class CircuitGradient[código fonte]

Converter for changing parameterized circuits into operators whose evaluation yields the gradient with respect to the circuit parameters.

This is distinct from DerivativeBase converters which take gradients of composite operators and handle things like differentiating combo_fn’s and enforcing product rules when operator coefficients are parameterized.

CircuitGradient - uses quantum techniques to get derivatives of circuits DerivativeBase - uses classical techniques to differentiate operator flow data structures

__init__()

Initialize self. See help(type(self)) for accurate signature.

Methods

 Initialize self. convert(operator[, params]) type operator OperatorBase
abstract convert(operator, params=None)[código fonte]
Parâmetros
• operator (OperatorBase) – The operator we are taking the gradient of

• params (Union[ParameterExpression, ParameterVector, List[ParameterExpression], Tuple[ParameterExpression, ParameterExpression], List[Tuple[ParameterExpression, ParameterExpression]], None]) – The parameters we are taking the gradient wrt: ω If a ParameterExpression, ParameterVector or List[ParameterExpression] is given, then the 1st order derivative of the operator is calculated. If a Tuple[ParameterExpression, ParameterExpression] or List[Tuple[ParameterExpression, ParameterExpression]] is given, then the 2nd order derivative of the operator is calculated.

Tipo de retorno

OperatorBase

Retorna

An operator whose evaluation yields the Gradient.

Levanta

ValueError – If params contains a parameter not present in operator.