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qiskit.providers.models.PulseBackendConfiguration

class PulseBackendConfiguration(backend_name, backend_version, n_qubits, basis_gates, gates, local, simulator, conditional, open_pulse, memory, max_shots, coupling_map, n_uchannels, u_channel_lo, meas_levels, qubit_lo_range, meas_lo_range, dt, dtm, rep_times, meas_kernels, discriminators, hamiltonian=None, channel_bandwidth=None, acquisition_latency=None, conditional_latency=None, meas_map=None, max_experiments=None, sample_name=None, n_registers=None, register_map=None, configurable=None, credits_required=None, online_date=None, display_name=None, description=None, tags=None, channels=None, **kwargs)[ソース]

Static configuration state for an OpenPulse enabled backend. This contains information about the set up of the device which can be useful for building Pulse programs.

Initialize a backend configuration that contains all the extra configuration that is made available for OpenPulse backends.

パラメータ
  • backend_name (str) – backend name.

  • backend_version (str) – backend version in the form X.Y.Z.

  • n_qubits (int) – number of qubits.

  • basis_gates (List[str]) – list of basis gates names on the backend.

  • gates (GateConfig) – list of basis gates on the backend.

  • local (bool) – backend is local or remote.

  • simulator (bool) – backend is a simulator.

  • conditional (bool) – backend supports conditional operations.

  • open_pulse (bool) – backend supports open pulse.

  • memory (bool) – backend supports memory.

  • max_shots (int) – maximum number of shots supported.

  • coupling_map (list) – The coupling map for the device

  • n_uchannels (int) – Number of u-channels.

  • u_channel_lo (List[List[UchannelLO]]) – U-channel relationship on device los.

  • meas_levels (List[int]) – Supported measurement levels.

  • qubit_lo_range (List[List[float]]) – Qubit lo ranges for each qubit with form (min, max) in GHz.

  • meas_lo_range (List[List[float]]) – Measurement lo ranges for each qubit with form (min, max) in GHz.

  • dt (float) – Qubit drive channel timestep in nanoseconds.

  • dtm (float) – Measurement drive channel timestep in nanoseconds.

  • rep_times (List[float]) – Supported repetition times (program execution time) for backend in μs.

  • meas_kernels (List[str]) – Supported measurement kernels.

  • discriminators (List[str]) – Supported discriminators.

  • hamiltonian (Optional[Dict[str, Any]]) – An optional dictionary with fields characterizing the system hamiltonian.

  • channel_bandwidth (list) – Bandwidth of all channels (qubit, measurement, and U)

  • acquisition_latency (list) – Array of dimension n_qubits x n_registers. Latency (in units of dt) to write a measurement result from qubit n into register slot m.

  • conditional_latency (list) – Array of dimension n_channels [d->u->m] x n_registers. Latency (in units of dt) to do a conditional operation on channel n from register slot m

  • meas_map (list) – Grouping of measurement which are multiplexed

  • max_experiments (int) – The maximum number of experiments per job

  • sample_name (str) – Sample name for the backend

  • n_registers (int) – Number of register slots available for feedback (if conditional is True)

  • register_map (list) – An array of dimension n_qubits X n_registers that specifies whether a qubit can store a measurement in a certain register slot.

  • configurable (bool) – True if the backend is configurable, if the backend is a simulator

  • credits_required (bool) – True if backend requires credits to run a job.

  • online_date (datetime) – The date that the device went online

  • display_name (str) – Alternate name field for the backend

  • description (str) – A description for the backend

  • tags (list) – A list of string tags to describe the backend

  • channels (Optional[Dict[str, Any]]) – An optional dictionary containing information of each channel – their purpose, type, and qubits operated on.

  • **kwargs – Optional fields.

__init__(backend_name, backend_version, n_qubits, basis_gates, gates, local, simulator, conditional, open_pulse, memory, max_shots, coupling_map, n_uchannels, u_channel_lo, meas_levels, qubit_lo_range, meas_lo_range, dt, dtm, rep_times, meas_kernels, discriminators, hamiltonian=None, channel_bandwidth=None, acquisition_latency=None, conditional_latency=None, meas_map=None, max_experiments=None, sample_name=None, n_registers=None, register_map=None, configurable=None, credits_required=None, online_date=None, display_name=None, description=None, tags=None, channels=None, **kwargs)[ソース]

Initialize a backend configuration that contains all the extra configuration that is made available for OpenPulse backends.

パラメータ
  • backend_name (str) – backend name.

  • backend_version (str) – backend version in the form X.Y.Z.

  • n_qubits (int) – number of qubits.

  • basis_gates (List[str]) – list of basis gates names on the backend.

  • gates (GateConfig) – list of basis gates on the backend.

  • local (bool) – backend is local or remote.

  • simulator (bool) – backend is a simulator.

  • conditional (bool) – backend supports conditional operations.

  • open_pulse (bool) – backend supports open pulse.

  • memory (bool) – backend supports memory.

  • max_shots (int) – maximum number of shots supported.

  • coupling_map (list) – The coupling map for the device

  • n_uchannels (int) – Number of u-channels.

  • u_channel_lo (List[List[UchannelLO]]) – U-channel relationship on device los.

  • meas_levels (List[int]) – Supported measurement levels.

  • qubit_lo_range (List[List[float]]) – Qubit lo ranges for each qubit with form (min, max) in GHz.

  • meas_lo_range (List[List[float]]) – Measurement lo ranges for each qubit with form (min, max) in GHz.

  • dt (float) – Qubit drive channel timestep in nanoseconds.

  • dtm (float) – Measurement drive channel timestep in nanoseconds.

  • rep_times (List[float]) – Supported repetition times (program execution time) for backend in μs.

  • meas_kernels (List[str]) – Supported measurement kernels.

  • discriminators (List[str]) – Supported discriminators.

  • hamiltonian (Optional[Dict[str, Any]]) – An optional dictionary with fields characterizing the system hamiltonian.

  • channel_bandwidth (list) – Bandwidth of all channels (qubit, measurement, and U)

  • acquisition_latency (list) – Array of dimension n_qubits x n_registers. Latency (in units of dt) to write a measurement result from qubit n into register slot m.

  • conditional_latency (list) – Array of dimension n_channels [d->u->m] x n_registers. Latency (in units of dt) to do a conditional operation on channel n from register slot m

  • meas_map (list) – Grouping of measurement which are multiplexed

  • max_experiments (int) – The maximum number of experiments per job

  • sample_name (str) – Sample name for the backend

  • n_registers (int) – Number of register slots available for feedback (if conditional is True)

  • register_map (list) – An array of dimension n_qubits X n_registers that specifies whether a qubit can store a measurement in a certain register slot.

  • configurable (bool) – True if the backend is configurable, if the backend is a simulator

  • credits_required (bool) – True if backend requires credits to run a job.

  • online_date (datetime) – The date that the device went online

  • display_name (str) – Alternate name field for the backend

  • description (str) – A description for the backend

  • tags (list) – A list of string tags to describe the backend

  • channels (Optional[Dict[str, Any]]) – An optional dictionary containing information of each channel – their purpose, type, and qubits operated on.

  • **kwargs – Optional fields.

Methods

__init__(backend_name, backend_version, …)

Initialize a backend configuration that contains all the extra configuration that is made available for OpenPulse backends.

acquire(qubit)

Return the acquisition channel for the given qubit.

control([qubits, channel])

Return the secondary drive channel for the given qubit – typically utilized for controlling multiqubit interactions.

describe(channel)

Return a basic description of the channel dependency. Derived channels are given weights which describe how their frames are linked to other frames. For instance, the backend could be configured with this setting::.

drive(qubit)

Return the drive channel for the given qubit.

from_dict(data)

Create a new GateConfig object from a dictionary.

get_channel_qubits(channel)

Return a list of indices for qubits which are operated on directly by the given channel.

get_qubit_channels(qubit)

Return a list of channels which operate on the given qubit.

measure(qubit)

Return the measure stimulus channel for the given qubit.

to_dict()

Return a dictionary format representation of the GateConfig.

Attributes

num_qubits

Returns the number of qubits.

sample_rate

Sample rate of the signal channels in Hz (1/dt).

acquire(qubit)[ソース]

Return the acquisition channel for the given qubit.

例外

BackendConfigurationError – If the qubit is not a part of the system.

戻り値の型

AcquireChannel

戻り値

Qubit measurement acquisition line.

control(qubits=None, channel=None)[ソース]

Return the secondary drive channel for the given qubit – typically utilized for controlling multiqubit interactions. This channel is derived from other channels.

パラメータ
  • qubits (Optional[Iterable[int]]) – Tuple or list of qubits of the form (control_qubit, target_qubit).

  • channel (Optional[int]) – Deprecated.

例外

BackendConfigurationError – If the qubits is not a part of the system or if the backend does not provide channels information in its configuration.

戻り値の型

List[ControlChannel]

戻り値

List of control channels.

describe(channel)[ソース]

Return a basic description of the channel dependency. Derived channels are given weights which describe how their frames are linked to other frames. For instance, the backend could be configured with this setting:

u_channel_lo = [
    [UchannelLO(q=0, scale=1. + 0.j)],
    [UchannelLO(q=0, scale=-1. + 0.j), UchannelLO(q=1, scale=1. + 0.j)]
]

Then, this method can be used as follows:

backend.configuration().describe(ControlChannel(1))
>>> {DriveChannel(0): -1, DriveChannel(1): 1}
パラメータ

channel (ControlChannel) – The derived channel to describe.

例外

BackendConfigurationError – If channel is not a ControlChannel.

戻り値の型

Dict[DriveChannel, complex]

戻り値

Control channel derivations.

drive(qubit)[ソース]

Return the drive channel for the given qubit.

例外

BackendConfigurationError – If the qubit is not a part of the system.

戻り値の型

DriveChannel

戻り値

Qubit drive channel.

classmethod from_dict(data)[ソース]

Create a new GateConfig object from a dictionary.

パラメータ

data (dict) – A dictionary representing the GateConfig to create. It will be in the same format as output by to_dict().

戻り値

The GateConfig from the input dictionary.

戻り値の型

GateConfig

get_channel_qubits(channel)[ソース]

Return a list of indices for qubits which are operated on directly by the given channel.

例外

BackendConfigurationError – If channel is not a found or if the backend does not provide channels information in its configuration.

戻り値の型

List[int]

戻り値

List of qubits operated on my the given channel.

get_qubit_channels(qubit)[ソース]

Return a list of channels which operate on the given qubit.

例外

BackendConfigurationError – If qubit is not a found or if the backend does not provide channels information in its configuration.

戻り値の型

List[Channel]

戻り値

List of Channels operated on my the given qubit.

measure(qubit)[ソース]

Return the measure stimulus channel for the given qubit.

例外

BackendConfigurationError – If the qubit is not a part of the system.

戻り値の型

MeasureChannel

戻り値

Qubit measurement stimulus line.

property num_qubits

Returns the number of qubits.

In future, n_qubits should be replaced in favor of num_qubits for consistent use throughout Qiskit. Until this is properly refactored, this property serves as intermediate solution.

property sample_rate

Sample rate of the signal channels in Hz (1/dt).

戻り値の型

float

to_dict()[ソース]

Return a dictionary format representation of the GateConfig.

戻り値

The dictionary form of the GateConfig.

戻り値の型

dict