qiskit.ignis.verification.gateset_tomography_circuits¶

gateset_tomography_circuits
(measured_qubits=None, gateset_basis='default')[소스]¶ Return a list of quantum gate set tomography (GST) circuits.
The circuits are fully constructed from the data given in gateset_basis. Note that currently this is only implemented for the singlequbits.
 매개변수
measured_qubits (
Optional
[List
[int
]]) – The qubits to perform GST. If None GST will be performed on qubit0.gateset_basis (
Union
[str
,GateSetBasis
]) – The gateset and SPAM data.
 반환 형식
List
[QuantumCircuit
] 반환값
A list of QuantumCircuit objects containing the original circuit with state preparation circuits prepended, and measurement circuits appended.
 예외
QiskitError – If called for more than 1 measured qubit.
 Additional Information:
Gate set tomography is performed on a gate set (G0, G1,…,Gm) with the additional information of SPAM circuits (F0,F1,…,Fn) that are constructed from the gates in the gate set.
In gate set tomography, we assume a single initial state rho and a single POVM measurement operator E. The SPAM circuits now provide us with a complete set of initial state F_jrho> and measurements <EF_i.
We perform three types of experiments:
 \(\langle E  F_i G_k F_j \rho \rangle\) for 1 <= i,j <= n
and 1 <= k <= m: This experiment enables us to obtain data on the gate G_k
 \(\langle E  F_i F_j \rho \rangle\) for 1 <= i,j <= n:
This experiment enables us to obtain the Gram matrix required to “invert” the results of experiments of type 1 in order to reconstruct (a matrix similar to) the gate G_k
 \(\langle E  F_j \rho \rangle\) for 1 <= j <= n:
This experiment enables us to reconstruct <E and rho
The result of this method is the set of all the circuits needed for these experiments, suitably labeled with a tuple of the corresponding gate/SPAM labels