EFRabi¶
- class EFRabi(physical_qubits, schedule, amplitudes=None, backend=None)[source]¶
An experiment that scans the amplitude of a pulse inducing rotations on the \(|1\rangle\) <-> \(|2\rangle\) transition.
Overview
This experiment is a subclass of the
Rabi
experiment but takes place between the first and second excited state. An initial X gate populates the first excited state. The Rabi pulse is applied on the \(|1\rangle\) <-> \(|2\rangle\) transition (sometimes also labeled the e <-> f transition). The necessary frequency shift (typically the qubit anharmonicity) is given through the pulse schedule given at initialization. The schedule is then also stored in the experiment options. The circuits are of the form:┌───┐┌───────────┐ ░ ┌─┐ q_0: ┤ X ├┤ Rabi(amp) ├─░─┤M├ └───┘└───────────┘ ░ └╥┘ measure: 1/══════════════════════╩═ 0
Analysis class reference
Experiment options
These options can be set by the
set_experiment_options()
method.- Options
Defined in the class
Rabi
:amplitudes (iterable)
Default value:array(-0.95, -0.9119999999999999, -0.874, -0.836, -0.7979999999999999, ..., size=51)
The list of amplitude values to scan.schedule (ScheduleBlock)
Default value:None
The schedule for the Rabi pulse. This schedule must have exactly one free parameter. The drive channel should match the qubit.
Defined in the class
BaseExperiment
:max_circuits (Optional[int])
Default value:None
The maximum number of circuits per job when running an experiment on a backend.
Example
import numpy as np from qiskit import pulse from qiskit.circuit import Parameter from qiskit_experiments.library import EFRabi with pulse.build() as build_sched: pulse.play(pulse.Gaussian(160, Parameter("amp"), sigma=40), pulse.DriveChannel(0)) exp = EFRabi(physical_qubits=(0,), backend=backend, schedule=build_sched, amplitudes=np.linspace(-0.1, 0.1, 21),) exp_data = exp.run().block_for_results() display(exp_data.figure(0)) exp_data.analysis_results(dataframe=True)
name experiment components value quality backend run_time chisq fd3034a1 @Parameters_OscillationAnalysis EFRabi [Q0] CurveFitResult:\n - fitting method: least_squa... good PulseBackendV2 None None 8a662da6 rabi_rate_12 EFRabi [Q0] 8.635+/-0.018 good PulseBackendV2 None 1.441613 See also
Initialization
Initialize a Rabi experiment on the given qubit.
Deprecated since version 0.8: The class
qiskit_experiments.library.characterization.rabi.Rabi
is deprecated as of qiskit-experiments 0.8. It will be removed no earlier than 3 months after the release date. Due to the deprecation of Qiskit Pulse, experiments involving pulse gate calibrations like this one have been deprecated.- Parameters:
physical_qubits (Sequence[int]) – List with the qubit on which to run the Rabi experiment.
schedule (ScheduleBlock) – The schedule that will be used in the Rabi experiment. This schedule should have one free parameter namely the amplitude.
amplitudes (Iterable[float] | None) – The pulse amplitudes that one wishes to scan. If this variable is not specified it will default to
np.linspace(-0.95, 0.95, 51)
.backend (Backend | None) – Optional, the backend to run the experiment on.
Attributes
- analysis: BaseAnalysis¶
Return the analysis instance for the experiment
- backend¶
Return the backend for the experiment
- experiment_options¶
Return the options for the experiment.
- experiment_type¶
Return experiment type.
- num_qubits¶
Return the number of qubits for the experiment.
- physical_qubits¶
Return the device qubits for the experiment.
Methods
- circuits()¶
Create the circuits for the Rabi experiment.
- Returns:
A list of circuits with a rabi gate with an attached schedule. Each schedule will have a different value of the scanned amplitude.
- Return type:
List[QuantumCircuit]
- config()¶
Return the config dataclass for this experiment
- Return type:
- copy()¶
Return a copy of the experiment
- Return type:
- enable_restless(rep_delay=None, override_processor_by_restless=True, suppress_t1_error=False)¶
Enables a restless experiment by setting the restless run options and the restless data processor.
Deprecated since version 0.8: The method
qiskit_experiments.framework.restless_mixin.RestlessMixin.enable_restless()
is deprecated as of qiskit-experiments 0.8. It will be removed no earlier than 3 months after the release date. Support for restless experiments has been deprecated.- Parameters:
rep_delay (float | None) – The repetition delay. This is the delay between a measurement and the subsequent quantum circuit. Since the backends have dynamic repetition rates, the repetition delay can be set to a small value which is required for restless experiments. Typical values are 1 us or less.
override_processor_by_restless (bool) – If False, a data processor that is specified in the analysis options of the experiment is not overridden by the restless data processor. The default is True.
suppress_t1_error (bool) – If True, the default is False, then no error will be raised when
rep_delay
is larger than the T1 times of the qubits. Instead, a warning will be logged as restless measurements may have a large amount of noise.
- Raises:
DataProcessorError – If the attribute rep_delay_range is not defined for the backend.
DataProcessorError – If a data processor has already been set but override_processor_by_restless is True.
DataProcessorError – If the experiment analysis does not have the data_processor option.
DataProcessorError – If the rep_delay is equal to or greater than the T1 time of one of the physical qubits in the experiment and the flag
ignore_t1_check
is False.
- classmethod from_config(config)¶
Initialize an experiment from experiment config
- Return type:
- job_info(backend=None)¶
Get information about job distribution for the experiment on a specific backend.
- Parameters:
backend (Backend) – Optional, the backend for which to get job distribution information. If not specified, the experiment must already have a set backend.
- Returns:
A dictionary containing information about job distribution.
”Total number of circuits in the experiment”: Total number of circuits in the experiment.
”Maximum number of circuits per job”: Maximum number of circuits in one job based on backend and experiment settings.
”Total number of jobs”: Number of jobs needed to run this experiment on the currently set backend.
- Return type:
dict
- Raises:
QiskitError – if backend is not specified.
- run(backend=None, sampler=None, analysis='default', timeout=None, backend_run=None, **run_options)¶
Run an experiment and perform analysis.
- Parameters:
backend (Backend | None) – Optional, the backend to run on. Will override existing backend settings.
sampler (BaseSamplerV2 | None) – Optional, the sampler to run the experiment on. If None then a sampler will be invoked from previously set backend
analysis (BaseAnalysis | None) – Optional, a custom analysis instance to use for performing analysis. If None analysis will not be run. If
"default"
the experimentsanalysis()
instance will be used if it contains one.timeout (float | None) – Time to wait for experiment jobs to finish running before cancelling.
backend_run (bool | None) – Use backend run (temp option for testing)
run_options – backend runtime options used for circuit execution.
- Returns:
The experiment data object.
- Raises:
QiskitError – If experiment is run with an incompatible existing ExperimentData container.
- Return type:
- set_experiment_options(**fields)¶
Set the experiment options.
- Parameters:
fields – The fields to update the options
- Raises:
AttributeError – If the field passed in is not a supported options
- set_run_options(**fields)¶
Set options values for the experiment
run()
method.- Parameters:
fields – The fields to update the options
See also
The Setting options for your experiment guide for code example.
- set_transpile_options(**fields)¶
Set the transpiler options for
run()
method.- Parameters:
fields – The fields to update the options
- Raises:
QiskitError – If initial_layout is one of the fields.
See also
The Setting options for your experiment guide for code example.