def test_acceptance_with_qiskit(): """Test gate operations with QASM interface""" circuit = Circuit() circuit += ops.RotateX(0, -np.pi) circuit += ops.RotateY(0, -np.pi) circuit += ops.RotateZ(0, -np.pi) circuit += ops.CNOT(0, 1) circuit += ops.Hadamard(0) circuit += ops.PauliX(0) circuit += ops.PauliY(0) circuit += ops.PauliZ(0) circuit += ops.SGate(0) circuit += ops.TGate(0) circuit += ops.SqrtPauliX(0) circuit += ops.MolmerSorensenXX(0, 1) circuit += ops.ControlledPauliY(0, 1) circuit += ops.ControlledPauliZ(0, 1) circuit += ops.SingleQubitGate(0, 1, 0, 1, 0, 1.0) circuit += ops.PragmaRepeatedMeasurement('ro', 1, None) circuit += ops.MeasureQubit(0, 'ro', 0) circuit += ops.DefinitionFloat(name='rof', length=1, is_output=True) circuit += ops.DefinitionBit(name='ro', length=2, is_output=True) circuit += ops.DefinitionComplex(name='roc', length=1, is_output=True) circuit += ops.InputSymbolic('other', 0) circuit += ops.PragmaSetNumberOfMeasurements(20, 'ro') backend = QasmBackend(number_qubits=2) backend.run_circuit(circuit=circuit, overwrite=True) q_circuit = QuantumCircuit.from_qasm_file( "default_qasm_backend_output.qasm")
ops.PMInteraction(1, 0, 0.01), ops.ComplexPMInteraction(1, 0, 0.01, 0.02), ops.SWAP(1, 0), ops.SqrtISwap(1, 0), ops.XY(1, 0, 0.01), ops.SpinInteraction(1, 0, 0.01, 0.02, .003), ops.SingleQubitGate(0, 0.1, 0.0, 0.0, 0.0, 0.0), ops.Hadamard(0), ops.PauliX(0), ops.PauliY(0), ops.PauliZ(0), ops.TGate(0), ops.SGate(0), ops.SqrtPauliX(0), ops.InvSqrtPauliX(0), ops.RotateX(0, 0.01), ops.RotateY(0, 0.01), ops.RotateZ(0, 0.01), ops.RotateAroundSphericalAxis(0, 0.01, 0.02, 0.03), ops.PragmaSetNumberOfMeasurements(20, 'ro'), ops.PragmaSetStateVector(np.array([0, 1], dtype=complex)), ops.PragmaSetDensityMatrix(np.array([[0, 0], [0, 1]], dtype=complex)), ops.PragmaDamping(0, 0.005, 0.02), ops.PragmaDephasing(0, 0.005, 0.02), ops.PragmaDepolarising(0, 0.005, 0.02), ops.PragmaRandomNoise(0, 0.005, 0.02, 0.01), ops.PragmaGeneralNoise( 0, 0.005, np.array([[1, 0, 0], [0, 1, 0], [0, 0, 1]], dtype=float)), ops.PragmaConditional('ro', 0, Circuit()), ops.PragmaRepeatGate(3), ops.PragmaBoostNoise(0.004),
# # Unless required by applicable law or agreed to in writing, software distributed under the License # is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express # or implied. See the License for the specific language governing permissions and limitations under # the License. import pytest import sys import numpy as np import numpy.testing as npt from typing import Tuple, Any from qoqo import operations as ops from qoqo_qasm import qasm_call_operation @pytest.mark.parametrize("gate", [ (ops.RotateX(0, -np.pi), 'rx(-3.141592653589793) q[0]'), (ops.RotateY(0, -np.pi), 'ry(-3.141592653589793) q[0]'), (ops.RotateZ(0, -np.pi), 'rz(-3.141592653589793) q[0]'), (ops.CNOT(0, 1), 'cx q[0],q[1]'), (ops.Hadamard(0), 'h q[0]'), (ops.PauliX(0), 'x q[0]'), (ops.PauliY(0), 'y q[0]'), (ops.PauliZ(0), 'z q[0]'), (ops.SGate(0), 's q[0]'), (ops.TGate(0), 't q[0]'), (ops.SqrtPauliX(0), 'rx(1.5707963267948966) q[0]'), (ops.MolmerSorensenXX(0, 1), 'rxx(pi/2) q[0],q[1]'), (ops.ControlledPauliY(0, 1), 'cy q[0],q[1]'), (ops.ControlledPauliZ(0, 1), 'cz q[0],q[1]'), (ops.SingleQubitGate(0, 1, 0, 1, 0, 1.0), 'u3(0.0,0.0,-0.0) q[0]'), (ops.PragmaRepeatedMeasurement('ro', 1, None), 'measure q -> ro;\n'),