def test_run_local_backend_unitary(self): backend = get_backend('local_unitary_simulator') compiled_circuit = compile_circuit(self.qc) quantum_job = QuantumJob(compiled_circuit, do_compile=False, backend=backend) jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator_compile(self, QE_TOKEN, QE_URL): self._init_api(QE_TOKEN, QE_URL) quantum_job = QuantumJob(self.qc, do_compile=True, backend='ibmqx_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_local_backend_qasm(self): backend = QasmSimulator() dag_circuit = compile_circuit(self.qc) quantum_job = QuantumJob(dag_circuit, do_compile=False, backend=backend) jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator_compile(self, QE_TOKEN, QE_URL): provider = IBMQProvider(QE_TOKEN, QE_URL) backend = provider.get_backend('ibmqx_qasm_simulator') quantum_job = QuantumJob(self.qc, do_compile=True, backend=backend) jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator(self, QE_TOKEN, QE_URL): self._init_api(QE_TOKEN, QE_URL) compiled_circuit = openquantumcompiler.compile(self.qc.qasm()) quantum_job = QuantumJob(compiled_circuit, do_compile=False, backend='ibmqx_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator(self, QE_TOKEN, QE_URL): provider = IBMQProvider(QE_TOKEN, QE_URL) backend = provider.get_backend('ibmqx_qasm_simulator') compiled_circuit = compile_circuit(self.qc) quantum_job = QuantumJob(compiled_circuit, do_compile=False, backend=backend) jobprocessor.run_backend(quantum_job)
def test_run_local_backend_compile(self): # TODO: make this run on `local_qasm_simulator` after `do_compile` # is fixed in _quantumjob. backend = get_backend('local_qasm_simulator_py') quantum_job = QuantumJob(self.qasm_circ, do_compile=True, backend=backend) jobprocessor.run_backend(quantum_job)
def test_run_local_backend_qasm(self): # TODO: make this run on `local_qasm_simulator` after `do_compile` # is fixed in _quantumjob. backend = get_backend('local_qasm_simulator_py') dag_circuit = compile_circuit(self.qc) quantum_job = QuantumJob(dag_circuit, do_compile=False, backend=backend) jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator(self, QE_TOKEN, QE_URL): provider = IBMQProvider(QE_TOKEN, QE_URL) backend = provider.available_backends({'simulator': True})[0] compiled_circuit = compile_circuit(self.qc) quantum_job = QuantumJob(compiled_circuit, do_compile=False, backend=backend) jobprocessor.run_backend(quantum_job)
def test_two_unitary_simulator(self): """test running two circuits This test is similar to one in test_quantumprogram but doesn't use multiprocessing. """ qr = QuantumRegister(2, 'q') cr = ClassicalRegister(1, 'c') qc1 = QuantumCircuit(qr, cr) qc2 = QuantumCircuit(qr, cr) qc1.h(qr) qc2.cx(qr[0], qr[1]) circuits = [qc1, qc2] backend = UnitarySimulator() quantum_job = QuantumJob(circuits, do_compile=True, backend=backend) result = jobprocessor.run_backend(quantum_job) unitary1 = result[0]['data']['unitary'] unitary2 = result[1]['data']['unitary'] unitaryreal1 = np.array([[0.5, 0.5, 0.5, 0.5], [0.5, -0.5, 0.5, -0.5], [0.5, 0.5, -0.5, -0.5], [0.5, -0.5, -0.5, 0.5]]) unitaryreal2 = np.array([[1, 0, 0, 0], [0, 0, 0, 1], [0., 0, 1, 0], [0, 1, 0, 0]]) norm1 = np.trace(np.dot(np.transpose(np.conj(unitaryreal1)), unitary1)) norm2 = np.trace(np.dot(np.transpose(np.conj(unitaryreal2)), unitary2)) self.assertAlmostEqual(norm1, 4) self.assertAlmostEqual(norm2, 4)
def test_run_local_backend_qasm(self): dag_circuit = openquantumcompiler.compile(self.qc) quantum_job = QuantumJob(dag_circuit, do_compile=False, backend='local_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_local_backend_compile(self): quantum_job = QuantumJob(self.qasm_text, do_compile=True, backend='local_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator_compile(self): quantum_job = QuantumJob(self.qc, do_compile=True, backend='ibmqx_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator_compile(self, QE_TOKEN, QE_URL): provider = IBMQProvider(QE_TOKEN, QE_URL) backend = provider.available_backends({'simulator': True})[0] quantum_job = QuantumJob(self.qc, do_compile=True, backend=backend) jobprocessor.run_backend(quantum_job)
def test_run_local_backend_unitary(self): compiled_circuit = openquantumcompiler.compile(self.qc.qasm()) quantum_job = QuantumJob(compiled_circuit, do_compile=False, backend='local_unitary_simulator') jobprocessor.run_backend(quantum_job)
def test_run_local_backend_unitary(self): compiled_circuit = openquantumcompiler.compile(self.qc.qasm()) quantum_job = QuantumJob(compiled_circuit, do_compile=False, backend='local_unitary_simulator') jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator(self): compiled_circuit = openquantumcompiler.compile(self.qc.qasm()) quantum_job = QuantumJob(compiled_circuit, do_compile=False, backend='ibmqx_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_local_backend_compile(self): quantum_job = QuantumJob(self.qasm_text, do_compile=True, backend='local_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_remote_simulator_compile(self): quantum_job = QuantumJob(self.qc, do_compile=True, backend='ibmqx_qasm_simulator') jobprocessor.run_backend(quantum_job)
def test_run_local_backend_compile(self): backend = QasmSimulator() quantum_job = QuantumJob(self.qasm_circ, do_compile=True, backend=backend) jobprocessor.run_backend(quantum_job)