VF2Layout
class qiskit.transpiler.passes.VF2Layout(*args, **kwargs)
Bases: AnalysisPass
A pass for choosing a Layout of a circuit onto a Coupling graph, as a subgraph isomorphism problem, solved by VF2++.
If a solution is found that means there is a “perfect layout” and that no further swap mapping or routing is needed. If a solution is found the layout will be set in the property set as property_set['layout']
. However, if no solution is found, no property_set['layout']
is set. The stopping reason is set in property_set['VF2Layout_stop_reason']
in all the cases and will be one of the values enumerated in VF2LayoutStopReason
which has the following values:
"solution found"
: If a perfect layout was found."nonexistent solution"
: If no perfect layout was found.">2q gates in basis"
: If VF2Layout can’t work with basis
By default, this pass will construct a heuristic scoring map based on the error rates in the provided target
(or properties
if target
is not provided). However, analysis passes can be run prior to this pass and set vf2_avg_error_map
in the property set with a ErrorMap
instance. If a value is NaN
that is treated as an ideal edge For example if an error map is created as:
from qiskit.transpiler.passes.layout.vf2_utils import ErrorMap
error_map = ErrorMap(3)
error_map.add_error((0, 0), 0.0024)
error_map.add_error((0, 1), 0.01)
error_map.add_error((1, 1), 0.0032)
that represents the error map for a 2 qubit target, where the avg 1q error rate is 0.0024
on qubit 0 and 0.0032
on qubit 1. Then the avg 2q error rate for gates that operate on (0, 1) is 0.01 and (1, 0) is not supported by the target. This will be used for scoring if it’s set as the vf2_avg_error_map
key in the property set when VF2Layout
is run.
Initialize a VF2Layout
pass instance
Parameters
- coupling_map (CouplingMap) – Directed graph representing a coupling map.
- strict_direction (bool) – If True, considers the direction of the coupling map. Default is False.
- seed (int) – Sets the seed of the PRNG. -1 Means no node shuffling.
- call_limit (int) – The number of state visits to attempt in each execution of VF2.
- time_limit (float) – The total time limit in seconds to run
VF2Layout
- properties (BackendProperties) – The backend properties for the backend. If
readout_error()
is available it is used to score the layout. - max_trials (int) – The maximum number of trials to run VF2 to find a layout. If this is not specified the number of trials will be limited based on the number of edges in the interaction graph or the coupling graph (whichever is larger) if no other limits are set. If set to a value <= 0 no limit on the number of trials will be set.
- target (Target) – A target representing the backend device to run
VF2Layout
on. If specified it will supersede a set value forproperties
andcoupling_map
if theTarget
contains connectivity constraints. If the value oftarget
models an ideal backend without any constraints then the value ofcoupling_map
will be used.
Raises
TypeError – At runtime, if neither coupling_map
or target
are provided.
Attributes
is_analysis_pass
Check if the pass is an analysis pass.
If the pass is an AnalysisPass, that means that the pass can analyze the DAG and write the results of that analysis in the property set. Modifications on the DAG are not allowed by this kind of pass.
is_transformation_pass
Check if the pass is a transformation pass.
If the pass is a TransformationPass, that means that the pass can manipulate the DAG, but cannot modify the property set (but it can be read).
Methods
execute
execute(passmanager_ir, state, callback=None)
Execute optimization task for input Qiskit IR.
Parameters
- passmanager_ir (Any) – Qiskit IR to optimize.
- state (PassManagerState) – State associated with workflow execution by the pass manager itself.
- callback (Callable | None) – A callback function which is caller per execution of optimization task.
Returns
Optimized Qiskit IR and state of the workflow.
Return type
tuple[Any, qiskit.passmanager.compilation_status.PassManagerState]
name
run
update_status
update_status(state, run_state)
Update workflow status.
Parameters
- state (PassManagerState) – Pass manager state to update.
- run_state (RunState) – Completion status of current task.
Returns
Updated pass manager state.
Return type