- class BaseStateFidelity#
An interface to calculate state fidelities (state overlaps) for pairs of (parametrized) quantum circuits. The calculation depends on the particular fidelity method implementation, but can be always defined as the state overlap:\[|\langle\psi(x)|\phi(y)\rangle|^2\]
where \(x\) and \(y\) are optional parametrizations of the states \(\psi\) and \(\phi\) prepared by the circuits
- abstract create_fidelity_circuit(circuit_1, circuit_2)#
Implementation-dependent method to create a fidelity circuit from 2 circuit inputs.
- run(circuits_1, circuits_2, values_1=None, values_2=None, **options)#
Runs asynchronously the state overlap (fidelity) calculation between two (parametrized) circuits (first and second) for a specific set of parameter values (first and second). This calculation depends on the particular fidelity method implementation.
circuits_1 (QuantumCircuit | Sequence[QuantumCircuit]) – (Parametrized) quantum circuits preparing \(|\psi\rangle\).
circuits_2 (QuantumCircuit | Sequence[QuantumCircuit]) – (Parametrized) quantum circuits preparing \(|\phi\rangle\).
options – Primitive backend runtime options used for circuit execution. The order of priority is: options in
runmethod > fidelity’s default options > primitive’s default setting. Higher priority setting overrides lower priority setting.
Primitive job for the fidelity calculation. The job’s result is an instance of
- Return type: