# -*- coding: utf-8 -*-
# This code is part of Qiskit.
#
# (C) Copyright IBM 2017, 2018.
#
# 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
# that they have been altered from the originals.
"""Pass manager for optimization level 2, providing medium optimization.
Level 2 pass manager: medium optimization by noise adaptive qubit mapping and
gate cancellation using commutativity rules.
"""
from qiskit.transpiler.passmanager_config import PassManagerConfig
from qiskit.transpiler.passmanager import PassManager
from qiskit.transpiler.passes import Unroller
from qiskit.transpiler.passes import Unroll3qOrMore
from qiskit.transpiler.passes import CheckMap
from qiskit.transpiler.passes import CXDirection
from qiskit.transpiler.passes import SetLayout
from qiskit.transpiler.passes import CSPLayout
from qiskit.transpiler.passes import TrivialLayout
from qiskit.transpiler.passes import DenseLayout
from qiskit.transpiler.passes import NoiseAdaptiveLayout
from qiskit.transpiler.passes import BarrierBeforeFinalMeasurements
from qiskit.transpiler.passes import BasicSwap
from qiskit.transpiler.passes import LookaheadSwap
from qiskit.transpiler.passes import StochasticSwap
from qiskit.transpiler.passes import FullAncillaAllocation
from qiskit.transpiler.passes import EnlargeWithAncilla
from qiskit.transpiler.passes import FixedPoint
from qiskit.transpiler.passes import Depth
from qiskit.transpiler.passes import RemoveResetInZeroState
from qiskit.transpiler.passes import Optimize1qGates
from qiskit.transpiler.passes import CommutativeCancellation
from qiskit.transpiler.passes import ApplyLayout
from qiskit.transpiler.passes import CheckCXDirection
from qiskit.transpiler import TranspilerError
[docs]def level_2_pass_manager(pass_manager_config: PassManagerConfig) -> PassManager:
"""Level 2 pass manager: medium optimization by initial layout selection and
gate cancellation using commutativity rules.
This pass manager applies the user-given initial layout. If none is given, a search
for a perfect layout (i.e. one that satisfies all 2-qubit interactions) is conducted.
If no such layout is found, qubits are laid out on the most densely connected subset
which also exhibits the best gate fidelitites.
The pass manager then transforms the circuit to match the coupling constraints.
It is then unrolled to the basis, and any flipped cx directions are fixed.
Finally, optimizations in the form of commutative gate cancellation and redundant
reset removal are performed.
Note:
In simulators where ``coupling_map=None``, only the unrolling and
optimization stages are done.
Args:
pass_manager_config: configuration of the pass manager.
Returns:
a level 2 pass manager.
Raises:
TranspilerError: if the passmanager config is invalid.
"""
basis_gates = pass_manager_config.basis_gates
coupling_map = pass_manager_config.coupling_map
initial_layout = pass_manager_config.initial_layout
layout_method = pass_manager_config.layout_method or 'dense'
routing_method = pass_manager_config.routing_method or 'stochastic'
seed_transpiler = pass_manager_config.seed_transpiler
backend_properties = pass_manager_config.backend_properties
# 1. Search for a perfect layout, or choose a dense layout, if no layout given
_given_layout = SetLayout(initial_layout)
def _choose_layout_condition(property_set):
return not property_set['layout']
_choose_layout_1 = CSPLayout(coupling_map, call_limit=1000, time_limit=10)
if layout_method == 'trivial':
_choose_layout_2 = TrivialLayout(coupling_map)
elif layout_method == 'dense':
_choose_layout_2 = DenseLayout(coupling_map, backend_properties)
elif layout_method == 'noise_adaptive':
_choose_layout_2 = NoiseAdaptiveLayout(backend_properties)
else:
raise TranspilerError("Invalid layout method %s." % layout_method)
# 2. Extend dag/layout with ancillas using the full coupling map
_embed = [FullAncillaAllocation(coupling_map), EnlargeWithAncilla(), ApplyLayout()]
# 3. Unroll to 1q or 2q gates
_unroll3q = Unroll3qOrMore()
# 4. Swap to fit the coupling map
_swap_check = CheckMap(coupling_map)
def _swap_condition(property_set):
return not property_set['is_swap_mapped']
_swap = [BarrierBeforeFinalMeasurements()]
if routing_method == 'basic':
_swap += [BasicSwap(coupling_map)]
elif routing_method == 'stochastic':
_swap += [StochasticSwap(coupling_map, trials=20, seed=seed_transpiler)]
elif routing_method == 'lookahead':
_swap += [LookaheadSwap(coupling_map, search_depth=5, search_width=5)]
else:
raise TranspilerError("Invalid routing method %s." % routing_method)
# 5. Unroll to the basis
_unroll = Unroller(basis_gates)
# 6. Fix any bad CX directions
_direction_check = [CheckCXDirection(coupling_map)]
def _direction_condition(property_set):
return not property_set['is_direction_mapped']
_direction = [CXDirection(coupling_map)]
# 7. Remove zero-state reset
_reset = RemoveResetInZeroState()
# 8. 1q rotation merge and commutative cancellation iteratively until no more change in depth
_depth_check = [Depth(), FixedPoint('depth')]
def _opt_control(property_set):
return not property_set['depth_fixed_point']
_opt = [Optimize1qGates(basis_gates), CommutativeCancellation()]
# Build pass manager
pm2 = PassManager()
if coupling_map:
pm2.append(_given_layout)
pm2.append(_choose_layout_1, condition=_choose_layout_condition)
pm2.append(_choose_layout_2, condition=_choose_layout_condition)
pm2.append(_embed)
pm2.append(_unroll3q)
pm2.append(_swap_check)
pm2.append(_swap, condition=_swap_condition)
pm2.append(_unroll)
if coupling_map and not coupling_map.is_symmetric:
pm2.append(_direction_check)
pm2.append(_direction, condition=_direction_condition)
pm2.append(_reset)
pm2.append(_depth_check + _opt, do_while=_opt_control)
return pm2