Código fonte de qiskit.transpiler.passes.optimization.collect_cliffords

# This code is part of Qiskit.
# (C) Copyright IBM 2022.
# 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
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"""Replace each sequence of Clifford gates by a single Clifford gate."""

from functools import partial

from qiskit.transpiler.passes.optimization.collect_and_collapse import (

from qiskit.quantum_info.operators import Clifford

[documentos]class CollectCliffords(CollectAndCollapse): """Collects blocks of Clifford gates and replaces them by a :class:`~qiskit.quantum_info.Clifford` object. """ def __init__( self, do_commutative_analysis=False, split_blocks=True, min_block_size=2, split_layers=False, collect_from_back=False, ): """CollectCliffords initializer. Args: do_commutative_analysis (bool): if True, exploits commutativity relations between nodes. split_blocks (bool): if True, splits collected blocks into sub-blocks over disjoint qubit subsets. min_block_size (int): specifies the minimum number of gates in the block for the block to be collected. split_layers (bool): if True, splits collected blocks into sub-blocks over disjoint qubit subsets. collect_from_back (bool): specifies if blocks should be collected started from the end of the circuit. """ collect_function = partial( collect_using_filter_function, filter_function=_is_clifford_gate, split_blocks=split_blocks, min_block_size=min_block_size, split_layers=split_layers, collect_from_back=collect_from_back, ) collapse_function = partial(collapse_to_operation, collapse_function=_collapse_to_clifford) super().__init__( collect_function=collect_function, collapse_function=collapse_function, do_commutative_analysis=do_commutative_analysis, )
clifford_gate_names = [ "x", "y", "z", "h", "s", "sdg", "cx", "cy", "cz", "swap", "clifford", "linear_function", "pauli", ] def _is_clifford_gate(node): """Specifies whether a node holds a clifford gate.""" return node.op.name in clifford_gate_names and getattr(node.op, "condition", None) is None def _collapse_to_clifford(circuit): """Specifies how to construct a ``Clifford`` from a quantum circuit (that must consist of Clifford gates only).""" return Clifford(circuit)