qiskit_nature.second_q.algorithms.initial_points.vscf_initial_point のソースコード
# This code is part of a Qiskit project.
#
# (C) Copyright IBM 2022, 2023.
#
# This code is licensed under the Apache License, Version 2.0. You may
# obtain a copy of this license in the LICENSE.txt file in the root directory
# of this source tree or at http://www.apache.org/licenses/LICENSE-2.0.
#
# Any modifications or derivative works of this code must retain this
# copyright notice, and modified files need to carry a notice indicating
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"""The VSCFInitialPoint class to compute an initial point for the VQE Ansatz parameters."""
from __future__ import annotations
import numpy as np
from qiskit_nature.exceptions import QiskitNatureError
from qiskit_nature.second_q.circuit.library import UVCC
from qiskit_nature.second_q.problems import BaseProblem
from .initial_point import InitialPoint
[ドキュメント]class VSCFInitialPoint(InitialPoint):
r"""Compute the vibrational self-consistent field (VSCF) initial point.
A class that provides an all-zero initial point for the ``VQE`` parameter values.
If used in concert with the
:class:`~qiskit_nature.second_q.circuit.library.initial_states.vscf.VSCF`
initial state (which will be prepended to the
:class:`~qiskit_nature.second_q.circuit.library.ansatzes.uvcc.UVCC` circuit) the all-zero
initial point will correspond to the VSCF initial point.
"""
def __init__(self) -> None:
super().__init__()
self._ansatz: UVCC | None = None
self._parameters: np.ndarray | None = None
@property
def ansatz(self) -> UVCC | None:
"""The UVCC ansatz.
The ``excitation_list`` and ``reps`` used by the
:class:`~qiskit_nature.second_q.circuit.library.ansatzes.uvcc.UVCC` ansatz is obtained to
ensure that the shape of the initial point is appropriate.
"""
return self._ansatz
@ansatz.setter
def ansatz(self, ansatz: UVCC) -> None:
self._invalidate()
self._ansatz = ansatz
@property
def problem(self) -> BaseProblem | None:
"""The problem.
The problem is not required to compute the VSCF initial point.
"""
return self._problem
@problem.setter
def problem(self, problem: BaseProblem) -> None:
self._problem = problem
[ドキュメント] def to_numpy_array(self) -> np.ndarray:
"""The initial point as an array."""
if self._parameters is None:
self.compute()
return self._parameters
[ドキュメント] def compute(
self,
ansatz: UVCC | None = None,
problem: BaseProblem | None = None,
) -> None:
"""Compute the initial point parameter for each excitation.
See class documentation for more information.
Args:
problem: The :attr:`problem`.
ansatz: The :attr:`ansatz`.
Raises:
QiskitNatureError: If :attr:`ansatz` is not set.
"""
if ansatz is not None:
# The ansatz setter also sets the private excitation_list.
self.ansatz = ansatz
if self._ansatz is None:
raise QiskitNatureError(
"The ansatz property has not been set. "
"Not enough information has been provided to compute the initial point. "
"Set the ansatz or call compute with it as an argument. "
)
self._compute()
def _compute(self) -> None:
"""Computes the VSCF initial point array for a given excitation list.
In the VSCF case this is simply an all-zero array.
Returns:
An all-zero array with the same length as the excitation list.
"""
# Ansatz operators must be built to compute the excitation list.
_ = self._ansatz.operators
self._parameters = np.zeros(
self._ansatz.reps * len(self._ansatz.excitation_list), dtype=float
)
def _invalidate(self):
"""Invalidate any previous computation."""
self._parameters = None