Exemplo n.º 1
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    def test_assemble_multiple_circuits(self):
        """Test assembling multiple circuits, all should have the same config.
        """
        q0 = QuantumRegister(2, name='q0')
        c0 = ClassicalRegister(2, name='c0')
        circ0 = QuantumCircuit(q0, c0, name='circ0')
        circ0.h(q0[0])
        circ0.cx(q0[0], q0[1])
        circ0.measure(q0, c0)

        q1 = QuantumRegister(3, name='q1')
        c1 = ClassicalRegister(3, name='c1')
        circ1 = QuantumCircuit(q1, c1, name='circ0')
        circ1.h(q1[0])
        circ1.cx(q1[0], q1[1])
        circ1.cx(q1[0], q1[2])
        circ1.measure(q1, c1)

        run_config = RunConfig(shots=100, memory=False, seed=6)
        qobj = assemble_circuits([circ0, circ1], run_config=run_config)
        self.assertIsInstance(qobj, Qobj)
        self.assertEqual(qobj.config.seed, 6)
        self.assertEqual(len(qobj.experiments), 2)
        self.assertEqual(qobj.experiments[1].config.n_qubits, 3)
        self.assertEqual(len(qobj.experiments), 2)
        self.assertEqual(len(qobj.experiments[1].instructions), 6)
Exemplo n.º 2
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    def test_pass_manager_none(self):
        """Test passing the default (None) pass manager to the transpiler.

        It should perform the default qiskit flow:
        unroll, swap_mapper, cx_direction, cx_cancellation, optimize_1q_gates
        and should be equivalent to using tools.compile
        """
        qr = QuantumRegister(2, 'qr')
        circuit = QuantumCircuit(qr)
        circuit.h(qr[0])
        circuit.h(qr[0])
        circuit.cx(qr[0], qr[1])
        circuit.cx(qr[1], qr[0])
        circuit.cx(qr[0], qr[1])
        circuit.cx(qr[1], qr[0])

        coupling_map = [[1, 0]]
        basis_gates = ['u1', 'u2', 'u3', 'cx', 'id']

        backend = BasicAer.get_backend('qasm_simulator')
        circuit2 = transpile(circuit,
                             backend,
                             coupling_map=coupling_map,
                             basis_gates=basis_gates,
                             pass_manager=None)

        qobj = compile(circuit,
                       backend=backend,
                       coupling_map=coupling_map,
                       basis_gates=basis_gates)
        run_config = RunConfig(shots=1024, max_credits=10)
        qobj2 = assemble_circuits(circuit2,
                                  qobj_id=qobj.qobj_id,
                                  run_config=run_config)
        self.assertEqual(qobj, qobj2)
 def test_initialize_2(self):
     """Test StatevectorSimulator initialize"""
     circuits = ref_initialize.initialize_circuits_2(final_measure=False)
     targets = ref_initialize.initialize_statevector_2()
     qobj = assemble_circuits(circuits, run_config=RunConfig(shots=1))
     sim_job = StatevectorSimulator().run(qobj)
     result = sim_job.result()
     self.is_completed(result)
     self.compare_statevector(result, circuits, targets)
Exemplo n.º 4
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    def test_job_qobj(self):
        """Test job.qobj()."""
        for backend in qiskit.providers.aer.Aer.backends():
            with self.subTest(backend=backend):
                qc1_new = transpile(self.qc1, TranspileConfig(backend=backend))
                qobj = assemble_circuits(qc1_new, RunConfig(shots=1000))

                job = backend.run(qobj)
                self.assertEqual(job.qobj(), qobj)
    def setUp(self):
        super(TestBasicAerQasmSimulator, self).setUp()

        self.seed = 88
        qasm_filename = self._get_resource_path('example.qasm', Path.QASMS)
        transpiled_circuit = QuantumCircuit.from_qasm_file(qasm_filename)
        transpiled_circuit.name = 'test'
        transpiled_circuit = transpile(transpiled_circuit,
                                       TranspileConfig(backend=self.backend))
        self.qobj = assemble_circuits(transpiled_circuit,
                                      RunConfig(shots=1000))
Exemplo n.º 6
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def execute_circuits(circuits,
                     backend,
                     qobj_header=None,
                     transpile_config=None,
                     run_config=None,
                     **kwargs):
    """Executes a list of circuits.

    Args:
        circuits (QuantumCircuit or list[QuantumCircuit]): circuits to execute
        backend (BaseBackend): a backend to execute the circuits on
        qobj_header (QobjHeader): User input to go in the header
        transpile_config (TranspileConfig): Configurations for the transpiler
        run_config (RunConfig): Run Configuration
        kwargs: extra arguments used by AER for running configurable backends.
                Refer to the backend documentation for details on these arguments

    Returns:
        BaseJob: returns job instance derived from BaseJob
    """

    # TODO: a hack, remove when backend is not needed in transpile
    # ------
    transpile_config = transpile_config or TranspileConfig()
    transpile_config.backend = backend
    # ------

    # filling in the header with the backend name the qobj was run on
    qobj_header = qobj_header or QobjHeader()
    qobj_header.backend_name = backend.name()

    # default values
    if not run_config:
        # TODO remove max_credits from the default when it is not
        # required by by the backend.
        run_config = RunConfig(shots=1024, max_credits=10, memory=False)

    # transpiling the circuits using the transpiler_config
    new_circuits = transpile(circuits, transpile_config=transpile_config)

    # assembling the circuits into a qobj to be run on the backend
    qobj = assemble_circuits(new_circuits,
                             qobj_header=qobj_header,
                             run_config=run_config)

    # executing the circuits on the backend and returning the job
    return backend.run(qobj, **kwargs)
Exemplo n.º 7
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def compile(circuits, backend,
            config=None, basis_gates=None, coupling_map=None, initial_layout=None,
            shots=1024, max_credits=10, seed=None, qobj_id=None, seed_mapper=None,
            pass_manager=None, memory=False):
    """Compile a list of circuits into a qobj.

    Args:
        circuits (QuantumCircuit or list[QuantumCircuit]): circuits to compile
        backend (BaseBackend): a backend to compile for
        config (dict): dictionary of parameters (e.g. noise) used by runner
        basis_gates (list[str]): list of basis gates names supported by the
            target. Default: ['u1','u2','u3','cx','id']
        coupling_map (list): coupling map (perhaps custom) to target in mapping
        initial_layout (list): initial layout of qubits in mapping
        shots (int): number of repetitions of each circuit, for sampling
        max_credits (int): maximum credits to use
        seed (int): random seed for simulators
        seed_mapper (int): random seed for swapper mapper
        qobj_id (int): identifier for the generated qobj
        pass_manager (PassManager): a pass manger for the transpiler pipeline
        memory (bool): if True, per-shot measurement bitstrings are returned as well

    Returns:
        Qobj: the qobj to be run on the backends

    Raises:
        QiskitError: if the desired options are not supported by backend
    """
    warnings.warn('qiskit.compile() is deprecated and will be removed in Qiskit Terra 0.9. '
                  'Please use qiskit.transpile() to transform circuits '
                  'and qiskit.assemble_circuits() to produce qobj.',
                  DeprecationWarning)

    run_config = RunConfig()

    if config:
        warnings.warn('config is not used anymore. Set all configs in '
                      'run_config.', DeprecationWarning)
    if shots:
        run_config.shots = shots
    if max_credits:
        run_config.max_credits = max_credits
    if seed:
        run_config.seed = seed
    if memory:
        run_config.memory = memory

    new_circuits = transpiler.transpile(circuits, backend, basis_gates, coupling_map,
                                        initial_layout, seed_mapper, pass_manager)

    qobj = assemble_circuits(new_circuits, qobj_header=None, run_config=run_config,
                             qobj_id=qobj_id)

    return qobj
Exemplo n.º 8
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    def test_assemble_single_circuit(self):
        """Test assembling a single circuit.
        """
        q = QuantumRegister(2, name='q')
        c = ClassicalRegister(2, name='c')
        circ = QuantumCircuit(q, c, name='circ')
        circ.h(q[0])
        circ.cx(q[0], q[1])
        circ.measure(q, c)

        run_config = RunConfig(shots=2000, memory=True)
        qobj = assemble_circuits(circ, run_config=run_config)
        self.assertIsInstance(qobj, Qobj)
        self.assertEqual(qobj.config.shots, 2000)
        self.assertEqual(qobj.config.memory, True)
        self.assertEqual(len(qobj.experiments), 1)
        self.assertEqual(qobj.experiments[0].instructions[1].name, 'cx')
Exemplo n.º 9
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    def test_qobj_headers_in_result(self):
        """Test that the qobj headers are passed onto the results."""
        custom_qobj_header = {'x': 1, 'y': [1, 2, 3], 'z': {'a': 4}}
        for backend in qiskit.providers.aer.Aer.backends():
            with self.subTest(backend=backend):
                qc1_new = transpile(self.qc1, TranspileConfig(backend=backend))
                qobj = assemble_circuits(qc1_new, RunConfig(shots=1000))

                # Update the Qobj header.
                qobj.header = QobjHeader.from_dict(custom_qobj_header)
                # Update the Qobj.experiment header.
                qobj.experiments[0].header.some_field = 'extra info'

                result = backend.run(qobj).result()
                self.assertEqual(result.header.to_dict(), custom_qobj_header)
                self.assertEqual(result.results[0].header.some_field,
                                 'extra info')
Exemplo n.º 10
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 def test_change_qobj_after_compile(self):
     """Test modifying Qobj parameters after compile."""
     qr = QuantumRegister(3)
     cr = ClassicalRegister(3)
     qc1 = QuantumCircuit(qr, cr)
     qc2 = QuantumCircuit(qr, cr)
     qc1.h(qr[0])
     qc1.cx(qr[0], qr[1])
     qc1.cx(qr[0], qr[2])
     qc2.h(qr)
     qc1.measure(qr, cr)
     qc2.measure(qr, cr)
     circuits = [qc1, qc2]
     backend = BasicAer.get_backend('qasm_simulator')
     qobj1 = assemble_circuits(circuits, RunConfig(backend=backend, shots=1024, seed=88))
     qobj1.experiments[0].config.shots = 50
     qobj1.experiments[1].config.shots = 1
     self.assertTrue(qobj1.experiments[0].config.shots == 50)
     self.assertTrue(qobj1.experiments[1].config.shots == 1)
     self.assertTrue(qobj1.config.shots == 1024)
Exemplo n.º 11
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    # Transpile the circuits to make them compatible with the experimental backend
    [qc1_new, qc2_new
     ] = transpile(circuits=[qc1, qc2],
                   transpile_config=TranspileConfig(backend=least_busy_device))
    print("Bell circuit before transpile:")
    print(qc1)
    print("Bell circuit after transpile:")
    print(qc1_new)
    print("Superposition circuit before transpile:")
    print(qc2)
    print("Superposition circuit after transpile:")
    print(qc2_new)

    # Assemble the two circuits into a runnable qobj
    qobj = assemble_circuits([qc1_new, qc2_new],
                             run_config=RunConfig(shots=1000))

    # Running qobj on the simulator
    sim_job = qasm_simulator.run(qobj)

    # Getting the result
    sim_result = sim_job.result()

    # Show the results
    print(sim_result.get_counts(qc1))
    print(sim_result.get_counts(qc2))

    # Running the job.
    exp_job = least_busy_device.run(qobj)

    job_monitor(exp_job)
Exemplo n.º 12
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def execute(circuits,
            backend,
            qobj_header=None,
            config=None,
            basis_gates=None,
            coupling_map=None,
            initial_layout=None,
            shots=1024,
            max_credits=10,
            seed=None,
            qobj_id=None,
            seed_mapper=None,
            pass_manager=None,
            memory=False,
            **kwargs):
    """Executes a set of circuits.

    Args:
        circuits (QuantumCircuit or list[QuantumCircuit]): circuits to execute
        backend (BaseBackend): a backend to execute the circuits on
        qobj_header (QobjHeader): user input to go into the header
        config (dict): dictionary of parameters (e.g. noise) used by runner
        basis_gates (list[str]): list of basis gate names supported by the
            target. Default: ['u1','u2','u3','cx','id']
        coupling_map (list): coupling map (perhaps custom) to target in mapping
        initial_layout (list): initial layout of qubits in mapping
        shots (int): number of repetitions of each circuit, for sampling
        max_credits (int): maximum credits to use
        seed (int): random seed for simulators
        seed_mapper (int): random seed for swapper mapper
        qobj_id (int): identifier for the generated qobj
        pass_manager (PassManager): a pass manger for the transpiler pipeline
        memory (bool): if True, per-shot measurement bitstrings are returned as well.
        kwargs: extra arguments used by AER for running configurable backends.
                Refer to the backend documentation for details on these arguments

    Returns:
        BaseJob: returns job instance derived from BaseJob
    """

    transpile_config = TranspileConfig()
    run_config = RunConfig()

    if config:
        warnings.warn('config is deprecated in terra 0.8', DeprecationWarning)
    if qobj_id:
        warnings.warn('qobj_id is deprecated in terra 0.8', DeprecationWarning)
    if basis_gates:
        transpile_config.basis_gate = basis_gates
    if coupling_map:
        transpile_config.coupling_map = coupling_map
    if initial_layout:
        transpile_config.initial_layout = initial_layout
    if seed_mapper:
        transpile_config.seed_mapper = seed_mapper
    if shots:
        run_config.shots = shots
    if max_credits:
        run_config.max_credits = max_credits
    if seed:
        run_config.seed = seed
    if memory:
        run_config.memory = memory
    if pass_manager:
        warnings.warn(
            'pass_manager in the execute function is deprecated in terra 0.8.',
            DeprecationWarning)

    job = execute_circuits(circuits,
                           backend,
                           qobj_header=qobj_header,
                           run_config=run_config,
                           transpile_config=transpile_config,
                           **kwargs)

    return job