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TranslateParameterizedGates

qiskit.transpiler.passes.TranslateParameterizedGates(*args, **kwargs) GitHub(opens in a new tab)

Bases: TransformationPass

Translate parameterized gates to a supported basis set.

Once a parameterized instruction is found that is not in the supported_gates list, the instruction is decomposed one level and the parameterized sub-blocks are recursively decomposed. The recursion is stopped once all parameterized gates are in supported_gates, or if a gate has no definition and a translation to the basis is attempted (this might happen e.g. for the UGate if it’s not in the specified gate list).

Example

The following, multiply nested circuit:

from qiskit.circuit import QuantumCircuit, ParameterVector
from qiskit.transpiler.passes import TranslateParameterizedGates
 
x = ParameterVector("x", 4)
block1 = QuantumCircuit(1)
block1.rx(x[0], 0)
 
sub_block = QuantumCircuit(2)
sub_block.cx(0, 1)
sub_block.rz(x[2], 0)
 
block2 = QuantumCircuit(2)
block2.ry(x[1], 0)
block2.append(sub_block.to_gate(), [0, 1])
 
block3 = QuantumCircuit(3)
block3.ccx(0, 1, 2)
 
circuit = QuantumCircuit(3)
circuit.append(block1.to_gate(), [1])
circuit.append(block2.to_gate(), [0, 1])
circuit.append(block3.to_gate(), [0, 1, 2])
circuit.cry(x[3], 0, 2)
 
supported_gates = ["rx", "ry", "rz", "cp", "crx", "cry", "crz"]
unrolled = TranslateParameterizedGates(supported_gates)(circuit)

is decomposed to:

     ┌──────────┐     ┌──────────┐┌─────────────┐
q_0:Ry(x[1]) ├──■──┤ Rz(x[2]) ├┤0            ├─────■──────
     ├──────────┤┌─┴─┐└──────────┘│             │     │
q_1:Rx(x[0]) ├┤ X ├────────────┤1 circuit-92 ├─────┼──────
     └──────────┘└───┘            │             │┌────┴─────┐
q_2: ─────────────────────────────┤2            ├┤ Ry(x[3])
                                  └─────────────┘└──────────┘

Parameters

  • supported_gates – A list of suppported basis gates specified as string. If None, a target must be provided.
  • equivalence_library – The equivalence library to translate the gates. Defaults to the equivalence library of all Qiskit standard gates.
  • target – A Target containing the supported operations. If None, supported_gates must be set. Note that this argument takes precedence over supported_gates, if both are set.

Raises

ValueError(opens in a new tab) – If neither of supported_gates and target are passed.


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

Returns

Optimized Qiskit IR and state of the workflow.

Return type

tuple(opens in a new tab)[Any(opens in a new tab), qiskit.passmanager.compilation_status.PassManagerState]

name

name()

Name of the pass.

Return type

str(opens in a new tab)

run

run(dag)

Run the transpiler pass.

Parameters

dag (DAGCircuit) – The DAG circuit in which the parameterized gates should be unrolled.

Returns

A DAG where the parameterized gates have been unrolled.

Raises

QiskitError – If the circuit cannot be unrolled.

Return type

DAGCircuit

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

PassManagerState

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