.measure_fidelity.constant.QB2.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.constant.QB2.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB2.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure_fidelity.constant.QB2.acquisition_delay')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB3.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=6101600000.0, read_only=False, path='gates.measure_fidelity.constant.QB3.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.2797158656788303, read_only=False, path='gates.measure_fidelity.constant.QB3.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.16592857142857145, read_only=False, path='gates.measure_fidelity.constant.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.constant.QB3.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB3.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.04405062, -0.03963518, -0.03505948, ..., 0.79270089,
0.8009039 , 0.80827252], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB3.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.0012186 , -0.00203593, -0.00281253, ..., -0.35972403,
-0.36652355, -0.37265292], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB3.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.0006911164394515917, read_only=False, path='gates.measure_fidelity.constant.QB3.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.constant.QB3.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB3.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure_fidelity.constant.QB3.acquisition_delay')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB4.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5811400000.0, read_only=False, path='gates.measure_fidelity.constant.QB4.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.160569176029716, read_only=False, path='gates.measure_fidelity.constant.QB4.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.22624642857142857, read_only=False, path='gates.measure_fidelity.constant.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.constant.QB4.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB4.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.04095901, -0.0344312 , -0.02758717, ..., 0.86983401,
0.87889001, 0.88704919], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB4.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.01321868, -0.01397123, -0.0147565 , ..., -0.44867638,
-0.45548369, -0.46167493], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB4.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.003130592993609094, read_only=False, path='gates.measure_fidelity.constant.QB4.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.constant.QB4.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB4.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure_fidelity.constant.QB4.acquisition_delay')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB5.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5510685714.285714, read_only=False, path='gates.measure_fidelity.constant.QB5.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-3.051736647799194, read_only=False, path='gates.measure_fidelity.constant.QB5.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.15979642857142856, read_only=False, path='gates.measure_fidelity.constant.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.constant.QB5.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=8e-07, read_only=False, path='gates.measure_fidelity.constant.QB5.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([-0.06196471, -0.05653603, -0.05092402, ..., 0.09213388,
0.08116099, 0.07123159], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB5.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([0.0074162 , 0.0054969 , 0.00350659, ..., 0.81094909, 0.82743708,
0.84237177], shape=(1440,)), read_only=False, path='gates.measure_fidelity.constant.QB5.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.02743905109026746, read_only=False, path='gates.measure_fidelity.constant.QB5.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.constant.QB5.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.constant.QB5.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3500000000000005e-07, read_only=False, path='gates.measure_fidelity.constant.QB5.acquisition_delay')}}, 'shelved_constant': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.acquisition_delay'), 'second_prx_12_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.second_prx_12_offset', label='Offset of the second PRX_12 pulse from the end the ReadoutTrigger', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.second_prx_12_offset'), 'do_prx_12': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.do_prx_12', label='Whether to do the prx_12 flips in the measure operation', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.do_prx_12'), 'gates': SettingNode{'prx_12': SettingNode{'modulated_drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB1.gates.prx_12.modulated_drag_crf.QB1.center_offset')}}}}}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.acquisition_delay'), 'second_prx_12_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.second_prx_12_offset', label='Offset of the second PRX_12 pulse from the end the ReadoutTrigger', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.second_prx_12_offset'), 'do_prx_12': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.do_prx_12', label='Whether to do the prx_12 flips in the measure operation', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.do_prx_12'), 'gates': SettingNode{'prx_12': SettingNode{'modulated_drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB2.gates.prx_12.modulated_drag_crf.QB2.center_offset')}}}}}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.acquisition_delay'), 'second_prx_12_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.second_prx_12_offset', label='Offset of the second PRX_12 pulse from the end the ReadoutTrigger', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.second_prx_12_offset'), 'do_prx_12': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.do_prx_12', label='Whether to do the prx_12 flips in the measure operation', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.do_prx_12'), 'gates': SettingNode{'prx_12': SettingNode{'modulated_drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB3.gates.prx_12.modulated_drag_crf.QB3.center_offset')}}}}}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.acquisition_delay'), 'second_prx_12_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.second_prx_12_offset', label='Offset of the second PRX_12 pulse from the end the ReadoutTrigger', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.second_prx_12_offset'), 'do_prx_12': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.do_prx_12', label='Whether to do the prx_12 flips in the measure operation', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.do_prx_12'), 'gates': SettingNode{'prx_12': SettingNode{'modulated_drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB4.gates.prx_12.modulated_drag_crf.QB4.center_offset')}}}}}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.duration'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.frequency'), 'phase': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=array([], dtype=float64), read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='threshold', read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.acquisition_delay'), 'second_prx_12_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.second_prx_12_offset', label='Offset of the second PRX_12 pulse from the end the ReadoutTrigger', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.second_prx_12_offset'), 'do_prx_12': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.do_prx_12', label='Whether to do the prx_12 flips in the measure operation', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.do_prx_12'), 'gates': SettingNode{'prx_12': SettingNode{'modulated_drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.measure_fidelity.shelved_constant.QB5.gates.prx_12.modulated_drag_crf.QB5.center_offset')}}}}}}, 'constant_bias': SettingNode{}}, 'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian.QB1.center_offset')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian.QB2.center_offset')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian.QB3.center_offset')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian.QB4.center_offset')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf.QB1.center_offset')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf.QB2.center_offset')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf.QB3.center_offset')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf.QB4.center_offset')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.46340708239125256, read_only=False, path='gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.0170831801697053, read_only=False, path='gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.005068370789407436, read_only=False, path='gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.005068370789407436, read_only=False, path='gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf_sx.QB1.center_offset')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.4426796751504445, read_only=False, path='gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.020800776415031044, read_only=False, path='gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.011927091871849316, read_only=False, path='gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.011927091871849316, read_only=False, path='gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf_sx.QB2.center_offset')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.43697069389793186, read_only=False, path='gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.0435309950291122, read_only=False, path='gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.06224269422079559, read_only=False, path='gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.06224269422079559, read_only=False, path='gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf_sx.QB3.center_offset')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.4340437615225982, read_only=False, path='gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.01710359127896637, read_only=False, path='gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.01200405247792772, read_only=False, path='gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.01200405247792772, read_only=False, path='gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf_sx.QB4.center_offset')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.4137882293238724, read_only=False, path='gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.011835442054466057, read_only=False, path='gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.004607673051304397, read_only=False, path='gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.004607673051304397, read_only=False, path='gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2e-08, read_only=False, path='gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian_sx.QB1.center_offset')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian_sx.QB2.center_offset')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian_sx.QB3.center_offset')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian_sx.QB4.center_offset')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx.drag_gaussian_sx.QB5.center_offset')}}}, 'prx_12': SettingNode{'modulated_drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB1.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.3532269061887099, read_only=False, path='gates.prx_12.modulated_drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB1.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.002046978598061935, read_only=False, path='gates.prx_12.modulated_drag_crf.QB1.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB1.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-223546067.60628128, read_only=False, path='gates.prx_12.modulated_drag_crf.QB1.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx_12.modulated_drag_crf.QB1.center_offset')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB2.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.3560530802445656, read_only=False, path='gates.prx_12.modulated_drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB2.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.0008037776079261961, read_only=False, path='gates.prx_12.modulated_drag_crf.QB2.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB2.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-224316597.92152452, read_only=False, path='gates.prx_12.modulated_drag_crf.QB2.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx_12.modulated_drag_crf.QB2.center_offset')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB3.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.321506694771247, read_only=False, path='gates.prx_12.modulated_drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB3.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.007800749374738971, read_only=False, path='gates.prx_12.modulated_drag_crf.QB3.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB3.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-218607733.2984157, read_only=False, path='gates.prx_12.modulated_drag_crf.QB3.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx_12.modulated_drag_crf.QB3.center_offset')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB4.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.3138383441006192, read_only=False, path='gates.prx_12.modulated_drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB4.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.004049381900410451, read_only=False, path='gates.prx_12.modulated_drag_crf.QB4.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB4.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-221261808.0140853, read_only=False, path='gates.prx_12.modulated_drag_crf.QB4.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx_12.modulated_drag_crf.QB4.center_offset')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB5.amplitude_i', label='pi pulse amplitude of base band I waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.31616644547754597, read_only=False, path='gates.prx_12.modulated_drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB5.amplitude_q', label='pi pulse amplitude of base band Q waveform', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.0034638977868891216, read_only=False, path='gates.prx_12.modulated_drag_crf.QB5.amplitude_q'), 'frequency': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB5.frequency', label='modulated pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-222127307.9284768, read_only=False, path='gates.prx_12.modulated_drag_crf.QB5.frequency'), 'full_width': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4e-08, read_only=False, path='gates.prx_12.modulated_drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.prx_12.modulated_drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.prx_12.modulated_drag_crf.QB5.center_offset')}}}, 'u': SettingNode{'prx_u': SettingNode{'QB1': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}, 'QB2': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}, 'QB3': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}, 'QB4': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}, 'QB5': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.u.prx_u.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}}, 'sx': SettingNode{'prx_sx': SettingNode{'QB1': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}, 'QB2': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}, 'QB3': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}, 'QB4': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}, 'QB5': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.sx.prx_sx.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}}, 'rz': SettingNode{'virtual': SettingNode{'QB1': SettingNode{}, 'QB2': SettingNode{}, 'QB3': SettingNode{}, 'QB4': SettingNode{}, 'QB5': SettingNode{}}, 'prx_composite': SettingNode{'QB1': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}, 'QB2': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}, 'QB3': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}, 'QB4': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}, 'QB5': SettingNode{'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}}, 'rz_physical': SettingNode{'ac_stark_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.duration'), 'full_width': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.amplitude'), 'phase_increment': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB1.phase_increment', label='phase increment', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB1.phase_increment')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.duration'), 'full_width': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.amplitude'), 'phase_increment': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB2.phase_increment', label='phase increment', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB2.phase_increment')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.duration'), 'full_width': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.amplitude'), 'phase_increment': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB3.phase_increment', label='phase increment', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB3.phase_increment')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.duration'), 'full_width': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.amplitude'), 'phase_increment': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB4.phase_increment', label='phase increment', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB4.phase_increment')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.duration'), 'full_width': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.amplitude'), 'phase_increment': Setting(parameter=Parameter(name='gates.rz_physical.ac_stark_crf.QB5.phase_increment', label='phase increment', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.rz_physical.ac_stark_crf.QB5.phase_increment')}}}, 'cz': SettingNode{'tgss': SettingNode{'QB1__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.tgss.QB1__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB1__QB3.duration'), 'rz': SettingNode{'QB1': Setting(parameter=Parameter(name='gates.cz.tgss.QB1__QB3.rz.QB1', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB1__QB3.rz.QB1'), 'QB3': Setting(parameter=Parameter(name='gates.cz.tgss.QB1__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB1__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.tgss.QB1__QB3.coupler.full_width', label='Coupler flux pulse full_width of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB1__QB3.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.tgss.QB1__QB3.coupler.rise_time', label='Coupler flux pulse rise_time of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB1__QB3.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.tgss.QB1__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB1__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.tgss.QB1__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB1__QB3.coupler.amplitude')}}, 'QB2__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.tgss.QB2__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB2__QB3.duration'), 'rz': SettingNode{'QB2': Setting(parameter=Parameter(name='gates.cz.tgss.QB2__QB3.rz.QB2', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB2__QB3.rz.QB2'), 'QB3': Setting(parameter=Parameter(name='gates.cz.tgss.QB2__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB2__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.tgss.QB2__QB3.coupler.full_width', label='Coupler flux pulse full_width of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB2__QB3.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.tgss.QB2__QB3.coupler.rise_time', label='Coupler flux pulse rise_time of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB2__QB3.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.tgss.QB2__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB2__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.tgss.QB2__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB2__QB3.coupler.amplitude')}}, 'QB3__QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB4.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB4.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB4.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB3__QB4.rz.QB3'), 'QB4': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB4.rz.QB4', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB3__QB4.rz.QB4')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB4.coupler.full_width', label='Coupler flux pulse full_width of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB4.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB4.coupler.rise_time', label='Coupler flux pulse rise_time of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB4.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB4.coupler.center_offset', label='Coupler flux pulse center_offset of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB3__QB4.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB4.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB4.coupler.amplitude')}}, 'QB3__QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB5.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB5.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB5.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB3__QB5.rz.QB3'), 'QB5': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB5.rz.QB5', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB3__QB5.rz.QB5')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB5.coupler.full_width', label='Coupler flux pulse full_width of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB5.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB5.coupler.rise_time', label='Coupler flux pulse rise_time of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB5.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB5.coupler.center_offset', label='Coupler flux pulse center_offset of tgss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.tgss.QB3__QB5.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.tgss.QB3__QB5.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.tgss.QB3__QB5.coupler.amplitude')}}}, 'tgss_crf': SettingNode{}, 'crf_crf': SettingNode{}, 'crf': SettingNode{'QB1__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf.QB1__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.3333333333333336e-07, read_only=False, path='gates.cz.crf.QB1__QB3.duration'), 'rz': SettingNode{'QB1': Setting(parameter=Parameter(name='gates.cz.crf.QB1__QB3.rz.QB1', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.3388307517135076, read_only=False, path='gates.cz.crf.QB1__QB3.rz.QB1'), 'QB3': Setting(parameter=Parameter(name='gates.cz.crf.QB1__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4.702213383843575, read_only=False, path='gates.cz.crf.QB1__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf.QB1__QB3.coupler.full_width', label='Coupler flux pulse full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4.3340404690683847e-08, read_only=False, path='gates.cz.crf.QB1__QB3.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf.QB1__QB3.coupler.rise_time', label='Coupler flux pulse rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1e-08, read_only=False, path='gates.cz.crf.QB1__QB3.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf.QB1__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf.QB1__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf.QB1__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.1809272023238992, read_only=False, path='gates.cz.crf.QB1__QB3.coupler.amplitude')}}, 'QB2__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf.QB2__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.3333333333333336e-07, read_only=False, path='gates.cz.crf.QB2__QB3.duration'), 'rz': SettingNode{'QB2': Setting(parameter=Parameter(name='gates.cz.crf.QB2__QB3.rz.QB2', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.4895325577549476, read_only=False, path='gates.cz.crf.QB2__QB3.rz.QB2'), 'QB3': Setting(parameter=Parameter(name='gates.cz.crf.QB2__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4.952539810243617, read_only=False, path='gates.cz.crf.QB2__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf.QB2__QB3.coupler.full_width', label='Coupler flux pulse full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4.0423843609469995e-08, read_only=False, path='gates.cz.crf.QB2__QB3.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf.QB2__QB3.coupler.rise_time', label='Coupler flux pulse rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1e-08, read_only=False, path='gates.cz.crf.QB2__QB3.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf.QB2__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf.QB2__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf.QB2__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.12778784862962866, read_only=False, path='gates.cz.crf.QB2__QB3.coupler.amplitude')}}, 'QB3__QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB4.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.3333333333333336e-07, read_only=False, path='gates.cz.crf.QB3__QB4.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB4.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=5.163739329424256, read_only=False, path='gates.cz.crf.QB3__QB4.rz.QB3'), 'QB4': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB4.rz.QB4', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.426375137620234, read_only=False, path='gates.cz.crf.QB3__QB4.rz.QB4')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB4.coupler.full_width', label='Coupler flux pulse full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3.8163189629381287e-08, read_only=False, path='gates.cz.crf.QB3__QB4.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB4.coupler.rise_time', label='Coupler flux pulse rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1e-08, read_only=False, path='gates.cz.crf.QB3__QB4.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB4.coupler.center_offset', label='Coupler flux pulse center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf.QB3__QB4.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB4.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.18556117533605, read_only=False, path='gates.cz.crf.QB3__QB4.coupler.amplitude')}}, 'QB3__QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB5.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1.3333333333333336e-07, read_only=False, path='gates.cz.crf.QB3__QB5.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB5.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=4.958901569167921, read_only=False, path='gates.cz.crf.QB3__QB5.rz.QB3'), 'QB5': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB5.rz.QB5', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.32792388128012, read_only=False, path='gates.cz.crf.QB3__QB5.rz.QB5')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB5.coupler.full_width', label='Coupler flux pulse full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=3.30768756304332e-08, read_only=False, path='gates.cz.crf.QB3__QB5.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB5.coupler.rise_time', label='Coupler flux pulse rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1e-08, read_only=False, path='gates.cz.crf.QB3__QB5.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB5.coupler.center_offset', label='Coupler flux pulse center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf.QB3__QB5.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf.QB3__QB5.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.16478219643233483, read_only=False, path='gates.cz.crf.QB3__QB5.coupler.amplitude')}}}, 'gaussian_smoothed_square': SettingNode{'QB1__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB1__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB1__QB3.duration'), 'rz': SettingNode{'QB1': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB1__QB3.rz.QB1', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB1__QB3.rz.QB1'), 'QB3': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB1__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB1__QB3.rz.QB3')}, 'coupler': SettingNode{'square_width': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.square_width', label='Coupler flux pulse square_width of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.square_width'), 'gaussian_sigma': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.gaussian_sigma', label='Coupler flux pulse gaussian_sigma of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.gaussian_sigma'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB1__QB3.coupler.amplitude')}}, 'QB2__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB2__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB2__QB3.duration'), 'rz': SettingNode{'QB2': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB2__QB3.rz.QB2', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB2__QB3.rz.QB2'), 'QB3': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB2__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB2__QB3.rz.QB3')}, 'coupler': SettingNode{'square_width': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.square_width', label='Coupler flux pulse square_width of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.square_width'), 'gaussian_sigma': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.gaussian_sigma', label='Coupler flux pulse gaussian_sigma of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.gaussian_sigma'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB2__QB3.coupler.amplitude')}}, 'QB3__QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB4.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB4.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB4.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB4.rz.QB3'), 'QB4': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB4.rz.QB4', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB4.rz.QB4')}, 'coupler': SettingNode{'square_width': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.square_width', label='Coupler flux pulse square_width of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.square_width'), 'gaussian_sigma': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.gaussian_sigma', label='Coupler flux pulse gaussian_sigma of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.gaussian_sigma'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.center_offset', label='Coupler flux pulse center_offset of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB4.coupler.amplitude')}}, 'QB3__QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB5.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB5.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB5.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB5.rz.QB3'), 'QB5': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB5.rz.QB5', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB5.rz.QB5')}, 'coupler': SettingNode{'square_width': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.square_width', label='Coupler flux pulse square_width of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.square_width'), 'gaussian_sigma': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.gaussian_sigma', label='Coupler flux pulse gaussian_sigma of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.gaussian_sigma'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.center_offset', label='Coupler flux pulse center_offset of gss', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.gaussian_smoothed_square.QB3__QB5.coupler.amplitude')}}}, 'slepian': SettingNode{'QB1__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.duration'), 'rz': SettingNode{'QB1': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.rz.QB1', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB1__QB3.rz.QB1'), 'QB3': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB1__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.full_width', label='Coupler flux pulse full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.lambda_1', label='Coupler flux pulse lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.lambda_2', label='Coupler flux pulse lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.frequency_initial_normalized', label='Coupler flux pulse frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.frequency_to_minimize_normalized', label='Coupler flux pulse frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.coupling_strength_normalized', label='Coupler flux pulse coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.squid_asymmetry', label='Coupler flux pulse squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian.QB1__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB1__QB3.coupler.amplitude')}}, 'QB2__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.duration'), 'rz': SettingNode{'QB2': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.rz.QB2', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB2__QB3.rz.QB2'), 'QB3': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB2__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.full_width', label='Coupler flux pulse full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.lambda_1', label='Coupler flux pulse lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.lambda_2', label='Coupler flux pulse lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.frequency_initial_normalized', label='Coupler flux pulse frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.frequency_to_minimize_normalized', label='Coupler flux pulse frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.coupling_strength_normalized', label='Coupler flux pulse coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.center_offset', label='Coupler flux pulse center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.squid_asymmetry', label='Coupler flux pulse squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian.QB2__QB3.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB2__QB3.coupler.amplitude')}}, 'QB3__QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB3__QB4.rz.QB3'), 'QB4': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.rz.QB4', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB3__QB4.rz.QB4')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.full_width', label='Coupler flux pulse full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.lambda_1', label='Coupler flux pulse lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.lambda_2', label='Coupler flux pulse lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.frequency_initial_normalized', label='Coupler flux pulse frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.frequency_to_minimize_normalized', label='Coupler flux pulse frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.coupling_strength_normalized', label='Coupler flux pulse coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.center_offset', label='Coupler flux pulse center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.squid_asymmetry', label='Coupler flux pulse squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB4.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB4.coupler.amplitude')}}, 'QB3__QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB3__QB5.rz.QB3'), 'QB5': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.rz.QB5', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian.QB3__QB5.rz.QB5')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.full_width', label='Coupler flux pulse full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.lambda_1', label='Coupler flux pulse lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.lambda_2', label='Coupler flux pulse lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.frequency_initial_normalized', label='Coupler flux pulse frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.frequency_to_minimize_normalized', label='Coupler flux pulse frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.coupling_strength_normalized', label='Coupler flux pulse coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.center_offset', label='Coupler flux pulse center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.squid_asymmetry', label='Coupler flux pulse squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian.QB3__QB5.coupler.amplitude', label='Coupler flux pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian.QB3__QB5.coupler.amplitude')}}}, 'slepian_crf': SettingNode{}, 'crf_acstarkcrf': SettingNode{'QB1__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.duration'), 'rz': SettingNode{'QB1': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.rz.QB1', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.rz.QB1'), 'QB3': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.rise_time', label='rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB1__QB3.second_qubit.amplitude')}}, 'QB2__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.duration'), 'rz': SettingNode{'QB2': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.rz.QB2', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.rz.QB2'), 'QB3': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.rise_time', label='rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB2__QB3.second_qubit.amplitude')}}, 'QB3__QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.rz.QB3'), 'QB4': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.rz.QB4', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.rz.QB4')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.rise_time', label='rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB4.second_qubit.amplitude')}}, 'QB3__QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.rz.QB3'), 'QB5': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.rz.QB5', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.rz.QB5')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.rise_time', label='rise_time of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.rise_time'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.crf_acstarkcrf.QB3__QB5.second_qubit.amplitude')}}}, 'slepian_acstarkcrf': SettingNode{'QB1__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.duration'), 'rz': SettingNode{'QB1': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.rz.QB1', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.rz.QB1'), 'QB3': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.full_width', label='full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.lambda_1', label='lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.lambda_2', label='lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.frequency_initial_normalized', label='frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.frequency_to_minimize_normalized', label='frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.coupling_strength_normalized', label='coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.center_offset', label='center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.squid_asymmetry', label='squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB1__QB3.second_qubit.amplitude')}}, 'QB2__QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.duration'), 'rz': SettingNode{'QB2': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.rz.QB2', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.rz.QB2'), 'QB3': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.rz.QB3')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.full_width', label='full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.lambda_1', label='lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.lambda_2', label='lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.frequency_initial_normalized', label='frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.frequency_to_minimize_normalized', label='frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.coupling_strength_normalized', label='coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.center_offset', label='center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.squid_asymmetry', label='squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB2__QB3.second_qubit.amplitude')}}, 'QB3__QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.rz.QB3'), 'QB4': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.rz.QB4', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.rz.QB4')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.full_width', label='full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.lambda_1', label='lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.lambda_2', label='lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.frequency_initial_normalized', label='frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.frequency_to_minimize_normalized', label='frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.coupling_strength_normalized', label='coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.center_offset', label='center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.squid_asymmetry', label='squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB4.second_qubit.amplitude')}}, 'QB3__QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.duration', label='Gate duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.duration'), 'rz': SettingNode{'QB3': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.rz.QB3', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.rz.QB3'), 'QB5': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.rz.QB5', label='Z rotation angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.rz.QB5')}, 'coupler': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.full_width', label='full_width of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.full_width'), 'lambda_1': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.lambda_1', label='lambda_1 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.lambda_1'), 'lambda_2': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.lambda_2', label='lambda_2 of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.lambda_2'), 'frequency_initial_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.frequency_initial_normalized', label='frequency_initial_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.frequency_initial_normalized'), 'frequency_to_minimize_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.frequency_to_minimize_normalized', label='frequency_to_minimize_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.frequency_to_minimize_normalized'), 'coupling_strength_normalized': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.coupling_strength_normalized', label='coupling_strength_normalized of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.coupling_strength_normalized'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.center_offset', label='center_offset of Slepian', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.center_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.squid_asymmetry', label='squid_asymmetry of Slepian', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.squid_asymmetry'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.coupler.amplitude')}, 'first_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.first_qubit.amplitude')}, 'second_qubit': SettingNode{'full_width': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.full_width', label='full_width of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.rise_time', label='rise_time of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.modulation_frequency', label='modulation_frequency of mcrf', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.modulation_frequency'), 'phase': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.phase', label='phase of mcrf', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.phase'), 'center_offset': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.center_offset', label='center_offset of mcrf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.center_offset'), 'amplitude': Setting(parameter=Parameter(name='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.amplitude', label='amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cz.slepian_acstarkcrf.QB3__QB5.second_qubit.amplitude')}}}}, 'move': SettingNode{'tgss_crf': SettingNode{}, 'crf_crf': SettingNode{}, 'slepian_crf': SettingNode{}}, 'cc_prx': SettingNode{'prx_composite': SettingNode{'QB1': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}, 'QB2': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}, 'QB3': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}, 'QB4': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}, 'QB5': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}, 'prx_composite_drag_crf': SettingNode{'QB1': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}, 'QB2': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}, 'QB3': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}, 'QB4': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}, 'QB5': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}, 'prx_composite_drag_gaussian': SettingNode{'QB1': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}, 'QB2': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}, 'QB3': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}, 'QB4': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}, 'QB5': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}}, 'reset': SettingNode{'reset_conditional': SettingNode{'QB1': SettingNode{'gates': SettingNode{'measure': SettingNode{'constant': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.constant.QB1.acquisition_delay')}}, 'fast_constant': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.measure.fast_constant.QB1.locus_deadtime')}}, 'constant_bias': SettingNode{}}, 'cc_prx': SettingNode{'prx_composite': SettingNode{'QB1': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}}, 'prx_composite_drag_crf': SettingNode{'QB1': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_crf.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}}, 'prx_composite_drag_gaussian': SettingNode{'QB1': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian.QB1.center_offset')}}, 'drag_crf': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf.QB1.center_offset')}}, 'drag_crf_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_crf_sx.QB1.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB1.gates.cc_prx.prx_composite_drag_gaussian.QB1.gates.prx.drag_gaussian_sx.QB1.center_offset')}}}}}}}}}, 'QB2': SettingNode{'gates': SettingNode{'measure': SettingNode{'constant': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.constant.QB2.acquisition_delay')}}, 'fast_constant': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.measure.fast_constant.QB2.locus_deadtime')}}, 'constant_bias': SettingNode{}}, 'cc_prx': SettingNode{'prx_composite': SettingNode{'QB2': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}}, 'prx_composite_drag_crf': SettingNode{'QB2': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_crf.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}}, 'prx_composite_drag_gaussian': SettingNode{'QB2': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian.QB2.center_offset')}}, 'drag_crf': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf.QB2.center_offset')}}, 'drag_crf_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_crf_sx.QB2.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB2.gates.cc_prx.prx_composite_drag_gaussian.QB2.gates.prx.drag_gaussian_sx.QB2.center_offset')}}}}}}}}}, 'QB3': SettingNode{'gates': SettingNode{'measure': SettingNode{'constant': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.constant.QB3.acquisition_delay')}}, 'fast_constant': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.measure.fast_constant.QB3.locus_deadtime')}}, 'constant_bias': SettingNode{}}, 'cc_prx': SettingNode{'prx_composite': SettingNode{'QB3': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}}, 'prx_composite_drag_crf': SettingNode{'QB3': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_crf.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}}, 'prx_composite_drag_gaussian': SettingNode{'QB3': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian.QB3.center_offset')}}, 'drag_crf': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf.QB3.center_offset')}}, 'drag_crf_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_crf_sx.QB3.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB3.gates.cc_prx.prx_composite_drag_gaussian.QB3.gates.prx.drag_gaussian_sx.QB3.center_offset')}}}}}}}}}, 'QB4': SettingNode{'gates': SettingNode{'measure': SettingNode{'constant': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.constant.QB4.acquisition_delay')}}, 'fast_constant': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.measure.fast_constant.QB4.locus_deadtime')}}, 'constant_bias': SettingNode{}}, 'cc_prx': SettingNode{'prx_composite': SettingNode{'QB4': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}}, 'prx_composite_drag_crf': SettingNode{'QB4': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_crf.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}}, 'prx_composite_drag_gaussian': SettingNode{'QB4': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian.QB4.center_offset')}}, 'drag_crf': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf.QB4.center_offset')}}, 'drag_crf_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_crf_sx.QB4.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB4.gates.cc_prx.prx_composite_drag_gaussian.QB4.gates.prx.drag_gaussian_sx.QB4.center_offset')}}}}}}}}}, 'QB5': SettingNode{'gates': SettingNode{'measure': SettingNode{'constant': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.constant.QB5.acquisition_delay')}}, 'fast_constant': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.duration', label='Readout pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.duration'), 'frequency': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.frequency', label='Readout pulse frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.frequency'), 'phase': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.phase', label='Readout pulse phase', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.phase'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.amplitude_i', label='Readout channel I amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.amplitude_q', label='Readout channel Q amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.amplitude_q'), 'integration_length': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_length', label='Integration length', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_length'), 'integration_weights_I': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_weights_I', label='Integration weights for channel I', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_weights_I'), 'integration_weights_Q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_weights_Q', label='Integration weights for channel Q', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_weights_Q'), 'integration_threshold': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_threshold', label='Integration threshold', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.integration_threshold'), 'acquisition_type': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.acquisition_type', label='Acquisition type', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.acquisition_type'), 'acquisition_delay': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.acquisition_delay', label='Acquisition delay', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.acquisition_delay'), 'locus_deadtime': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.locus_deadtime', label='Locus dead time after the probe pulse', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.measure.fast_constant.QB5.locus_deadtime')}}, 'constant_bias': SettingNode{}}, 'cc_prx': SettingNode{'prx_composite': SettingNode{'QB5': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}, 'prx_composite_drag_crf': SettingNode{'QB5': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_crf.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}, 'prx_composite_drag_gaussian': SettingNode{'QB5': SettingNode{'control_delays': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.control_delays', label='Control delays', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.control_delays'), 'gates': SettingNode{'prx': SettingNode{'drag_gaussian': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian.QB5.center_offset')}}, 'drag_crf': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.amplitude_q'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf.QB5.center_offset')}}, 'drag_crf_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.full_width', label='full_width of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.center_offset', label='center_offset of crf', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_crf_sx.QB5.center_offset')}}, 'drag_gaussian_sx': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.duration', label='pi pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.duration'), 'amplitude_i': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i', label='pi pulse I channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_i'), 'amplitude_q': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q', label='pi pulse Q channel amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.amplitude_q'), 'rz_before': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before', label='RZ before IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_before'), 'rz_after': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after', label='RZ after IQ pulse', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.rz_after'), 'full_width': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.full_width', label='full_width of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.full_width'), 'center_offset': Setting(parameter=Parameter(name='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset', label='center_offset of tg', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.reset_conditional.QB5.gates.cc_prx.prx_composite_drag_gaussian.QB5.gates.prx.drag_gaussian_sx.QB5.center_offset')}}}}}}}}}}, 'f0g1_composite': SettingNode{'QB1': SettingNode{'number_of_cycles': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB1.number_of_cycles', label='Number of cycles of the [prx_12(pi), lru] sequence', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=False, path='gates.reset.f0g1_composite.QB1.number_of_cycles'), 'gates': SettingNode{'lru': SettingNode{'f0g1': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB1.gates.lru.f0g1.QB1.phase_increment')}}}}}, 'QB2': SettingNode{'number_of_cycles': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB2.number_of_cycles', label='Number of cycles of the [prx_12(pi), lru] sequence', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=False, path='gates.reset.f0g1_composite.QB2.number_of_cycles'), 'gates': SettingNode{'lru': SettingNode{'f0g1': SettingNode{'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB2.gates.lru.f0g1.QB2.phase_increment')}}}}}, 'QB3': SettingNode{'number_of_cycles': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB3.number_of_cycles', label='Number of cycles of the [prx_12(pi), lru] sequence', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=False, path='gates.reset.f0g1_composite.QB3.number_of_cycles'), 'gates': SettingNode{'lru': SettingNode{'f0g1': SettingNode{'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB3.gates.lru.f0g1.QB3.phase_increment')}}}}}, 'QB4': SettingNode{'number_of_cycles': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB4.number_of_cycles', label='Number of cycles of the [prx_12(pi), lru] sequence', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=False, path='gates.reset.f0g1_composite.QB4.number_of_cycles'), 'gates': SettingNode{'lru': SettingNode{'f0g1': SettingNode{'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB4.gates.lru.f0g1.QB4.phase_increment')}}}}}, 'QB5': SettingNode{'number_of_cycles': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB5.number_of_cycles', label='Number of cycles of the [prx_12(pi), lru] sequence', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=False, path='gates.reset.f0g1_composite.QB5.number_of_cycles'), 'gates': SettingNode{'lru': SettingNode{'f0g1': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.reset.f0g1_composite.QB5.gates.lru.f0g1.QB5.phase_increment')}}}}}}}, 'reset_wait': SettingNode{'reset_wait': SettingNode{'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.QB5.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.QB5.duration')}, 'TC-1-3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.TC-1-3.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.TC-1-3.duration')}, 'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.QB1.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.QB1.duration')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.QB4.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.QB4.duration')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.QB3.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.QB3.duration')}, 'TC-3-5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.TC-3-5.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.TC-3-5.duration')}, 'PL_RO-1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.PL_RO-1.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.PL_RO-1.duration')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.QB2.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.QB2.duration')}, 'TC-3-4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.TC-3-4.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.TC-3-4.duration')}, 'TC-2-3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.reset_wait.reset_wait.TC-2-3.duration', label='Wait duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0004, read_only=False, path='gates.reset_wait.reset_wait.TC-2-3.duration')}}}, 'lru': SettingNode{'f0g1': SettingNode{'QB1': SettingNode{'duration': Setting(parameter=Parameter(name='gates.lru.f0g1.QB1.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB1.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.lru.f0g1.QB1.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB1.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.lru.f0g1.QB1.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB1.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.lru.f0g1.QB1.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB1.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.lru.f0g1.QB1.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB1.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.lru.f0g1.QB1.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB1.phase_increment')}, 'QB2': SettingNode{'duration': Setting(parameter=Parameter(name='gates.lru.f0g1.QB2.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB2.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.lru.f0g1.QB2.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB2.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.lru.f0g1.QB2.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB2.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.lru.f0g1.QB2.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB2.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.lru.f0g1.QB2.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB2.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.lru.f0g1.QB2.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB2.phase_increment')}, 'QB3': SettingNode{'duration': Setting(parameter=Parameter(name='gates.lru.f0g1.QB3.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB3.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.lru.f0g1.QB3.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB3.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.lru.f0g1.QB3.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB3.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.lru.f0g1.QB3.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB3.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.lru.f0g1.QB3.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB3.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.lru.f0g1.QB3.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB3.phase_increment')}, 'QB4': SettingNode{'duration': Setting(parameter=Parameter(name='gates.lru.f0g1.QB4.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB4.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.lru.f0g1.QB4.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB4.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.lru.f0g1.QB4.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB4.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.lru.f0g1.QB4.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB4.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.lru.f0g1.QB4.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB4.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.lru.f0g1.QB4.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB4.phase_increment')}, 'QB5': SettingNode{'duration': Setting(parameter=Parameter(name='gates.lru.f0g1.QB5.duration', label='F0G1 pulse duration', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB5.duration'), 'amplitude': Setting(parameter=Parameter(name='gates.lru.f0g1.QB5.amplitude', label='F0G1 pulse amplitude', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB5.amplitude'), 'full_width': Setting(parameter=Parameter(name='gates.lru.f0g1.QB5.full_width', label='F0G1 pulse width', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB5.full_width'), 'rise_time': Setting(parameter=Parameter(name='gates.lru.f0g1.QB5.rise_time', label='F0G1 pulse rise time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='gates.lru.f0g1.QB5.rise_time'), 'modulation_frequency': Setting(parameter=Parameter(name='gates.lru.f0g1.QB5.modulation_frequency', label='F0G1 pulse modulation frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB5.modulation_frequency'), 'phase_increment': Setting(parameter=Parameter(name='gates.lru.f0g1.QB5.phase_increment', label='F0G1 pulse phase increment', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0, read_only=False, path='gates.lru.f0g1.QB5.phase_increment')}}}, 'flux_multiplexer': SettingNode{'sample_linear': SettingNode{'_ANY_': SettingNode{'matrix_index': Setting(parameter=Parameter(name='gates.flux_multiplexer.sample_linear._ANY_.matrix_index', label='Flux crosstalk correction sparse matrix index', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='gates.flux_multiplexer.sample_linear._ANY_.matrix_index'), 'matrix_elements': Setting(parameter=Parameter(name='gates.flux_multiplexer.sample_linear._ANY_.matrix_elements', label='Flux crosstalk correction sparse matrix elements', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.NDARRAY: 2>, element_indices=None), value=None, read_only=False, path='gates.flux_multiplexer.sample_linear._ANY_.matrix_elements')}}}}, 'gate_definitions': SettingNode{'barrier': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.barrier.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='', read_only=False, path='gate_definitions.barrier.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.barrier.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.barrier.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.barrier.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='gate_definitions.barrier.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.barrier.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.barrier.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.barrier.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.barrier.factorizable'), '': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.barrier..class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Barrier', read_only=True, path='gate_definitions.barrier..class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.barrier..symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.barrier..symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.barrier..needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.barrier..needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.barrier..override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.barrier..override_default_for_loci')}}, 'delay': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.delay.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='wait', read_only=False, path='gate_definitions.delay.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.delay.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.delay.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.delay.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='gate_definitions.delay.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.delay.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('duration',), read_only=True, path='gate_definitions.delay.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.delay.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.delay.factorizable'), 'wait': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.delay.wait.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Delay', read_only=True, path='gate_definitions.delay.wait.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.delay.wait.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.delay.wait.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.delay.wait.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.delay.wait.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.delay.wait.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.delay.wait.override_default_for_loci')}}, 'measure': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.measure.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='constant', read_only=False, path='gate_definitions.measure.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.measure.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='gate_definitions.measure.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.measure.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('key',), read_only=True, path='gate_definitions.measure.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.measure.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure.factorizable'), 'constant': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.measure.constant.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Measure_Constant', read_only=True, path='gate_definitions.measure.constant.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure.constant.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure.constant.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.measure.constant.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure.constant.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.measure.constant.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.measure.constant.override_default_for_loci')}, 'fast_constant': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.measure.fast_constant.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Fast_Measure_Constant', read_only=True, path='gate_definitions.measure.fast_constant.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure.fast_constant.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure.fast_constant.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.measure.fast_constant.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure.fast_constant.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.measure.fast_constant.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.measure.fast_constant.override_default_for_loci')}, 'constant_bias': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.measure.constant_bias.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='QBBias_Measure_Constant', read_only=True, path='gate_definitions.measure.constant_bias.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure.constant_bias.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure.constant_bias.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.measure.constant_bias.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure.constant_bias.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.measure.constant_bias.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.measure.constant_bias.override_default_for_loci')}}, 'measure_fidelity': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='constant', read_only=False, path='gate_definitions.measure_fidelity.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure_fidelity.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='gate_definitions.measure_fidelity.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('key',), read_only=True, path='gate_definitions.measure_fidelity.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure_fidelity.factorizable'), 'constant': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Measure_Constant', read_only=True, path='gate_definitions.measure_fidelity.constant.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure_fidelity.constant.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure_fidelity.constant.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.measure_fidelity.constant.override_default_for_loci')}, 'shelved_constant': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.shelved_constant.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Shelved_Measure_Constant', read_only=True, path='gate_definitions.measure_fidelity.shelved_constant.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.shelved_constant.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure_fidelity.shelved_constant.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.shelved_constant.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure_fidelity.shelved_constant.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.shelved_constant.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.measure_fidelity.shelved_constant.override_default_for_loci')}, 'constant_bias': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant_bias.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='QBBias_Measure_Constant', read_only=True, path='gate_definitions.measure_fidelity.constant_bias.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant_bias.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.measure_fidelity.constant_bias.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant_bias.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.measure_fidelity.constant_bias.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.measure_fidelity.constant_bias.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.measure_fidelity.constant_bias.override_default_for_loci')}}, 'prx': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.prx.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='drag_crf_sx', read_only=False, path='gate_definitions.prx.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.prx.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.prx.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.prx.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.prx.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('angle', 'phase'), read_only=True, path='gate_definitions.prx.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.prx.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx.factorizable'), 'drag_gaussian': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='PRX_DRAGGaussian', read_only=True, path='gate_definitions.prx.drag_gaussian.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx.drag_gaussian.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.prx.drag_gaussian.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.prx.drag_gaussian.override_default_for_loci')}, 'drag_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='PRX_DRAGCosineRiseFall', read_only=True, path='gate_definitions.prx.drag_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx.drag_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.prx.drag_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.prx.drag_crf.override_default_for_loci')}, 'drag_crf_sx': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf_sx.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='PRX_DRAGCosineRiseFallSX', read_only=True, path='gate_definitions.prx.drag_crf_sx.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf_sx.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx.drag_crf_sx.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf_sx.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.prx.drag_crf_sx.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.prx.drag_crf_sx.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.prx.drag_crf_sx.override_default_for_loci')}, 'drag_gaussian_sx': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian_sx.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='PRX_DRAGGaussianSX', read_only=True, path='gate_definitions.prx.drag_gaussian_sx.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian_sx.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx.drag_gaussian_sx.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian_sx.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.prx.drag_gaussian_sx.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.prx.drag_gaussian_sx.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.prx.drag_gaussian_sx.override_default_for_loci')}}, 'prx_12': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.prx_12.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='modulated_drag_crf', read_only=False, path='gate_definitions.prx_12.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.prx_12.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx_12.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.prx_12.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.prx_12.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.prx_12.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('angle', 'phase'), read_only=True, path='gate_definitions.prx_12.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.prx_12.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx_12.factorizable'), 'modulated_drag_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.prx_12.modulated_drag_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='PRX_ModulatedDRAGCosineRiseFall', read_only=True, path='gate_definitions.prx_12.modulated_drag_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.prx_12.modulated_drag_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.prx_12.modulated_drag_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.prx_12.modulated_drag_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.prx_12.modulated_drag_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.prx_12.modulated_drag_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.prx_12.modulated_drag_crf.override_default_for_loci')}}, 'u': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.u.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='prx_u', read_only=False, path='gate_definitions.u.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.u.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.u.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.u.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.u.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.u.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('theta', 'phi', 'lam'), read_only=True, path='gate_definitions.u.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.u.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.u.factorizable'), 'prx_u': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.u.prx_u.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='UGate', read_only=True, path='gate_definitions.u.prx_u.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.u.prx_u.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.u.prx_u.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.u.prx_u.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.u.prx_u.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.u.prx_u.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.u.prx_u.override_default_for_loci')}}, 'sx': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.sx.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='prx_sx', read_only=False, path='gate_definitions.sx.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.sx.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.sx.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.sx.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.sx.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.sx.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.sx.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.sx.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.sx.factorizable'), 'prx_sx': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.sx.prx_sx.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='SXGate', read_only=True, path='gate_definitions.sx.prx_sx.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.sx.prx_sx.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.sx.prx_sx.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.sx.prx_sx.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.sx.prx_sx.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.sx.prx_sx.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.sx.prx_sx.override_default_for_loci')}}, 'rz': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.rz.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='virtual', read_only=False, path='gate_definitions.rz.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.rz.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.rz.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.rz.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.rz.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('angle',), read_only=True, path='gate_definitions.rz.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.rz.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz.factorizable'), 'virtual': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.rz.virtual.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='RZ_Virtual', read_only=True, path='gate_definitions.rz.virtual.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.rz.virtual.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz.virtual.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.rz.virtual.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz.virtual.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.rz.virtual.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.rz.virtual.override_default_for_loci')}, 'prx_composite': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.rz.prx_composite.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='RZ_PRX_Composite', read_only=True, path='gate_definitions.rz.prx_composite.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.rz.prx_composite.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz.prx_composite.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.rz.prx_composite.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz.prx_composite.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.rz.prx_composite.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.rz.prx_composite.override_default_for_loci')}}, 'rz_physical': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.rz_physical.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='ac_stark_crf', read_only=False, path='gate_definitions.rz_physical.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.rz_physical.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz_physical.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.rz_physical.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.rz_physical.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.rz_physical.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.rz_physical.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.rz_physical.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz_physical.factorizable'), 'ac_stark_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.rz_physical.ac_stark_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='RZ_ACStarkShift_CosineRiseFall', read_only=True, path='gate_definitions.rz_physical.ac_stark_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.rz_physical.ac_stark_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.rz_physical.ac_stark_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.rz_physical.ac_stark_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.rz_physical.ac_stark_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.rz_physical.ac_stark_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.rz_physical.ac_stark_crf.override_default_for_loci')}}, 'cz': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.cz.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='crf', read_only=False, path='gate_definitions.cz.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.cz.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2, read_only=True, path='gate_definitions.cz.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.cz.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.cz.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.cz.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cz.factorizable'), 'tgss': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.tgss.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CZ_TruncatedGaussianSmoothedSquare', read_only=True, path='gate_definitions.cz.tgss.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.tgss.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.tgss.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.tgss.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.tgss.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.tgss.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.tgss.override_default_for_loci')}, 'tgss_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.tgss_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='FluxPulseGate_TGSS_CRF', read_only=True, path='gate_definitions.cz.tgss_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.tgss_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cz.tgss_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.tgss_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.tgss_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.tgss_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.tgss_crf.override_default_for_loci')}, 'crf_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.crf_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='FluxPulseGate_CRF_CRF', read_only=True, path='gate_definitions.cz.crf_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.crf_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cz.crf_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.crf_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.crf_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.crf_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.crf_crf.override_default_for_loci')}, 'crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CZ_CRF', read_only=True, path='gate_definitions.cz.crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.crf.override_default_for_loci')}, 'gaussian_smoothed_square': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.gaussian_smoothed_square.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CZ_GaussianSmoothedSquare', read_only=True, path='gate_definitions.cz.gaussian_smoothed_square.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.gaussian_smoothed_square.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.gaussian_smoothed_square.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.gaussian_smoothed_square.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.gaussian_smoothed_square.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.gaussian_smoothed_square.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.gaussian_smoothed_square.override_default_for_loci')}, 'slepian': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.slepian.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CZ_Slepian', read_only=True, path='gate_definitions.cz.slepian.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.slepian.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.slepian.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.slepian.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.slepian.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.slepian.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.slepian.override_default_for_loci')}, 'slepian_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CZ_Slepian_CRF', read_only=True, path='gate_definitions.cz.slepian_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cz.slepian_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.slepian_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.slepian_crf.override_default_for_loci')}, 'crf_acstarkcrf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.crf_acstarkcrf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CZ_CRF_ACStarkCRF', read_only=True, path='gate_definitions.cz.crf_acstarkcrf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.crf_acstarkcrf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.crf_acstarkcrf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.crf_acstarkcrf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.crf_acstarkcrf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.crf_acstarkcrf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.crf_acstarkcrf.override_default_for_loci')}, 'slepian_acstarkcrf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_acstarkcrf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CZ_Slepian_ACStarkCRF', read_only=True, path='gate_definitions.cz.slepian_acstarkcrf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_acstarkcrf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.slepian_acstarkcrf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_acstarkcrf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cz.slepian_acstarkcrf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cz.slepian_acstarkcrf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cz.slepian_acstarkcrf.override_default_for_loci')}}, 'move': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.move.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='tgss_crf', read_only=False, path='gate_definitions.move.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.move.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.move.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.move.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2, read_only=True, path='gate_definitions.move.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.move.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.move.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.move.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.move.factorizable'), 'tgss_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.move.tgss_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='MOVE_TGSS_CRF', read_only=True, path='gate_definitions.move.tgss_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.move.tgss_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.move.tgss_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.move.tgss_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.move.tgss_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.move.tgss_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.move.tgss_crf.override_default_for_loci')}, 'crf_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.move.crf_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='MOVE_CRF_CRF', read_only=True, path='gate_definitions.move.crf_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.move.crf_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.move.crf_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.move.crf_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.move.crf_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.move.crf_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.move.crf_crf.override_default_for_loci')}, 'slepian_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.move.slepian_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='MOVE_SLEPIAN_CRF', read_only=True, path='gate_definitions.move.slepian_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.move.slepian_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.move.slepian_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.move.slepian_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.move.slepian_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.move.slepian_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.move.slepian_crf.override_default_for_loci')}}, 'cc_prx': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.cc_prx.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='prx_composite', read_only=False, path='gate_definitions.cc_prx.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cc_prx.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cc_prx.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.cc_prx.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.cc_prx.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.cc_prx.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=('angle', 'phase', 'feedback_qubit', 'feedback_key'), read_only=True, path='gate_definitions.cc_prx.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.cc_prx.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cc_prx.factorizable'), 'prx_composite': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CCPRX_Composite', read_only=True, path='gate_definitions.cc_prx.prx_composite.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cc_prx.prx_composite.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cc_prx.prx_composite.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cc_prx.prx_composite.override_default_for_loci')}, 'prx_composite_drag_crf': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_crf.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CCPRX_Composite_DRAGCosineRiseFall', read_only=True, path='gate_definitions.cc_prx.prx_composite_drag_crf.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_crf.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cc_prx.prx_composite_drag_crf.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_crf.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cc_prx.prx_composite_drag_crf.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_crf.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cc_prx.prx_composite_drag_crf.override_default_for_loci')}, 'prx_composite_drag_gaussian': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_gaussian.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='CCPRX_Composite_DRAGGaussian', read_only=True, path='gate_definitions.cc_prx.prx_composite_drag_gaussian.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_gaussian.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.cc_prx.prx_composite_drag_gaussian.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_gaussian.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.cc_prx.prx_composite_drag_gaussian.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.cc_prx.prx_composite_drag_gaussian.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.cc_prx.prx_composite_drag_gaussian.override_default_for_loci')}}, 'reset': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.reset.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='reset_conditional', read_only=False, path='gate_definitions.reset.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.reset.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.reset.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.reset.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='gate_definitions.reset.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.reset.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.reset.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.reset.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.reset.factorizable'), 'reset_conditional': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.reset.reset_conditional.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Reset_Conditional', read_only=True, path='gate_definitions.reset.reset_conditional.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.reset.reset_conditional.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.reset.reset_conditional.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.reset.reset_conditional.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.reset.reset_conditional.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.reset.reset_conditional.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.reset.reset_conditional.override_default_for_loci')}, 'f0g1_composite': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.reset.f0g1_composite.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Reset_F0G1_Composite', read_only=True, path='gate_definitions.reset.f0g1_composite.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.reset.f0g1_composite.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.reset.f0g1_composite.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.reset.f0g1_composite.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.reset.f0g1_composite.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.reset.f0g1_composite.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.reset.f0g1_composite.override_default_for_loci')}}, 'reset_wait': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.reset_wait.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='reset_wait', read_only=False, path='gate_definitions.reset_wait.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.reset_wait.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.reset_wait.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.reset_wait.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='gate_definitions.reset_wait.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.reset_wait.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.reset_wait.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.reset_wait.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.reset_wait.factorizable'), 'reset_wait': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.reset_wait.reset_wait.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='Reset_Wait', read_only=True, path='gate_definitions.reset_wait.reset_wait.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.reset_wait.reset_wait.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.reset_wait.reset_wait.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.reset_wait.reset_wait.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.reset_wait.reset_wait.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.reset_wait.reset_wait.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.reset_wait.reset_wait.override_default_for_loci')}}, 'lru': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.lru.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='f0g1', read_only=False, path='gate_definitions.lru.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.lru.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.lru.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.lru.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=True, path='gate_definitions.lru.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.lru.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.lru.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.lru.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.lru.factorizable'), 'f0g1': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.lru.f0g1.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='LRU_F0G1', read_only=True, path='gate_definitions.lru.f0g1.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.lru.f0g1.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.lru.f0g1.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.lru.f0g1.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.lru.f0g1.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.lru.f0g1.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.lru.f0g1.override_default_for_loci')}}, 'flux_multiplexer': SettingNode{'default_implementation': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.default_implementation', label='Default gate implementation', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='sample_linear', read_only=False, path='gate_definitions.flux_multiplexer.default_implementation'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.flux_multiplexer.symmetric'), 'arity': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.arity', label='Arity', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0, read_only=True, path='gate_definitions.flux_multiplexer.arity'), 'params': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.params', label='Parameters', unit='', data_type=<DataType.ANYTHING: 0>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=(), read_only=True, path='gate_definitions.flux_multiplexer.params'), 'factorizable': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.factorizable', label='Factorizable', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.flux_multiplexer.factorizable'), 'sample_linear': SettingNode{'class_name': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.sample_linear.class_name', label='Class name', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='FluxMultiplexer_SampleLinear', read_only=True, path='gate_definitions.flux_multiplexer.sample_linear.class_name'), 'symmetric': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.sample_linear.symmetric', label='Is symmetric', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=True, path='gate_definitions.flux_multiplexer.sample_linear.symmetric'), 'needs_calibration': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.sample_linear.needs_calibration', label='Needs calibration', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=True, path='gate_definitions.flux_multiplexer.sample_linear.needs_calibration'), 'override_default_for_loci': Setting(parameter=Parameter(name='gate_definitions.flux_multiplexer.sample_linear.override_default_for_loci', label='Override default for loci', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='gate_definitions.flux_multiplexer.sample_linear.override_default_for_loci')}}}, 'characterization': SettingNode{'gate_properties': SettingNode{'measure': SettingNode{'constant': SettingNode{'QB1': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB1.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.045728563763529, read_only=False, path='characterization.gate_properties.measure.constant.QB1.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB1.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.026388537190755207, read_only=False, path='characterization.gate_properties.measure.constant.QB1.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB1.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.047352938368055555, read_only=False, path='characterization.gate_properties.measure.constant.QB1.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB1.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.constant.QB1.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB1.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0426, read_only=False, path='characterization.gate_properties.measure.constant.QB1.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB1.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0555, read_only=False, path='characterization.gate_properties.measure.constant.QB1.single_shot_10_error')}, 'QB2': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB2.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.296737101268782, read_only=False, path='characterization.gate_properties.measure.constant.QB2.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB2.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.023570628255208337, read_only=False, path='characterization.gate_properties.measure.constant.QB2.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB2.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0013538705105251743, read_only=False, path='characterization.gate_properties.measure.constant.QB2.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB2.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.constant.QB2.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB2.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0498, read_only=False, path='characterization.gate_properties.measure.constant.QB2.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB2.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0559, read_only=False, path='characterization.gate_properties.measure.constant.QB2.single_shot_10_error')}, 'QB3': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB3.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.2617432268693056, read_only=False, path='characterization.gate_properties.measure.constant.QB3.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB3.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.01551167982313368, read_only=False, path='characterization.gate_properties.measure.constant.QB3.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB3.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.017381070014105902, read_only=False, path='characterization.gate_properties.measure.constant.QB3.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB3.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.constant.QB3.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB3.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.048, read_only=False, path='characterization.gate_properties.measure.constant.QB3.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB3.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0628, read_only=False, path='characterization.gate_properties.measure.constant.QB3.single_shot_10_error')}, 'QB4': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB4.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.0355567595728177, read_only=False, path='characterization.gate_properties.measure.constant.QB4.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB4.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.017204019165039063, read_only=False, path='characterization.gate_properties.measure.constant.QB4.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB4.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.01324149888780382, read_only=False, path='characterization.gate_properties.measure.constant.QB4.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB4.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.constant.QB4.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB4.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0406, read_only=False, path='characterization.gate_properties.measure.constant.QB4.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB4.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0637, read_only=False, path='characterization.gate_properties.measure.constant.QB4.single_shot_10_error')}, 'QB5': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB5.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-2.8968589550266213, read_only=False, path='characterization.gate_properties.measure.constant.QB5.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB5.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.013658067694769968, read_only=False, path='characterization.gate_properties.measure.constant.QB5.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB5.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.04025816847059462, read_only=False, path='characterization.gate_properties.measure.constant.QB5.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB5.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.constant.QB5.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB5.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0578, read_only=False, path='characterization.gate_properties.measure.constant.QB5.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.constant.QB5.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0815, read_only=False, path='characterization.gate_properties.measure.constant.QB5.single_shot_10_error')}}, 'fast_constant': SettingNode{'QB1': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB1.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB1.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB1.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB1.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB1.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB1.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB1.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB1.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB1.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB1.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB1.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB1.single_shot_10_error')}, 'QB2': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB2.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB2.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB2.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB2.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB2.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB2.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB2.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB2.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB2.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB2.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB2.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB2.single_shot_10_error')}, 'QB3': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB3.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB3.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB3.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB3.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB3.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB3.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB3.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB3.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB3.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB3.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB3.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB3.single_shot_10_error')}, 'QB4': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB4.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB4.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB4.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB4.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB4.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB4.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB4.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB4.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB4.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB4.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB4.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB4.single_shot_10_error')}, 'QB5': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB5.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB5.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB5.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB5.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB5.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB5.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB5.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB5.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB5.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB5.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure.fast_constant.QB5.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure.fast_constant.QB5.single_shot_10_error')}}}, 'measure_fidelity': SettingNode{'constant': SettingNode{'QB1': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.0143230990355314, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.027495452406141492, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.04821216640896268, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB1.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB1.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0488, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB1.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB1.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0558, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB1.single_shot_10_error')}, 'QB2': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.2085265814555797, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.02315820719401042, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.001341101616753472, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB2.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB2.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0473, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB2.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB2.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0608, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB2.single_shot_10_error')}, 'QB3': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=2.2797158656788303, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.01564650600857205, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.017798045315212674, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB3.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB3.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0472, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB3.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB3.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0575, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB3.single_shot_10_error')}, 'QB4': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-1.160569176029716, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-0.014504784613715276, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.01559406222873264, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB4.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB4.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0404, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB4.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB4.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0626, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB4.single_shot_10_error')}, 'QB5': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=-3.051736647799194, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.01623897447374132, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.04271758504231771, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB5.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB5.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.0511, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB5.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.constant.QB5.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=0.094, read_only=False, path='characterization.gate_properties.measure_fidelity.constant.QB5.single_shot_10_error')}}, 'shelved_constant': SettingNode{'QB1': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB1.single_shot_10_error')}, 'QB2': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB2.single_shot_10_error')}, 'QB3': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB3.single_shot_10_error')}, 'QB4': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB4.single_shot_10_error')}, 'QB5': SettingNode{'average_response_phase': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_phase', label='Average phase accumulation of response', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_phase'), 'average_response_g': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_g', label='Average g-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_g'), 'average_response_e': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_e', label='Average e-state response', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_e'), 'average_response_f': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_f', label='Average f-state response', unit='V', data_type=<DataType.COMPLEX: 2>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.average_response_f'), 'single_shot_01_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.single_shot_01_error', label='Probability of measuring 1 if the 0 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.single_shot_01_error'), 'single_shot_10_error': Setting(parameter=Parameter(name='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.single_shot_10_error', label='Probability of measuring 0 if the 1 state was prepared.', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.measure_fidelity.shelved_constant.QB5.single_shot_10_error')}}}, 'cz': SettingNode{'tgss': SettingNode{'QB1__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB1__QB3.qubit.flux_gate_detuning')}}, 'QB2__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB2__QB3.qubit.flux_gate_detuning')}}, 'QB3__QB4': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB4.qubit.flux_gate_detuning')}}, 'QB3__QB5': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.tgss.QB3__QB5.qubit.flux_gate_detuning')}}}, 'crf': SettingNode{'QB1__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB1__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB1__QB3.qubit.flux_gate_detuning')}}, 'QB2__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB2__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB2__QB3.qubit.flux_gate_detuning')}}, 'QB3__QB4': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB4.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB4.qubit.flux_gate_detuning')}}, 'QB3__QB5': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf.QB3__QB5.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf.QB3__QB5.qubit.flux_gate_detuning')}}}, 'gaussian_smoothed_square': SettingNode{'QB1__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB1__QB3.qubit.flux_gate_detuning')}}, 'QB2__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB2__QB3.qubit.flux_gate_detuning')}}, 'QB3__QB4': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB4.qubit.flux_gate_detuning')}}, 'QB3__QB5': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.gaussian_smoothed_square.QB3__QB5.qubit.flux_gate_detuning')}}}, 'slepian': SettingNode{'QB1__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB1__QB3.qubit.flux_gate_detuning')}}, 'QB2__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB2__QB3.qubit.flux_gate_detuning')}}, 'QB3__QB4': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB4.qubit.flux_gate_detuning')}}, 'QB3__QB5': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.cphase_pi_distance'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian.QB3__QB5.qubit.flux_gate_detuning')}}}, 'crf_acstarkcrf': SettingNode{'QB1__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB1__QB3.qubit.flux_gate_detuning')}}, 'QB2__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB2__QB3.qubit.flux_gate_detuning')}}, 'QB3__QB4': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB4.qubit.flux_gate_detuning')}}, 'QB3__QB5': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.crf_acstarkcrf.QB3__QB5.qubit.flux_gate_detuning')}}}, 'slepian_acstarkcrf': SettingNode{'QB1__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB1__QB3.qubit.flux_gate_detuning')}}, 'QB2__QB3': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB2__QB3.qubit.flux_gate_detuning')}}, 'QB3__QB4': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB4.qubit.flux_gate_detuning')}}, 'QB3__QB5': SettingNode{'cphase_derivative': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.cphase_derivative', label='Derivative of CPhase wrt Pulse Amplitude', unit='rad/V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.cphase_derivative'), 'cphase_pi_distance': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.cphase_pi_distance', label='Distance from the pi CPhase angle', unit='rad', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.cphase_pi_distance'), 'qubit_to_sweep': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit_to_sweep', label='AC Stark qubit to sweep', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit_to_sweep'), 'coupler': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.coupler.t2_time')}, 'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.t2_time'), 'flux_gate_detuning': Setting(parameter=Parameter(name='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.flux_gate_detuning', label='Qubit frequency detuning during flux pulse gate', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.cz.slepian_acstarkcrf.QB3__QB5.qubit.flux_gate_detuning')}}}}, 'rz_physical': SettingNode{'ac_stark_crf': SettingNode{'QB1': SettingNode{'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB1.qubit.t2_time')}}, 'QB2': SettingNode{'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB2.qubit.t2_time')}}, 'QB3': SettingNode{'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB3.qubit.t2_time')}}, 'QB4': SettingNode{'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB4.qubit.t2_time')}}, 'QB5': SettingNode{'qubit': SettingNode{'extreme_pulse_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.extreme_pulse_amplitudes', label='Extreme flux pulse amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.extreme_pulse_amplitudes'), 'pulse_spine_amplitudes': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.pulse_spine_amplitudes', label='Flux pulse spine amplitudes', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.pulse_spine_amplitudes'), 'pulse_spine_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.pulse_spine_polynomial_coefficients', label='Flux pulse spine polynomial coefficients', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.pulse_spine_polynomial_coefficients'), 't1_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.t1_time'), 't2_time': Setting(parameter=Parameter(name='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.rz_physical.ac_stark_crf.QB5.qubit.t2_time')}}}}, 'lru': SettingNode{'f0g1': SettingNode{'QB1': SettingNode{'f0g1_pulse_stark_shift_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.lru.f0g1.QB1.f0g1_pulse_stark_shift_polynomial_coefficients', label='F0G1 pulse stark shift polynomial coefficients', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.lru.f0g1.QB1.f0g1_pulse_stark_shift_polynomial_coefficients')}, 'QB2': SettingNode{'f0g1_pulse_stark_shift_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.lru.f0g1.QB2.f0g1_pulse_stark_shift_polynomial_coefficients', label='F0G1 pulse stark shift polynomial coefficients', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.lru.f0g1.QB2.f0g1_pulse_stark_shift_polynomial_coefficients')}, 'QB3': SettingNode{'f0g1_pulse_stark_shift_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.lru.f0g1.QB3.f0g1_pulse_stark_shift_polynomial_coefficients', label='F0G1 pulse stark shift polynomial coefficients', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.lru.f0g1.QB3.f0g1_pulse_stark_shift_polynomial_coefficients')}, 'QB4': SettingNode{'f0g1_pulse_stark_shift_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.lru.f0g1.QB4.f0g1_pulse_stark_shift_polynomial_coefficients', label='F0G1 pulse stark shift polynomial coefficients', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.lru.f0g1.QB4.f0g1_pulse_stark_shift_polynomial_coefficients')}, 'QB5': SettingNode{'f0g1_pulse_stark_shift_polynomial_coefficients': Setting(parameter=Parameter(name='characterization.gate_properties.lru.f0g1.QB5.f0g1_pulse_stark_shift_polynomial_coefficients', label='F0G1 pulse stark shift polynomial coefficients', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.gate_properties.lru.f0g1.QB5.f0g1_pulse_stark_shift_polynomial_coefficients')}}}}, 'model': SettingNode{'QB1': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.QB1.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.QB1.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.QB1.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.QB1.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.QB1.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.QB1.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.QB1.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.QB1.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.QB1.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.QB1.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.QB1.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.QB1.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.QB1.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.QB1.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.QB1.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.QB1.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.QB1.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.QB1.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.QB1.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.QB1.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.QB1.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.QB1.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.QB1.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.QB1.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.QB1.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.QB1.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.QB1.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.QB1.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.QB1.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.QB1.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.QB1.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.QB1.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.QB1.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.QB1.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB1.readout.quantum_efficiency')}}, 'QB2': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.QB2.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.QB2.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.QB2.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.QB2.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.QB2.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.QB2.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.QB2.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.QB2.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.QB2.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.QB2.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.QB2.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.QB2.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.QB2.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.QB2.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.QB2.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.QB2.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.QB2.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.QB2.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.QB2.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.QB2.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.QB2.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.QB2.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.QB2.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.QB2.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.QB2.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.QB2.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.QB2.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.QB2.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.QB2.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.QB2.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.QB2.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.QB2.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.QB2.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.QB2.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB2.readout.quantum_efficiency')}}, 'QB3': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.QB3.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.QB3.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.QB3.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.QB3.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.QB3.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.QB3.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.QB3.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.QB3.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.QB3.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.QB3.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.QB3.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.QB3.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.QB3.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.QB3.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.QB3.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.QB3.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.QB3.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.QB3.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.QB3.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.QB3.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.QB3.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.QB3.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.QB3.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.QB3.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.QB3.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.QB3.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.QB3.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.QB3.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.QB3.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.QB3.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.QB3.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.QB3.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.QB3.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.QB3.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB3.readout.quantum_efficiency')}}, 'QB4': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.QB4.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.QB4.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.QB4.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.QB4.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.QB4.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.QB4.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.QB4.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.QB4.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.QB4.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.QB4.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.QB4.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.QB4.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.QB4.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.QB4.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.QB4.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.QB4.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.QB4.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.QB4.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.QB4.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.QB4.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.QB4.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.QB4.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.QB4.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.QB4.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.QB4.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.QB4.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.QB4.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.QB4.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.QB4.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.QB4.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.QB4.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.QB4.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.QB4.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.QB4.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB4.readout.quantum_efficiency')}}, 'QB5': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.QB5.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.QB5.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.QB5.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.QB5.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.QB5.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.QB5.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.QB5.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.QB5.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.QB5.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.QB5.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.QB5.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.QB5.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.QB5.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.QB5.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.QB5.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.QB5.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.QB5.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.QB5.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.QB5.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.QB5.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.QB5.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.QB5.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.QB5.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.QB5.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.QB5.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.QB5.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.QB5.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.QB5.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.QB5.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.QB5.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.QB5.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.QB5.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.QB5.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.QB5.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.QB5.readout.quantum_efficiency')}}, 'TC-3-4': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.TC-3-4.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-3-4.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.TC-3-4.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-3-4.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.TC-3-4.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-3-4.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.TC-3-4.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.TC-3-4.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.TC-3-4.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.TC-3-4.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.TC-3-4.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.TC-3-4.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.TC-3-4.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.TC-3-4.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.TC-3-4.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.readout.quantum_efficiency')}, 'QB3': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-3-4.QB3.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.QB3.beta')}, 'QB4': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-3-4.QB4.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-4.QB4.beta')}}, 'TC-1-3': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.TC-1-3.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-1-3.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.TC-1-3.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-1-3.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.TC-1-3.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-1-3.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.TC-1-3.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.TC-1-3.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.TC-1-3.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.TC-1-3.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.TC-1-3.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.TC-1-3.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.TC-1-3.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.TC-1-3.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.TC-1-3.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.readout.quantum_efficiency')}, 'QB1': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-1-3.QB1.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.QB1.beta')}, 'QB3': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-1-3.QB3.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-1-3.QB3.beta')}}, 'TC-3-5': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.TC-3-5.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-3-5.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.TC-3-5.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-3-5.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.TC-3-5.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-3-5.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.TC-3-5.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.TC-3-5.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.TC-3-5.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.TC-3-5.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.TC-3-5.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.TC-3-5.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.TC-3-5.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.TC-3-5.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.TC-3-5.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.readout.quantum_efficiency')}, 'QB3': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-3-5.QB3.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.QB3.beta')}, 'QB5': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-3-5.QB5.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-3-5.QB5.beta')}}, 'TC-2-3': SettingNode{'t1_time': Setting(parameter=Parameter(name='characterization.model.TC-2-3.t1_time', label='T1 relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.t1_time'), 't1_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-2-3.t1_time_fits', label='Fits of T1 time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.t1_time_fits'), 't2_time': Setting(parameter=Parameter(name='characterization.model.TC-2-3.t2_time', label='T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.t2_time'), 't2_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-2-3.t2_time_fits', label='Fits of T2 ramsey relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.t2_time_fits'), 't2_echo_time': Setting(parameter=Parameter(name='characterization.model.TC-2-3.t2_echo_time', label='T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.t2_echo_time'), 't2_echo_time_fits': Setting(parameter=Parameter(name='characterization.model.TC-2-3.t2_echo_time_fits', label='Fits of T2 echo relaxation time', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.t2_echo_time_fits'), 'anharmonicity': Setting(parameter=Parameter(name='characterization.model.TC-2-3.anharmonicity', label='Energy level anharmonicity', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.anharmonicity'), 'voltage_period': Setting(parameter=Parameter(name='characterization.model.TC-2-3.voltage_period', label='Bias voltage period', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.voltage_period'), 'voltage_offset': Setting(parameter=Parameter(name='characterization.model.TC-2-3.voltage_offset', label='Bias voltage offset', unit='V', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.voltage_offset'), 'squid_asymmetry': Setting(parameter=Parameter(name='characterization.model.TC-2-3.squid_asymmetry', label='SQUID asymmetry', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.squid_asymmetry'), 'josephson_energy': Setting(parameter=Parameter(name='characterization.model.TC-2-3.josephson_energy', label='Josephson energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.josephson_energy'), 'charging_energy': Setting(parameter=Parameter(name='characterization.model.TC-2-3.charging_energy', label='Charging energy', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.charging_energy'), 'sweet_spot_frequency': Setting(parameter=Parameter(name='characterization.model.TC-2-3.sweet_spot_frequency', label='Sweet Spot Frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.sweet_spot_frequency'), 'max_rabi_frequency': Setting(parameter=Parameter(name='characterization.model.TC-2-3.max_rabi_frequency', label='Rabi frequency at unit amplitude', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.max_rabi_frequency'), 'readout': SettingNode{'dispersive_shift': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.dispersive_shift', label='Dispersive shift', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.dispersive_shift'), 'kappa_eff': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.kappa_eff', label='effective kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.kappa_eff'), 'kappa_eff_g': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.kappa_eff_g', label='effective kappa for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.kappa_eff_g'), 'kappa_eff_e': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.kappa_eff_e', label='effective kappa for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.kappa_eff_e'), 'kappa_purcell': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.kappa_purcell', label='Purcell kappa', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.kappa_purcell'), 'j_rr_pr': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.j_rr_pr', label='coupling between readout and purcell resonators', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.j_rr_pr'), 'purcell_frequency': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.purcell_frequency', label='Purcell filter frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.purcell_frequency'), 'critical_photon_number': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.critical_photon_number', label='Critical photon number', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.critical_photon_number'), 'qb_resonator_coupling': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.qb_resonator_coupling', label='Qubit-resonator coupling', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.qb_resonator_coupling'), 't1_time_during_readout': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.t1_time_during_readout', label='T1 relaxation time during readout', unit='s', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.t1_time_during_readout'), 'photon_conversion_factor_g': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.photon_conversion_factor_g', label='Linear conversion factor between readout amplitude and photon number for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.photon_conversion_factor_g'), 'photon_conversion_factor_e': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.photon_conversion_factor_e', label='Linear conversion factor between readout amplitude and photon number for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.photon_conversion_factor_e'), 'frequency_g': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.frequency_g', label='g state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.frequency_g'), 'frequency_e': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.frequency_e', label='e state readout frequency', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.frequency_e'), 'photon_number_offset_g': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.photon_number_offset_g', label='Lorentzian offset of photon numbers for g state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.photon_number_offset_g'), 'photon_number_offset_e': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.photon_number_offset_e', label='Lorentzian offset of photon numbers for e state', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.photon_number_offset_e'), 'self_kerr': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.self_kerr', label='Self Kerr term', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.self_kerr'), 'self_kerr_g': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.self_kerr_g', label='Self Kerr term for g state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.self_kerr_g'), 'self_kerr_e': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.self_kerr_e', label='Self Kerr term for e state', unit='Hz', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.self_kerr_e'), 'quantum_efficiency': Setting(parameter=Parameter(name='characterization.model.TC-2-3.readout.quantum_efficiency', label='Quantum efficiency', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.readout.quantum_efficiency')}, 'QB2': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-2-3.QB2.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.QB2.beta')}, 'QB3': SettingNode{'beta': Setting(parameter=Parameter(name='characterization.model.TC-2-3.QB3.beta', label='Normalized qubit-coupler coupling', unit='', data_type=<DataType.FLOAT: 1>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='characterization.model.TC-2-3.QB3.beta')}}}, 'other': SettingNode{}}, 'stages': SettingNode{'additionally_subscribed_components': Setting(parameter=Parameter(name='additionally_subscribed_components', label='Always subscribe (measure and collect data from) these physical components, applies to all readout labels.', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='stages.additionally_subscribed_components'), 'additionally_probed_components': Setting(parameter=Parameter(name='additionally_probed_components', label='Send terminal probe pulse to these physical components. Do not subscribe to their measurement data.', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='stages.additionally_probed_components'), 'unsubscribed_labels': Setting(parameter=Parameter(name='unsubscribed_labels', label='Do not subscribe the readout data from these readout labels. Overrides `additionally_subscribed_components` where applicable.', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=[], read_only=False, path='stages.unsubscribed_labels'), 'circuit_generation': SettingNode{'circuit': SettingNode{}}, 'circuit_stage': SettingNode{'validate_settings': SettingNode{}, 'map_components': SettingNode{}, 'subscribe_and_probe': SettingNode{'probe_all': Setting(parameter=Parameter(name='stages.circuit_stage.subscribe_and_probe.probe_all', label='probe_all', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.circuit_stage.subscribe_and_probe.probe_all'), 'convert_terminal_measurements': Setting(parameter=Parameter(name='stages.circuit_stage.subscribe_and_probe.convert_terminal_measurements', label='convert_terminal_measurements', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.circuit_stage.subscribe_and_probe.convert_terminal_measurements')}, 'validate_circuits': SettingNode{'move_gate_validation': Setting(parameter=Parameter(name='stages.circuit_stage.validate_circuits.move_gate_validation', label='move_gate_validation', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.circuit_stage.validate_circuits.move_gate_validation'), 'validate_prx': Setting(parameter=Parameter(name='stages.circuit_stage.validate_circuits.validate_prx', label='validate_prx', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.circuit_stage.validate_circuits.validate_prx'), 'validate_calset': Setting(parameter=Parameter(name='stages.circuit_stage.validate_circuits.validate_calset', label='validate_calset', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='stages.circuit_stage.validate_circuits.validate_calset')}}, 'circuit_resolution': SettingNode{'resolve_circuits': SettingNode{'scheduling_strategy': Setting(parameter=Parameter(name='stages.circuit_resolution.resolve_circuits.scheduling_strategy', label='scheduling_strategy', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='ASAP', read_only=False, path='stages.circuit_resolution.resolve_circuits.scheduling_strategy')}}, 'timebox_stage': SettingNode{'multiplex_readout': SettingNode{}, 'prepend_heralding': SettingNode{'add_heralding': Setting(parameter=Parameter(name='stages.timebox_stage.prepend_heralding.add_heralding', label='add_heralding', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='stages.timebox_stage.prepend_heralding.add_heralding')}, 'prepend_reset': SettingNode{'active_reset_cycles': Setting(parameter=Parameter(name='stages.timebox_stage.prepend_reset.active_reset_cycles', label='active_reset_cycles', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=None, read_only=False, path='stages.timebox_stage.prepend_reset.active_reset_cycles')}}, 'timebox_resolution': SettingNode{'resolve_timeboxes': SettingNode{'neighborhood': Setting(parameter=Parameter(name='stages.timebox_resolution.resolve_timeboxes.neighborhood', label='neighborhood', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=1, read_only=False, path='stages.timebox_resolution.resolve_timeboxes.neighborhood')}}, 'dynamical_decoupling': SettingNode{'apply_dd_strategy': SettingNode{'dd_is_disabled': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.dd_is_disabled', label='dd_is_disabled', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.dd_is_disabled'), 'use_standard_dd_strategy': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.use_standard_dd_strategy', label='use_standard_dd_strategy', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.use_standard_dd_strategy'), 'DDStrategy_merge_contiguous_waits': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_merge_contiguous_waits', label='DDStrategy_merge_contiguous_waits', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_merge_contiguous_waits'), 'DDStrategy_target_qubits': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_target_qubits', label='DDStrategy_target_qubits', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_target_qubits'), 'DDStrategy_skip_leading_wait': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_skip_leading_wait', label='DDStrategy_skip_leading_wait', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_skip_leading_wait'), 'DDStrategy_skip_trailing_wait': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_skip_trailing_wait', label='DDStrategy_skip_trailing_wait', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_skip_trailing_wait'), 'DDStrategy_gate_sequences_ratio': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_gate_sequences_ratio', label='DDStrategy_gate_sequences_ratio', unit='', data_type=<DataType.INT: 5>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_gate_sequences_ratio'), 'DDStrategy_gate_sequences_gate_pattern_xy': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_gate_sequences_gate_pattern_xy', label='DDStrategy_gate_sequences_gate_pattern_xy', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_gate_sequences_gate_pattern_xy'), 'DDStrategy_gate_sequences_align': Setting(parameter=Parameter(name='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_gate_sequences_align', label='DDStrategy_gate_sequences_align', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.LIST: 1>, element_indices=None), value=None, read_only=False, path='stages.dynamical_decoupling.apply_dd_strategy.DDStrategy_gate_sequences_align')}}, 'schedule_stage': SettingNode{'apply_move_gate_phase_corrections': SettingNode{'move_gate_frame_tracking_mode': Setting(parameter=Parameter(name='stages.schedule_stage.apply_move_gate_phase_corrections.move_gate_frame_tracking_mode', label='move_gate_frame_tracking_mode', unit='', data_type=<DataType.STRING: 3>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value='full', read_only=False, path='stages.schedule_stage.apply_move_gate_phase_corrections.move_gate_frame_tracking_mode')}, 'clean_schedule': SettingNode{}}, 'schedule_resolution': SettingNode{'build_playlist_and_merge_contexts': SettingNode{'compute_execution_time_metrics': Setting(parameter=Parameter(name='stages.schedule_resolution.build_playlist_and_merge_contexts.compute_execution_time_metrics', label='compute_execution_time_metrics', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='stages.schedule_resolution.build_playlist_and_merge_contexts.compute_execution_time_metrics'), 'ignore_input_components': Setting(parameter=Parameter(name='stages.schedule_resolution.build_playlist_and_merge_contexts.ignore_input_components', label='ignore_input_components', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='stages.schedule_resolution.build_playlist_and_merge_contexts.ignore_input_components')}}, 'job_creation': SettingNode{'create_run_definition': SettingNode{'data_size_safety_switch': Setting(parameter=Parameter(name='stages.job_creation.create_run_definition.data_size_safety_switch', label='data_size_safety_switch', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=True, read_only=False, path='stages.job_creation.create_run_definition.data_size_safety_switch'), 'force_ragged_data': Setting(parameter=Parameter(name='stages.job_creation.create_run_definition.force_ragged_data', label='force_ragged_data', unit='', data_type=<DataType.BOOLEAN: 4>, collection_type=<CollectionType.SCALAR: 0>, element_indices=None), value=False, read_only=False, path='stages.job_creation.create_run_definition.force_ragged_data')}}}},
sweeps=[],
return_parameters=['QB3__meas_3_1_0',
'QB5__meas_3_1_1',
'QB1__meas_3_1_2'],
playlist=Playlist(channel_descriptions={'PL_RO-1__readout': ChannelDescription(channel_config=ReadoutChannelConfig(sampling_rate=1800000000.0),
controller_name='PL_RO-1__readout'),
'QB1__drive.awg': ChannelDescription(channel_config=IQChannelConfig(sampling_rate=2400000000.0),
controller_name='QB1__drive.awg'),
'QB3__drive.awg': ChannelDescription(channel_config=IQChannelConfig(sampling_rate=2400000000.0),
controller_name='QB3__drive.awg'),
'QB5__drive.awg': ChannelDescription(channel_config=IQChannelConfig(sampling_rate=2400000000.0),
controller_name='QB5__drive.awg'),
'TC-1-3__flux.awg': ChannelDescription(channel_config=RealChannelConfig(sampling_rate=2400000000.0),
controller_name='TC-1-3__flux.awg'),
'TC-3-5__flux.awg': ChannelDescription(channel_config=RealChannelConfig(sampling_rate=2400000000.0),
controller_name='TC-3-5__flux.awg')},
segments=[Segment(instructions={'PL_RO-1__readout': [0,
7],
'QB1__drive.awg': [0,
1,
2,
3,
4,
5],
'QB3__drive.awg': [0,
1,
2,
3,
4],
'QB5__drive.awg': [0,
1,
2,
3,
4],
'TC-1-3__flux.awg': [0,
1,
2],
'TC-3-5__flux.awg': [0,
1,
2]})])))
Context fields:
['dut_label', 'components', 'settings', 'component_mapping', 'chip_topology', 'software_version_set_id', 'timebox_input', 'inputted_components', 'builder', 'soft_sweeps', 'hard_sweeps', 'readout_metrics', 'mapped_readout_keys', 'circuit_metrics', 'sweep_spot', 'sweep_spot_dict', 'components_that_can_be_measured']
Instead of calling compile() (which runs all the stages), each stage, or even each separate pass, can be run individually. In that case, the following has to be taken care of:
Provide initial context to the first pass of the first stage.
Save data and context returned by each pass (or stage) in order to provide it to the next pass (or stage).
To help with 1, the compiler has a method compiler_context which returns a dictionary of the initial context. The method takes two mandatory arguments, components and settings. The former is used in parametric circuits to generate the circuit for a particular subset of the QPU and can be left as None here, and the latter is the output of the familiar Compiler.get_settings that has been used already.
context = compiler.compiler_context(components=None, settings=settings)
Compile a circuit “manually” to run each of the standard stages one by one in the notebook.
1st standard stage: circuit-level passes#
The first stage is circuit-level passes:
When defining a circuit in IQM JSON or IQM Pulse format directly, specify an implementation for each gate (selecting from implementations provided by the calibration set). If no implementation is specified, the standard circuit-level stage will select the default implementation for each gate automatically.
Note: the circuit generation will automatically become the first compilation stage whenever you call Compiler.run_stages. In the case of parametrized circuits, Compiler provides the circuit parameter values to the circuit generation function (values provided either in the settings or in sweeps). Here, the circuit is not parametrized, so Compiler just wraps it into a trivial circuit generation function.
processed_circuits, context = compiler.run_stages(
circuits,
stages=[compiler.circuit_stages[0]],
context=context
)
pprint(processed_circuits)
[Circuit(name='circuit-13559',
instructions=(CircuitOperation(name='prx',
locus=('QB1',),
args={'angle': 1.5707963267948968,
'phase': 4.71238898038469},
implementation='drag_crf_sx'),
CircuitOperation(name='prx',
locus=('QB3',),
args={'angle': 1.5707963267948968,
'phase': 4.71238898038469},
implementation='drag_crf_sx'),
CircuitOperation(name='prx',
locus=('QB5',),
args={'angle': 1.5707963267948968,
'phase': 4.71238898038469},
implementation='drag_crf_sx'),
CircuitOperation(name='cz',
locus=('QB3', 'QB5'),
args={},
implementation='crf'),
CircuitOperation(name='cz',
locus=('QB1', 'QB3'),
args={},
implementation='crf'),
CircuitOperation(name='prx',
locus=('QB1',),
args={'angle': 1.5707963267948968,
'phase': 7.853981633974483},
implementation='drag_crf_sx'),
CircuitOperation(name='prx',
locus=('QB5',),
args={'angle': 1.5707963267948968,
'phase': 7.853981633974483},
implementation='drag_crf_sx'),
CircuitOperation(name='barrier',
locus=('QB1', 'QB3', 'QB5'),
args={},
implementation=''),
CircuitOperation(name='measure_fidelity',
locus=('QB3',),
args={'key': 'meas_3_1_0'},
implementation='constant'),
CircuitOperation(name='measure_fidelity',
locus=('QB5',),
args={'key': 'meas_3_1_1'},
implementation='constant'),
CircuitOperation(name='measure_fidelity',
locus=('QB1',),
args={'key': 'meas_3_1_2'},
implementation='constant'),
CircuitOperation(name='measure_fidelity',
locus=('QB2', 'QB4'),
args={'key': '__ONLY_PROBE'},
implementation='default_aggregator')),
metadata={})]
2nd standard stage: circuit resolution#
Next, convert the circuit to TimeBoxes. TimeBox is a pulse-level intermediate representation used in the IQM stack: a container for one or more instruction schedule fragments, to be scheduled according to a given scheduling strategy.
timeboxes, context = compiler.run_stages(
processed_circuits,
stages=[compiler.pulse_stages[0]],
context=context
)
# let's look into the first TimeBox which corresponds to the PRX instruction on QB1
timeboxes[0].print()
: circuit-13559
[0]: PRX_DRAGCosineRiseFallSX on ('QB1',) (atomic)
[1]: PRX_DRAGCosineRiseFallSX on ('QB3',) (atomic)
[2]: PRX_DRAGCosineRiseFallSX on ('QB5',) (atomic)
[3]: CZ_CRF on ('QB3', 'QB5') (atomic)
[4]: CZ_CRF on ('QB1', 'QB3') (atomic)
[5]: PRX_DRAGCosineRiseFallSX on ('QB1',) (atomic)
[6]: PRX_DRAGCosineRiseFallSX on ('QB5',) (atomic)
[7]: Barrier on ('QB1', 'QB3', 'QB5') (atomic)
[8]: (unnamed on set())
[9]: MeasureBoxes on {'PL_RO-1', 'QB3'} (atomic)
[10]: (unnamed on set())
[11]: (unnamed on set())
[12]: (unnamed on set())
[13]: MeasureBoxes on {'PL_RO-1', 'QB5'} (atomic)
[14]: (unnamed on set())
[15]: (unnamed on set())
[16]: (unnamed on set())
[17]: MeasureBoxes on {'PL_RO-1', 'QB1'} (atomic)
[18]: (unnamed on set())
[19]: (unnamed on set())
[20]: (unnamed on set())
[21]: MultiplexedProbeTimeBox on {'PL_RO-1', 'QB2', 'QB4'} (atomic)
[22]: (unnamed on set())
[23]: (unnamed on set())
The compiler gives a list of TimeBox objects, which can be edited manually. A TimeBox can contain child TimeBoxes or a Schedule (in which case it is referred to as “atomic”). In the provided example the circuit was converted into one TimeBox containing atomic child TimeBoxes which correspond to circuit operations (7 gates + 1 barrier gate + 3 measurement gates). An atomic TimeBox holds its Schedule in the atom property:
timeboxes[0][0].atom.pprint()
'QB1__drive.awg 1:!==|\n'
3rd standard stage: timebox-level passes#
The measurements are multiplexed in the timebox-level stage. The measure_all() in the circuit creation adds a single TimeBox with the gate implementation Measure_Constant for each qubit in the circuit. With the default settings option, the first stage has also added a measurement TimeBox for the unused qubits.
Multiplexing means executing all of these measurements at once, instead of one after the other. The multiplexing pass takes care of this optimization:
multiplexed_timeboxes, context = compiler.run_stages(
timeboxes,
stages=[compiler.pulse_stages[1]],
context=context
)
multiplexed_timeboxes[0].print()
: (unnamed on {'QB5', 'QB1', 'QB4', 'QB3', 'PL_RO-1', 'QB2'})
[0]: (unnamed on {'QB2', 'QB5', 'QB1', 'QB4', 'QB3'})
[0][0]: (unnamed on {'QB2', 'QB5', 'QB1', 'QB4', 'QB3'})
[0][0][0]: (unnamed on {'QB2', 'QB5', 'QB1', 'QB4', 'QB3'})
[0][0][0][0]:Wait (atomic)
[0][0][0][1]:Wait (atomic)
[0][0][0][2]:Wait (atomic)
[0][0][0][3]:Wait (atomic)
[0][0][0][4]:Wait (atomic)
[1]: circuit-13559
[1][0]: PRX_DRAGCosineRiseFallSX on ('QB1',) (atomic)
[1][1]: PRX_DRAGCosineRiseFallSX on ('QB3',) (atomic)
[1][2]: PRX_DRAGCosineRiseFallSX on ('QB5',) (atomic)
[1][3]: CZ_CRF on ('QB3', 'QB5') (atomic)
[1][4]: CZ_CRF on ('QB1', 'QB3') (atomic)
[1][5]: PRX_DRAGCosineRiseFallSX on ('QB1',) (atomic)
[1][6]: PRX_DRAGCosineRiseFallSX on ('QB5',) (atomic)
[1][7]: Barrier on ('QB1', 'QB3', 'QB5') (atomic)
[1][8]: (unnamed on set())
[1][9]: MultiplexedProbeTimeBox on {'PL_RO-1', 'QB2', 'QB5', 'QB1', 'QB4', 'QB3'} (atomic)
[1][10]: (unnamed on set())
[1][11]: (unnamed on set())
To ensure that measurements are multiplexed together in a Qiskit circuit, they should get wrapped with barriers. This would prevent the Qiskit transpiler from putting any other instructions, acting on the same qubits, in between measurements, thus allowing the compiler to multiplex.
Notice that there is also an additional Wait TimeBox added at the beginning of the circuit. This corresponds to reset. By default, the reset is done via relaxation, so we just add a long-enough wait time (this also calibrated per QPU) before the actual circuit. If active reset is used (can be switched on via the settings), we would add that instead.
The TimeBox stage also adds another measurement in the beginning of the circuit if heralding is used (by default it is not, but this can be changed in the settings).
4th standard stage: timebox resolution#
Next, convert the TimeBoxes into a single Schedule. This is a recursive process which resolves all nested TimeBoxes into atomic TimeBoxes, and finally assembles a single Schedule out each of batches of TimeBoxes. At this stage, all relative timings between pulses are resolved and fixed.
schedules, context = compiler.run_stages(
multiplexed_timeboxes,
stages=[compiler.pulse_stages[2]],
context=context
)
schedules[0]._contents
{'QB1__drive.awg': <iqm.pulse.playlist.schedule.Segment at 0x75af4570f510>,
'QB2__drive.awg': <iqm.pulse.playlist.schedule.Segment at 0x75af4570f490>,
'QB3__drive.awg': <iqm.pulse.playlist.schedule.Segment at 0x75af4570f350>,
'QB4__drive.awg': <iqm.pulse.playlist.schedule.Segment at 0x75af4570f290>,
'QB5__drive.awg': <iqm.pulse.playlist.schedule.Segment at 0x75af4570f210>,
'TC-3-5__flux.awg': <iqm.pulse.playlist.schedule.Segment at 0x75af457149d0>,
'TC-1-3__flux.awg': <iqm.pulse.playlist.schedule.Segment at 0x75af45714890>,
'PL_RO-1__readout': <iqm.pulse.playlist.schedule.Segment at 0x75af457147d0>}
5th standard stage: dynamical decoupling#
Dynamical decoupling pulse sequences get inserted to replace Wait instructions. The process is controlled by a user-submitted dynamical decoupling strategy. By default, this stage is disabled. Consult other notebooks for examples of how to enable and apply dynamical decoupling.
6th standard stage: schedule-level passes#
Next is a schedule-level stage. Its first pass applies calibrated phase corrections if MOVE gates are used (only applicable to QCs with computational resonator, i.e. the IQM Star Architecture). The second pass removes non-functional instructions from the schedules. This is the last standard compilation stage.
processed_schedules, context = compiler.run_stages(
schedules,
stages=[compiler.pulse_stages[4]],
context=context
)
Job definition finalization#
Finally, compiler.final_stages contain the stages and passes for turning the processed_schedules into an executable job definition. It contains the playlist, which can now be visualized.
job_definition, context = compiler.finalize(processed_schedules, context)
HTML(inspect_playlist(job_definition.sweep_definition.playlist, [0]))
/home/ville/iqm/repot/continuous-delivery/.dev/environment/venv/lib/python3.11/site-packages/IPython/core/display.py:431: UserWarning: Consider using IPython.display.IFrame instead
warnings.warn("Consider using IPython.display.IFrame instead")
At this point everything is ready to be submitted for execution to the server.
job = pulla.submit_playlist(job_definition, context=context)
job.wait_for_completion()
[06-08 19:04:18;I] Waiting for job 019ea7fa-48eb-7ed3-b1b4-130583dd2646 to finish...
<JobStatus.COMPLETED: 'completed'>
Now these raw results can be converted into a Qiskit Result object:
qiskit_result = sweep_job_to_qiskit(job, shots=shots)
print(f"Qiskit result counts: {qiskit_result.get_counts()}")
visualization.plot_histogram(qiskit_result.get_counts())
Qiskit result counts: {'110': 18, '111': 376, '000': 419, '100': 30, '101': 44, '010': 55, '011': 51, '001': 7}
The same circuit can also be submitted to IQM Server for execution. IQM Server uses a server-side compiler with fixed standard stages. Since starting with a normal Qiskit backend and a circuit, execution is as simple as:
job = backend.run(qc_transpiled, shots=shots)
print(job.result().get_counts())
visualization.plot_histogram(job.result().get_counts())
[06-08 19:04:22;I] Waiting for job 019ea7fa-584a-78b0-8fe2-1a8ca88a349e to finish...
{'000': 463, '111': 325, '101': 38, '010': 68, '100': 44, '110': 21, '001': 10, '011': 31}
Post-processing#
After execution, the raw hardware data needs to be transformed into a human-readable result. Pulla provides two post-processing modes:
Circuit-style — Returns a
CircuitExecutionResultswith measurement bit-strings mapped back to the original circuit. Returned when callingjob.result()without a compiler.EXA-style — Returns a
RunResultcontaining an xarrayDatasetwith rich analysis data. Returned when callingjob.result(compiler=compiler), which invokescompiler.post_process().
The exa_style_pp flag in pulla.get_standard_compiler(exa_style_pp=True) (the default) controls which post-processing stages the compiler is created with. When no compiler is passed to job.result(), circuit-style post-processing is always used regardless of this flag.
Circuit-style post-processing#
Runs a single stage (construct_circuit_execution_results) that:
Unmaps hashed readout keys back to their original names.
Converts raw sweep results into per-circuit measurement dictionaries (bit-strings to counts).
Handles heralding if enabled.
EXA-style post-processing#
Runs two steps sequentially:
Step 1: construct_run_result — Aggregates raw hardware data into a structured RunResult backed by an xarray Dataset.
Step 2: construct_data_variables — Applies a series of passes to enrich the dataset.
To use EXA-style post-processing, pass the compiler to job.result(compiler=compiler), which will call compiler.post_process() internally.
Adding custom stages/passes#
Now it is time to customize the standard compilation pipeline, augmenting it with a custom pass.
In principle, there is no limit what a pass function may do, but for demonstration purposes, create a pass that merges adjacent VirtualRZ instructions together into a single long instruction with the rotation angle taken from the sum of the original instructions’ angles. In practice, this kind of pass could be useful for complex circuits that have a lot of CZ gates as it could save some instruction memory from the hardware (even further, try flushing not needed VirtualRZ instructions altogether and merge the ones not needed to the next drive IQPulse as a phase increment).
# Define a circuit that has a lot of VirtualRZ instructions in it (one CZ gate results in one VirtualRZ instruction in each of its qubit drive channels).
def _qiskit_circuit(n_cz: int = 1):
qc = QuantumCircuit(2, 2)
qc.h(0)
for _ in range(n_cz):
qc.cz(0, 1)
qc.measure([0,1], [0,1])
return [qc]
# Use the Qiskit compiler this time
compiler = get_qiskit_compiler(pulla, backend)
settings = compiler.get_settings(circuits=_qiskit_circuit)
settings.set_shots(shots)
# Add a lot of repeated CZ gates => a lot of VirtualRZ instructions
settings.stages.circuit_generation.circuit.n_cz = 20
job_definition, context = compiler.compile(
circuits=_qiskit_circuit,
components=["QB3", "QB5"],
settings=settings,
)
HTML(inspect_playlist(job_definition.sweep_definition.playlist, [0]))
/home/ville/iqm/repot/continuous-delivery/.dev/environment/venv/lib/python3.11/site-packages/IPython/core/display.py:431: UserWarning: Consider using IPython.display.IFrame instead
warnings.warn("Consider using IPython.display.IFrame instead")
This shows a lot of back-to-back VirtualRZ instructions in the drive channel. Adding the stage for merging them saves up some instruction memory from the hardware.
# Define the VirtualRZ merging stage pass as a Python function
def merge_adjacent_vzs(schedules: list[Schedule], builder: ScheduleBuilder) -> list[Schedule]:
"""Merge adjacent VirtualRZ instructions into a single instruction, saving HW memory
The rotation angle and the duration is the sum of the individual VirtualRZ angles/durations.
Args:
schedules: The resolved pulse-level schedules.
builder: The ScheduleBuilder.
Returns:
The schedules with adjacent VirtualRZ instructions merged.
"""
new_schedules = []
for schedule in schedules:
new_schedule = {}
for ch, seg in schedule.items():
new_seg = []
prev_rz = None
for inst in seg:
if "drive.awg" in ch:
if isinstance(inst, VirtualRZ):
if prev_rz:
prev_rz = VirtualRZ(
duration=prev_rz.duration + inst.duration,
phase_increment=prev_rz.phase_increment + inst.phase_increment
)
else:
prev_rz = inst
else:
if prev_rz:
new_seg.extend([prev_rz, inst])
prev_rz = None
else:
new_seg.append(inst)
else:
new_seg.append(inst)
if prev_rz:
new_seg.append(prev_rz)
prev_rz = None
new_schedule[ch] = Segment(new_seg)
new_schedules.append(Schedule(new_schedule))
return new_schedules
compiler = get_qiskit_compiler(pulla, backend)
# Insert the stage pass into the schedule-level stage (as the final pass)
compiler.pulse_stages.schedule_stage.add_passes(merge_adjacent_vzs)
# Inspect the stages after this
compiler.show_stages(pass_name="merge_adjacent_vzs")
Circuit-level Stages (3)
Stage 0: qiskit_transpilation Transpile and route Qiskit circuits to the correct architecture.
| Pass 0: parallelize_and_transpile | list[list[QuantumCircuit]] |
|
Full Signature
(
Documentation
circuits: 'list[QuantumCircuit]',components: 'ComponentGrouping | None',context: 'dict[str, Any]',perform_move_routing: 'bool' = True,optimize_single_qubits: 'bool' = True,ignore_barriers_in_1qb_optimization: 'bool' = False,remove_final_rzs: 'bool' = True,existing_moves_handling: 'str | None' = None,optimization_level: 'int' = 0,seed_transpiler: 'int | None' = None,num_processes: 'int | None' = None) -> list[list[QuantumCircuit]] Transpile Qiskit circuits and parallelize them if colour grouped components were inputted.
Args:
circuits: List of Qiskit QuantumCircuit objects to transpile and potentially parallelize.
components: List of (physical) components on which to transpile (route) the circuits. If a flat list of
components is provided, the IQMTarget will be built only on that subset of the full QPU. If colour
grouped components (i.e. of the form ``list[list[tuple(str, ...)]]``) is provided, the circuits will
be parallelized such that each colour group becomes its own circuit, and the circuit will be broadcasted
to parallel groups within a colour group, i.e. executed parallelly. If ``None`` is provided, the default
target for the full QPU will be used.
context: The Compiler context.
perform_move_routing: Whether to perform MOVE gate routing.
optimize_single_qubits: Whether to optimize single qubit gates away.
ignore_barriers_in_1qb_optimization: Whether to ignore barriers when optimizing single qubit gates.
remove_final_rzs: Whether to remove the final z rotations.
existing_moves_handling: How to handle existing MOVE gates in the circuit, required if the circuit contains
MOVE gates.
optimization_level: The optimization level of the Qiskit transpiler.
seed_transpiler: The seed of the Qiskit transpiler.
num_processes: The number of parallel processes to use.
Returns:
Transpiled and possibly parallelized circuits. The circuit(s) in each inner list are executed in parallel.
If there is no parallelization, each inner list has just one item.
|
|
Stage 1: qiskit_to_iqm Convert Qiskit circuits into the internal circuit representation.
| Pass 0: qiskit_circuits_to_iqm_circuits | list[Circuit] |
|
Full Signature
(
Documentation
circuits: 'list[list[QuantumCircuit]]',components: 'ComponentGrouping | None',context: 'dict[str, Any]') -> list[Circuit] Convert Qiskit QuantumCircuits to IQM circuits.
Args:
circuits: Qiskit QuantumCircuit objects to compile. The circuits in each inner list are executed in parallel.
components: Physical components on which to compile the circuits. If ``None``, will use the default IQMTarget
in the Qiskit backend, otherwise restricts to these components.
context: The Compiler context.
Returns:
Converted IQM circuits.
|
|
Stage 2: circuit_stage Perform Circuit-level transformations.
| Pass 0: validate_settings | list[iqm.pulse.circuit_operations.Circuit] |
|
Full Signature
(
Documentation
circuits: list[iqm.pulse.circuit_operations.Circuit],settings: exa.common.data.setting_node.SettingNode) -> list[iqm.pulse.circuit_operations.Circuit] Validate the settings for circuit execution options (only some combinations make sense).
Raises an error if full MOVE gate tracking is used without move gate validation. Raises a warning if terminal
measurements would be used with active reset.
Args:
circuits: The circuits to compiler.
settings: The settings tree to validate.
Returns:
The circuits as they were.
Raises:
CircuitError: if full MOVE gate tracking is used without move gate validation.
|
|
| Pass 1: map_components | Iterable[iqm.pulse.circuit_operations.Circuit] |
|
Full Signature
(
Documentation
circuits: collections.abc.Iterable[iqm.pulse.circuit_operations.Circuit],component_mapping: dict[str, str] | None,context: dict[str, typing.Any]) -> Iterable[iqm.pulse.circuit_operations.Circuit] Maps the logical component names in a sequence of instructions to the corresponding physical component names.
Modifies ``instructions`` in place. If no mapping is provided, returns the circuits as they are.
Args:
circuits: The circuits to compiler.
component_mapping: Mapping of logical component names to physical component names.
``None`` means the identity mapping.
context: The Compiler context.
|
|
| Pass 2: subscribe_and_probe | list[iqm.pulse.circuit_operations.Circuit] |
|
Full Signature
(
Documentation
circuits: list[iqm.pulse.circuit_operations.Circuit],settings: exa.common.data.setting_node.SettingNode,context: dict[str, typing.Any],additionally_subscribed_components: list[str],additionally_probed_components: list[str],probe_all: bool = True,convert_terminal_measurements: bool = True) -> list[iqm.pulse.circuit_operations.Circuit] Add additional terminal measurements to the circuit and modify measurement instruction arguments.
The additional measurements can be subscribed to (i.e. they'd return measurement data) or be just probe pulses
for potentially improving the terminal measurement fidelity in case the measurement calibration is not 100%
factorizable.
In addition, the pass hashes all readout keys since there is a data processing limit for the readout key length.
The keys should then be unmapped in the return data post-processing. The terminal measurements can also be converted
to the ``measure_fidelity`` operation which is calibrated to maximize the fidelity while not necessarily being
projective (QNDness is typically not important for the terminal measurement).
Args:
circuits: The circuits to compile.
settings: The settings tree.
context: The Compiler context.
additionally_subscribed_components: Additional components to measure in the terminal measurement (besides the
ones explicitly measured in the circuit itself).
additionally_probed_components: Additional components to send the probe pulse to besides the
ones explicitly measured in the circuit itself). The measurement data will not be collected from these
components.
probe_all: Whether to send to probe pulse to all components in the terminal measurement (overrides
``additionally_probed_components``).
convert_terminal_measurements: Whether to convert the terminal measurement data to the ``measure_fidelity``
operation that is calibrated to maximize the fidelity while not necessarily being QND. This option will
be turned to ``False`` automatically if active reset is used (active reset is not reliable in the presence
of leakage).
Returns:
The circuits with the aforementioned modifications.
|
|
| Pass 3: validate_circuits | list[iqm.pulse.circuit_operations.Circuit] |
|
Full Signature
(
Documentation
circuits: list[iqm.pulse.circuit_operations.Circuit],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],move_gate_validation: bool = True,validate_prx: bool = True,validate_calset: bool = False) -> list[iqm.pulse.circuit_operations.Circuit] Validate circuits and aggerate metrics data from them.
Args:
circuits: The circuits to compile.
builder: The ScheduleBuilder.
context: The compiler context.
move_gate_validation: Whether to do the move gate validation.
validate_prx: Whether to do the validation.
validate_calset: Whether to validate the calibration set (if the calibration point used is not from a
calibration set, this validation might not make sense).
|
|
Pulse-level Stages (5)
Stage 0: circuit_resolution Resolve Circuits into TimeBoxes.
| Pass 0: resolve_circuits | list[iqm.pulse.timebox.TimeBox] |
|
Full Signature
(
Documentation
circuits: list[iqm.pulse.circuit_operations.Circuit] | list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,scheduling_strategy: str = 'ASAP') -> list[iqm.pulse.timebox.TimeBox] Resolve the circuits to timeboxes.
Args:
circuits: The circuit to resolve.
builder: The schedule builder.
scheduling_strategy: Scheduling strategy to be used in the resolved TimeBoxes (see :class:`.TimeBox`).
Returns:
List of TimeBoxes (one TimeBox per circuit).
|
|
Stage 1: timebox_stage Perform TimeBox-level transformations.
| Pass 0: multiplex_readout | list[iqm.pulse.timebox.TimeBox] |
|
Full Signature
(
Documentation
timeboxes: list[iqm.pulse.timebox.TimeBox],timebox_input: bool) -> list[iqm.pulse.timebox.TimeBox] Merge any MultiplexedProbeTimeBoxes inside a TimeBox representing a circuit.
This pass optimizes a situation where multiple "measure" gates on disjoint set of loci exist sequentially in the
circuit.
Without optimization, each gate would result in a separate trigger event, which results in worse performance.
For example, with the measurement instructions [M(QB1), M(QB2), M(QB3)], we'd first measure QB1, then QB2, then QB3.
This optimization merges the measurement timeboxes, so that we'll measure QB1, QB2, and QB3 at the same time
(if the hardware channel configuration allows it), corresponding to M(QB1, QB2, QB3).
Goes through the children of `circuit_box`, and places them in the same temporal order.
Whenever a MultiplexedProbeTimeBox is encountered (i.e. from a measure gate), it is merged with the previous pending
MultiplexedProbeTimeBox and left pending.
If any other box type with colliding loci is encountered, first places the pending MultiplexedProbeTimeBox.
This essentially delays all measurements until the last possible moment.
This stage pass is skipped if the circuits to be compiled were given in the TimeBox-level, as the logic within does
not work for deep recursive TimeBoxes.
Args:
timeboxes: Timeboxes representing circuits.
timebox_input: Whether the circuits were inputted already in the TimeBox format.
Returns:
New TimeBoxes with the same content, except with some MultiplexedProbeTimeBoxes merged.
|
|
| Pass 1: prepend_heralding | list[iqm.pulse.timebox.TimeBox] |
|
Full Signature
(
Documentation
timeboxes: list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],add_heralding: bool = False) -> list[iqm.pulse.timebox.TimeBox] Add the heralding measurement TimeBox to all circuits (locus: active components that can be measured).
Args:
timeboxes: Timeboxes representing circuits.
builder: The ScheduleBuilder.
context: Compiler context.
add_heralding: Whether to add the heralding measurement timebox to the schedules.
Returns:
The timeboxes with the prepended heralding measurement.
|
|
| Pass 2: prepend_reset | list[iqm.pulse.timebox.TimeBox] |
|
Full Signature
(
Documentation
timeboxes: list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],active_reset_cycles: int | None = None) -> list[iqm.pulse.timebox.TimeBox] Add a reset timebox to all circuits for all active components.
Args:
timeboxes: TimeBoxes representing circuits.
builder: The ScheduleBuilder.
context: The compiler context.
active_reset_cycles: Number of active reset cycles applied. `None` means no active reset cycles, in which case
reset is done by relaxation (waiting).
Returns:
The timeboxes with the prepended reset.
|
|
Stage 2: timebox_resolution Resolve TimeBoxes into Schedules.
| Pass 0: resolve_timeboxes | list[iqm.pulse.playlist.schedule.Schedule] |
|
Full Signature
(
Documentation
timeboxes: list[iqm.pulse.timebox.TimeBox],builder: iqm.pulse.builder.ScheduleBuilder,neighborhood: int = 1) -> list[iqm.pulse.playlist.schedule.Schedule] Resolve the timeboxes to schedules.
Args:
timeboxes: TimeBoxes representing circuits.
builder: The ScheduleBuilder.
neighborhood: The neighborhood for the scheduling (see: :meth:`.ScheduleBuilder.resolve_timebox`).
Returns:
The time-resolved schedules (one for each circuit).
|
|
Stage 3: dynamical_decoupling Apply dynamical decoupling sequences to idle qubits in the Schedules.
| Pass 0: apply_dd_strategy | list[iqm.pulse.playlist.schedule.Schedule] |
|
Full Signature
(
Documentation
schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],dd_is_disabled: bool = True,use_standard_dd_strategy: bool = True,DDStrategy_merge_contiguous_waits: bool = True,DDStrategy_target_qubits: list[str] | None = None,DDStrategy_skip_leading_wait: bool = True,DDStrategy_skip_trailing_wait: bool = True,DDStrategy_gate_sequences_ratio: list[int] | None = None,DDStrategy_gate_sequences_gate_pattern_xy: list[str] | None = None,DDStrategy_gate_sequences_align: list[str] | None = None) -> list[iqm.pulse.playlist.schedule.Schedule] Insert dynamical decoupling sequences into the schedules, if dynamical decoupling is enabled.
DDStrategy can also be read from the Compiler context, from under the key `"DDStrategy"`. In this case, the
strategy provided will override the DDStrategy options given as args to this function.
Args:
schedules: Schedules representing the compiled circuits.
builder: The ScheduleBuilder.
context: Compiler context.
dd_is_disabled: Set to ``False`` to enable dynamical decoupling.
use_standard_dd_strategy: Whether to use the standard decoupling strategy (overrides the below arguments).
DDStrategy_target_qubits: The qubits to which DD is applied (``None`` means apply to every applicable qubit).
DDStrategy_merge_contiguous_waits: Whether to merge contiguous waits (see :class:`.DDStrategy`).
DDStrategy_skip_leading_wait: Whether to skip leading waits (see :class:`.DDStrategy`).
DDStrategy_skip_trailing_wait: Whether to skip trailing waits (see :class:`.DDStrategy`).
DDStrategy_gate_sequences_ratio: Minimal durations for the Wait to be replaced with the DD sequence
(in PRX gate durations) in the DD sequence.
DDStrategy_gate_sequences_gate_pattern_xy: XY Gate patterns in the DD sequence. If you want to provide custom
PRX angles instead of XY patterns, you must provide the DDStrategy in the Compiler context.
DDStrategy_gate_sequences_align: Alignments in the DD sequence ("asap", "alap" or "center")
Returns:
THe schedules where applicable Waits are replaced with DD sequences.
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Stage 4: schedule_stage Perform Schedule-level transformations.
| Pass 0: apply_move_gate_phase_corrections | list[iqm.pulse.playlist.schedule.Schedule] |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],move_gate_frame_tracking_mode: str = 'full') -> list[iqm.pulse.playlist.schedule.Schedule] Apply calibrated phase corrections if MOVE gates are used.
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| Pass 1: clean_schedule | list[iqm.pulse.playlist.schedule.Schedule] |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder) -> list[iqm.pulse.playlist.schedule.Schedule] Remove non-functional instructions from `schedules`.
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| Pass 2: merge_adjacent_vzs | list[iqm.pulse.playlist.schedule.Schedule] |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder) -> list[iqm.pulse.playlist.schedule.Schedule] Merge adjacent VirtualRZ instructions into a single instruction, saving HW memory
The rotation angle and the duration is the sum of the individual VirtualRZ angles/durations.
Args:
schedules: The resolved pulse-level schedules.
builder: The ScheduleBuilder.
Returns:
The schedules with adjacent VirtualRZ instructions merged.
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Finalization Stages (2)
Stage 0: schedule_resolution Translate Schedules into a hardware-executable Playlist.
| Pass 0: build_playlist_and_merge_contexts | iqm.models.playlist.playlist.Playlist |
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schedules: list[iqm.pulse.playlist.schedule.Schedule],builder: iqm.pulse.builder.ScheduleBuilder,context: dict[str, typing.Any],compute_execution_time_metrics: bool = False,ignore_input_components: bool = False) -> iqm.models.playlist.playlist.Playlist Build the playlist from the schedules and merge the contexts for individual sweep spots.
When merging the context, the active components are the union of the active components in each sweep spot
(unless explicitly given by the user). The default context keys are not merged (these should not be modified
by any of the sweep spots), and any other keys in the context will be merged to mapping from the sweep spot id
to the context entry.
Args:
schedules: Schedules to build into a Playlist.
builder: The ScheduleBuilder.
context: The Compiler context.
compute_execution_time_metrics: Whether to compute schedule duration and minimum execution time for circuits.
ignore_input_components: If True, components are always replaced with the ones found in context.
Returns:
The Playlist containing schedules.
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Stage 1: job_creation Package the Playlist and metadata into a job description to be submitted to IQM Server.
| Pass 0: create_run_definition | iqm.station_control.interface.models.run.RunDefinition |
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playlist: iqm.models.playlist.playlist.Playlist,context: dict[str, typing.Any],data_size_safety_switch: bool = True,force_ragged_data: bool = False) -> iqm.station_control.interface.models.run.RunDefinition Create MQE-style RunDefinition.
Args:
playlist: The Playlist to create the RunDefinition for.
context: The Compiler context.
data_size_safety_switch: Whether to throw an error with exceedingly large return data sizes (set to ``False``
if you want to still run the job and are sure the DB and/or the stack can handle it).
force_ragged_data: Whether to force the return data to the sparse ragged format even if the
dimensions are representable as a cartesian product.
Returns:
The RunDefinition.
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Post-processing Stages (2)
Stage 0: construct_run_result Aggregate raw hardware data into a structured run result object.
| Pass 0: construct_run_result | iqm.cpc.core.run_result.RunResult |
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pulla_data: iqm.cpc.compiler.post_process.PullaData,context: dict[str, typing.Any]) -> iqm.cpc.core.run_result.RunResult Construct the dataset and attach it to a RunResult object.
Unmaps the hashed readout keys.
Args:
pulla_data: The Pulla data (run data and sweep data).
context: The Compiler context.
Returns:
The RunResult.
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Stage 1: construct_data_variables Map measured counts and states to high-level user variables.
| Pass 0: create_ragged_data_index | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Adds ``MultiIndex`` to the trigger index dimension for accessing ragged data via the hard sweep values.
If there is a non-uniform number of readout triggers for n RO label across the segments of the playlist, the data
cannot be reshaped into an N-dimensional box with the dims
``(
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| Pass 1: extract_counter_group_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Extracts the data for all counter readout groups into their own data variables in the dataset.
Args:
run: the run result.
Returns:
The run result with new data variables for each counter readout group added.
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| Pass 2: rename_data_variables | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult,context: dict[str, typing.Any]) -> iqm.cpc.core.run_result.RunResult Rename the data variables in the dataset and optionally change their data types.
Args:
run: The RunResult object.
context: Compiler context.
Returns:
The post-processed run results with the data variables renamed.
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| Pass 3: classify_two_states | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Classify the complex data using the calibrated threshold.
If the observations are not available, a warning is logged.
Args:
run: The run result.
Returns:
The run result with the discriminated shots added.
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| Pass 4: average_single_shot_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Average the shots (or more generally the average bins) into a new data variable in the dataset.
If the data is already averaged, it is returned unchanged.
Args:
run: The RunResult object.
Returns:
The RunResult with the single shot data variables averaged.
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| Pass 5: contrast_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Add contrast for several components/readouts.
Contrast is calculated from complex integrated data with PCA. If a data variable is not complex (i.e. it is already
discriminated) it is retained as it is.
Args:
run: The RunResult object.
Returns:
The RunResult with the contrast data variable added for all complex variables.
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| Pass 6: add_counter_averaged_readout | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Add single-qubit excited state probabilities from the multi qubit counter results to the dataset.
Args:
run: The run result.
Returns:
The run result with new data variables for averaged readout for each component added.
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| Pass 7: compute_excitation_probability_from_data | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Compute the excited state probability for several components.
For complex readout data, this is done using the averaged threshold readout observations and for
threshold discriminated data using the 01 and 10 assignment error observations. If the
aforementioned observations are not available, a warning is thrown.
Args:
run: The RunResult object.
Returns:
The RunResult with the excited state probability added into the dataset.
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| Pass 8: add_counts_for | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Add single-qubit excited state probabilities from the multi qubit counter results to the dataset.
This is done only if the dimensions of the single qubit probabilities are equal.
Args:
run: The run result.
Returns:
The run result with the counter data added.
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| Pass 9: rename_measure_ancilla_variables | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Rename composite measure labels in data variables.
A composite measure label is of the format `"
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| Pass 10: process_metadata | iqm.cpc.core.run_result.RunResult |
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run: iqm.cpc.core.run_result.RunResult) -> iqm.cpc.core.run_result.RunResult Process the metadata in the RunResult.
- Set the target data variables
- Process tuples serialised into lists back into tuples.
Args:
run: The RunResult.
Returns:
The RunResult with the metadata processed.
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Finally, compile with the new pass included and visualize the playlist.
settings = compiler.get_settings(circuits=_qiskit_circuit)
# Add a lot of repeated CZ gates => a lot of VirtualRZ instructions
settings.stages.circuit_generation.circuit.n_cz = 20
settings.set_shots(shots)
job_definition, context = compiler.compile(
circuits=_qiskit_circuit,
components=["QB3", "QB5"],
settings=settings,
)
HTML(inspect_playlist(job_definition.sweep_definition.playlist, [0]))
The same could have been achieved by defining a new CompilationStage altogether, named e.g. “virtual_rz_merging” adding the stage after the default schedule-level stage and adding the pass into it. CompilationStage is just an abtraction layer for dividing the stage passes into useful categories – in practice, just a bunch of passes are executed sequentially.