def test_1(self, vector): q = QuantumRegister(4) c = ClassicalRegister(4) qc = QuantumCircuit(q, c) qc.x(q[1]) qc.x(q[2]) qc.x(q[3]) qc.ccx_uni_rot(7, [q[1], q[2], q[3]], q[0]) qc.measure(q, c) backend = qiskit.BasicAer.get_backend('qasm_simulator') job_sim = execute(qc, backend, shots=10000) sim_result = job_sim.result() # type: Result counts = sim_result.get_counts(qc) # type: dict log.info(counts) self.assertIsNotNone(counts.keys()) self.assertListEqual(list(counts.keys()), ['1111'])
def test_2(self): q = QuantumRegister(4) c = ClassicalRegister(4) qc = QuantumCircuit(q, c) qc.h(q[0]) qc.h(q[2]) # State now ['0000', '0001', '0100', '0101'] qc.ccx_uni_rot(5, [q[0], q[1], q[2]], q[3]) # State now ['0000', '0001', '0100', '1101'] qc.measure(q, c) backend = qiskit.BasicAer.get_backend('qasm_simulator') job_sim = execute(qc, backend, shots=10000) sim_result = job_sim.result() # type: Result counts = sim_result.get_counts(qc) # type: dict log.info(counts) self.assertIsNotNone(counts.keys()) self.assertListEqual(list(sorted(counts.keys())), ['0000', '0001', '0100', '1101'])