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qiskit.aqua.operators.gradients.HessianBase

class HessianBase(hess_method='param_shift', **kwargs)

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Base class for the Hessian of an expected value.

Parameters

  • hess_method (Union[str, CircuitGradient]) – The method used to compute the state/probability gradient. Can be either 'param_shift' or 'lin_comb' or 'fin_diff'. Ignored for gradients w.r.t observable parameters.
  • kwargs (dict) – Optional parameters for a CircuitGradient

Raises

ValueError – If method != fin_diff and epsilon is not None.

__init__

__init__(hess_method='param_shift', **kwargs)

Parameters

  • hess_method (Union[str, CircuitGradient]) – The method used to compute the state/probability gradient. Can be either 'param_shift' or 'lin_comb' or 'fin_diff'. Ignored for gradients w.r.t observable parameters.
  • kwargs (dict) – Optional parameters for a CircuitGradient

Raises

ValueError – If method != fin_diff and epsilon is not None.

Methods

__init__([hess_method])type hess_methodUnion[str, CircuitGradient]
convert(operator[, params])type operatorOperatorBase
gradient_wrapper(operator, bind_params[, …])Get a callable function which provides the respective gradient, Hessian or QFI for given parameter values.
parameter_expression_grad(param_expr, param)Get the derivative of a parameter expression w.r.t.

Attributes

hess_methodReturns CircuitGradient.

convert

abstract convert(operator, params=None)

Parameters

  • operator (OperatorBase) – The operator we are taking the gradient, Hessian or QFI of
  • params (Union[ParameterVector, ParameterExpression, List[ParameterExpression], None]) – The parameters we are taking the gradient, Hessian or QFI with respect to.

Return type

OperatorBase

Returns

An operator whose evaluation yields the gradient, Hessian or QFI.

Raises

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

gradient_wrapper

gradient_wrapper(operator, bind_params, grad_params=None, backend=None)

Get a callable function which provides the respective gradient, Hessian or QFI for given parameter values. This callable can be used as gradient function for optimizers.

Parameters

  • operator (OperatorBase) – The operator for which we want to get the gradient, Hessian or QFI.
  • bind_params (Union[ParameterExpression, ParameterVector, List[ParameterExpression]]) – The operator parameters to which the parameter values are assigned.
  • grad_params (Union[ParameterExpression, ParameterVector, List[ParameterExpression], Tuple[ParameterExpression, ParameterExpression], List[Tuple[ParameterExpression, ParameterExpression]], None]) – The parameters with respect to which we are taking the gradient, Hessian or QFI. If grad_params = None, then grad_params = bind_params
  • backend (Union[BaseBackend, QuantumInstance, None]) – The quantum backend or QuantumInstance to use to evaluate the gradient, Hessian or QFI.

Returns

Function to compute a gradient, Hessian or QFI. The function takes an iterable as argument which holds the parameter values.

Return type

callable(param_values)

hess_method

Returns CircuitGradient.

Return type

CircuitGradient

Returns

CircuitGradient.

parameter_expression_grad

static parameter_expression_grad(param_expr, param)

Get the derivative of a parameter expression w.r.t. the given parameter.

Parameters

  • param_expr (ParameterExpression) – The Parameter Expression for which we compute the derivative
  • param (ParameterExpression) – Parameter w.r.t. which we want to take the derivative

Return type

Union[ParameterExpression, float]

Returns

ParameterExpression representing the gradient of param_expr w.r.t. param

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