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Sequential Quantum Gate Decomposer
v1.9.3
Powerful decomposition of general unitarias into one- and two-qubit gates gates
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Go to the source code of this file.
Namespaces | |
| example_CH_general_unitary | |
Functions | |
| def | example_CH_general_unitary.create_custom_gate_structure (qbit_num) |
Variables | |
| example_CH_general_unitary.decomp = N_Qubit_Decomposition( Umtx.conj().T ) | |
| example_CH_general_unitary.decomposed_matrix = utils.get_unitary_from_qiskit_circuit( quantum_circuit ) | |
| tuple | example_CH_general_unitary.decomposition_error = (np.real(np.trace(product_matrix)))/2 |
| example_CH_general_unitary.filename | |
| example_CH_general_unitary.fold | |
| dictionary | example_CH_general_unitary.gate_structure = { 4: create_custom_gate_structure(4), 2: create_custom_gate_structure(2)} |
| example_CH_general_unitary.interactive | |
| example_CH_general_unitary.matrix_size = int(2**qbit_num) | |
| example_CH_general_unitary.output | |
| example_CH_general_unitary.phase = np.angle(product_matrix[0,0]) | |
| example_CH_general_unitary.product_matrix = np.dot(Umtx,decomposed_matrix.conj().T) | |
| int | example_CH_general_unitary.qbit_num = 2 |
| example_CH_general_unitary.quantum_circuit = decomp.get_Qiskit_Circuit() | |
| example_CH_general_unitary.True | |
| example_CH_general_unitary.Umtx = unitary_group.rvs(matrix_size) | |
1.8.13