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merge_single_qubit_gates.py
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merge_single_qubit_gates.py
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# Copyright 2018 The Cirq Developers
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""An optimization pass that combines adjacent single-qubit rotations."""
from typing import Optional, Callable, List, TYPE_CHECKING
import numpy as np
from cirq import ops, linalg, protocols, circuits
from cirq.optimizers import decompositions
if TYPE_CHECKING:
import cirq
class MergeSingleQubitGates(circuits.PointOptimizer):
"""Optimizes runs of adjacent unitary 1-qubit operations."""
def __init__(
self,
*,
rewriter: Optional[Callable[[List[ops.Operation]], Optional[ops.OP_TREE]]] = None,
synthesizer: Optional[Callable[[ops.Qid, np.ndarray], Optional[ops.OP_TREE]]] = None,
):
"""
Args:
rewriter: Specifies how to merge runs of single-qubit operations
into a more desirable form. Takes a list of operations and
produces a list of operations. The default rewriter computes the
matrix of the run and returns a `cirq.SingleQubitMatrixGate`. If
`rewriter` returns `None`, that means "do not rewrite the
operations".
synthesizer: A special kind of rewriter that operates purely on
the unitary matrix of the intended operation. Takes a qubit
and a unitary matrix and returns a list of operations. Can't
be specified at the same time as `rewriter`. If `synthesizer`
returns `None`, that means "do not rewrite the operations used
to make this matrix".
"""
super().__init__()
if rewriter is not None and synthesizer is not None:
raise ValueError("Can't specify both rewriter and synthesizer.")
self._rewriter = rewriter
self._synthesizer = synthesizer
def _rewrite(self, operations: List[ops.Operation]) -> Optional[ops.OP_TREE]:
if not operations:
return None
q = operations[0].qubits[0]
# Custom rewriter?
if self._rewriter is not None:
return self._rewriter(operations)
unitary = linalg.dot(*(protocols.unitary(op) for op in operations[::-1]))
# Custom synthesizer?
if self._synthesizer is not None:
return self._synthesizer(q, unitary)
# Just use the default.
return ops.MatrixGate(unitary).on(q)
def optimization_at(
self, circuit: circuits.Circuit, index: int, op: ops.Operation
) -> Optional[circuits.PointOptimizationSummary]:
if len(op.qubits) != 1:
return None
start = {op.qubits[0]: index}
op_list = circuit.findall_operations_until_blocked(
start,
is_blocker=lambda next_op: len(next_op.qubits) != 1
or not protocols.has_unitary(next_op),
)
operations = [op for idx, op in op_list]
indices = [idx for idx, op in op_list]
rewritten = self._rewrite(operations)
if rewritten is None:
return None
return circuits.PointOptimizationSummary(
clear_span=max(indices) + 1 - index, clear_qubits=op.qubits, new_operations=rewritten
)
def merge_single_qubit_gates_into_phased_x_z(circuit: circuits.Circuit, atol: float = 1e-8) -> None:
"""Canonicalizes runs of single-qubit rotations in a circuit.
Specifically, any run of non-parameterized single-qubit gates will be
replaced by an optional PhasedX operation followed by an optional Z
operation.
Args:
circuit: The circuit to rewrite. This value is mutated in-place.
atol: Absolute tolerance to angle error. Larger values allow more
negligible gates to be dropped, smaller values increase accuracy.
"""
def synth(qubit: 'cirq.Qid', matrix: np.ndarray) -> List[ops.Operation]:
out_gates = decompositions.single_qubit_matrix_to_phased_x_z(matrix, atol)
return [gate(qubit) for gate in out_gates]
MergeSingleQubitGates(synthesizer=synth).optimize_circuit(circuit)
def merge_single_qubit_gates_into_phxz(
circuit: circuits.Circuit,
atol: float = 1e-8,
) -> None:
"""Canonicalizes runs of single-qubit rotations in a circuit.
Specifically, any run of non-parameterized single-qubit gates will be
replaced by an optional PhasedXZ operation.
Args:
circuit: The circuit to rewrite. This value is mutated in-place.
atol: Absolute tolerance to angle error. Larger values allow more
negligible gates to be dropped, smaller values increase accuracy.
"""
def synth(qubit: 'cirq.Qid', matrix: np.ndarray) -> List[ops.Operation]:
gate = decompositions.single_qubit_matrix_to_phxz(matrix, atol)
return [gate(qubit)] if gate else []
MergeSingleQubitGates(synthesizer=synth).optimize_circuit(circuit)