BaseSamplerGradient¶
- class BaseSamplerGradient(sampler, options=None, pass_manager=None)[source]¶
Bases:
ABC
Base class for a
SamplerGradient
to compute the gradients of the sampling probability.- Parameters:
sampler (BaseSampler) – The sampler used to compute the gradients.
options (Options | None) – Primitive backend runtime options used for circuit execution. The order of priority is: options in
run
method > gradient’s default options > primitive’s default setting. Higher priority setting overrides lower priority settingpass_manager (BasePassManager | None) – The pass manager to transpile the circuits if necessary.
None (Defaults to)
circuits. (as some primitives do not need transpiled)
Attributes
- options¶
Return the union of sampler options setting and gradient default options, where, if the same field is set in both, the gradient’s default options override the primitive’s default setting.
- Returns:
The gradient default + sampler options.
Methods
- run(circuits, parameter_values, parameters=None, **options)[source]¶
Run the job of the sampler gradient on the given circuits.
- Parameters:
circuits (Sequence[QuantumCircuit]) – The list of quantum circuits to compute the gradients.
parameter_values (Sequence[Sequence[float]]) – The list of parameter values to be bound to the circuit.
parameters (Sequence[Sequence[Parameter] | None] | None) – The sequence of parameters to calculate only the gradients of the specified parameters. Each sequence of parameters corresponds to a circuit in
circuits
. Defaults to None, which means that the gradients of all parameters in each circuit are calculated. None in the sequence means that the gradients of all parameters in the corresponding circuit are calculated.options – Primitive backend runtime options used for circuit execution. The order of priority is: options in
run
method > gradient’s default options > primitive’s default setting. Higher priority setting overrides lower priority setting
- Returns:
The job object of the gradients of the sampling probability. The i-th result corresponds to
circuits[i]
evaluated with parameters bound asparameter_values[i]
. The j-th quasi-probability distribution in the i-th result corresponds to the gradients of the sampling probability for the j-th parameter incircuits[i]
.- Raises:
ValueError – Invalid arguments are given.
- Return type:
AlgorithmJob