Exemplo n.º 1
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def test_get_device_specification():
    processor = cg.EngineProcessor('a',
                                   'p',
                                   EngineContext(),
                                   _processor=quantum.QuantumProcessor())
    assert processor.get_device_specification() is None

    # Construct expected device proto based on example
    expected = v2.device_pb2.DeviceSpecification()
    gs = expected.valid_gate_sets.add()
    gs.name = 'test_set'
    gates = gs.valid_gates.add()
    gates.id = 'x'
    gates.number_of_qubits = 1
    gates.gate_duration_picos = 1000
    gates.valid_targets.extend(['1q_targets'])
    expected.valid_qubits.extend(['0_0', '1_1'])
    target = expected.valid_targets.add()
    target.name = '1q_targets'
    target.target_ordering = v2.device_pb2.TargetSet.SYMMETRIC
    new_target = target.targets.add()
    new_target.ids.extend(['0_0'])

    processor = cg.EngineProcessor(
        'a',
        'p',
        EngineContext(),
        _processor=quantum.QuantumProcessor(device_spec=_DEVICE_SPEC))
    assert processor.get_device_specification() == expected
Exemplo n.º 2
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def test_get_batch_size(get_program):
    # Has to fetch from engine if not _program specified.
    program = cg.EngineProgram('a',
                               'b',
                               EngineContext(),
                               result_type=ResultType.Batch)
    get_program.return_value = qtypes.QuantumProgram(code=_BATCH_PROGRAM_V2)
    assert program.batch_size() == 1

    # If _program specified, uses that value.
    program = cg.EngineProgram(
        'a',
        'b',
        EngineContext(),
        _program=qtypes.QuantumProgram(code=_BATCH_PROGRAM_V2),
        result_type=ResultType.Batch,
    )
    assert program.batch_size() == 1

    with pytest.raises(ValueError, match='ResultType.Program'):
        program = cg.EngineProgram('a',
                                   'b',
                                   EngineContext(),
                                   result_type=ResultType.Program)
        _ = program.batch_size()

    with pytest.raises(ValueError, match='cirq.google.api.v2.Program'):
        get_program.return_value = qtypes.QuantumProgram(code=_PROGRAM_V2)
        program = cg.EngineProgram('a',
                                   'b',
                                   EngineContext(),
                                   result_type=ResultType.Batch)
        _ = program.batch_size()
Exemplo n.º 3
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def test_description(get_program):
    program = cg.EngineProgram(
        'a', 'b', EngineContext(), _program=quantum.QuantumProgram(description='hello')
    )
    assert program.description() == 'hello'

    get_program.return_value = quantum.QuantumProgram(description='hello')
    assert cg.EngineProgram('a', 'b', EngineContext()).description() == 'hello'
    get_program.assert_called_once_with('a', 'b', False)
Exemplo n.º 4
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def test_supported_languages():
    processor = cg.EngineProcessor('a', 'p', EngineContext(), _processor=quantum.QuantumProcessor())
    assert processor.supported_languages() == []
    processor = cg.EngineProcessor(
        'a',
        'p',
        EngineContext(),
        _processor=quantum.QuantumProcessor(supported_languages=['lang1', 'lang2']),
    )
    assert processor.supported_languages() == ['lang1', 'lang2']
Exemplo n.º 5
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def test_description(get_job):
    job = cg.EngineJob('a',
                       'b',
                       'steve',
                       EngineContext(),
                       _job=quantum.QuantumJob(description='hello'))
    assert job.description() == 'hello'
    get_job.return_value = quantum.QuantumJob(description='hello')
    assert cg.EngineJob('a', 'b', 'steve',
                        EngineContext()).description() == 'hello'
    get_job.assert_called_once_with('a', 'b', 'steve', False)
Exemplo n.º 6
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def test_expected_recovery_time():
    processor = cg.EngineProcessor('a', 'p', EngineContext(), _processor=quantum.QuantumProcessor())
    assert not processor.expected_recovery_time()
    processor = cg.EngineProcessor(
        'a',
        'p',
        EngineContext(),
        _processor=quantum.QuantumProcessor(expected_recovery_time=Timestamp(seconds=1581515101)),
    )
    assert processor.expected_recovery_time() == datetime.datetime(
        2020, 2, 12, 13, 45, 1, tzinfo=datetime.timezone.utc
    )
Exemplo n.º 7
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def test_expected_down_time(get_processor):
    processor = cg.EngineProcessor('a', 'p', EngineContext(), _processor=quantum.QuantumProcessor())
    assert not processor.expected_down_time()

    get_processor.return_value = quantum.QuantumProcessor(
        expected_down_time=Timestamp(seconds=1581515101)
    )

    assert cg.EngineProcessor('a', 'p', EngineContext()).expected_down_time() == datetime.datetime(
        2020, 2, 12, 13, 45, 1, tzinfo=datetime.timezone.utc
    )
    get_processor.assert_called_once()
Exemplo n.º 8
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def test_add_labels(add_program_labels):
    program = cg.EngineProgram('a',
                               'b',
                               EngineContext(),
                               _program=qtypes.QuantumProgram(labels={}))
    assert program.labels() == {}

    add_program_labels.return_value = qtypes.QuantumProgram(labels={
        'a': '1',
    })
    assert program.add_labels({'a': '1'}).labels() == {'a': '1'}
    add_program_labels.assert_called_with('a', 'b', {'a': '1'})

    add_program_labels.return_value = qtypes.QuantumProgram(labels={
        'a': '2',
        'b': '1'
    })
    assert program.add_labels({
        'a': '2',
        'b': '1'
    }).labels() == {
        'a': '2',
        'b': '1'
    }
    add_program_labels.assert_called_with('a', 'b', {'a': '2', 'b': '1'})
Exemplo n.º 9
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def test_get_repetitions_and_sweeps_v1(get_job):
    job = cg.EngineJob('a', 'b', 'steve', EngineContext())
    get_job.return_value = quantum.QuantumJob(run_context=util.pack_any(
        v1.program_pb2.RunContext(
            parameter_sweeps=[v1.params_pb2.ParameterSweep(repetitions=10)])))
    with pytest.raises(ValueError, match='v1 RunContext is not supported'):
        job.get_repetitions_and_sweeps()
Exemplo n.º 10
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def test_labels():
    job = cg.EngineJob('a',
                       'b',
                       'steve',
                       EngineContext(),
                       _job=quantum.QuantumJob(labels={'t': '1'}))
    assert job.labels() == {'t': '1'}
Exemplo n.º 11
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def test_timeout(patched_time_sleep, get_job):
    qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
        state=qtypes.ExecutionStatus.State.RUNNING))
    get_job.return_value = qjob
    job = cg.EngineJob('a', 'b', 'steve', EngineContext(timeout=500))
    with pytest.raises(RuntimeError, match='Timed out'):
        job.results()
Exemplo n.º 12
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def test_results_len(get_job_results):
    qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
        state=qtypes.ExecutionStatus.State.SUCCESS))
    get_job_results.return_value = RESULTS

    job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
    assert len(job) == 2
Exemplo n.º 13
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def test_calibration_results_not_a_calibration(get_job_results):
    qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
        state=qtypes.ExecutionStatus.State.SUCCESS))
    get_job_results.return_value = RESULTS
    job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
    with pytest.raises(ValueError, match='calibration results'):
        job.calibration_results()
Exemplo n.º 14
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def test_add_labels(add_job_labels):
    job = cg.EngineJob('a',
                       'b',
                       'steve',
                       EngineContext(),
                       _job=qtypes.QuantumJob(labels={}))
    assert job.labels() == {}

    add_job_labels.return_value = qtypes.QuantumJob(labels={
        'a': '1',
    })
    assert job.add_labels({'a': '1'}).labels() == {'a': '1'}
    add_job_labels.assert_called_with('a', 'b', 'steve', {'a': '1'})

    add_job_labels.return_value = qtypes.QuantumJob(labels={
        'a': '2',
        'b': '1'
    })
    assert job.add_labels({
        'a': '2',
        'b': '1'
    }).labels() == {
        'a': '2',
        'b': '1'
    }
    add_job_labels.assert_called_with('a', 'b', 'steve', {'a': '2', 'b': '1'})
Exemplo n.º 15
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def test_get_schedule(list_time_slots):
    results = [
        qtypes.QuantumTimeSlot(
            processor_name='potofgold',
            start_time=Timestamp(seconds=1000020000),
            end_time=Timestamp(seconds=1000040000),
            slot_type=qenums.QuantumTimeSlot.TimeSlotType.MAINTENANCE,
            maintenance_config=qtypes.QuantumTimeSlot.MaintenanceConfig(
                title='Testing',
                description='Testing some new configuration.',
            ),
        ),
        qtypes.QuantumTimeSlot(
            processor_name='potofgold',
            start_time=Timestamp(seconds=1000010000),
            end_time=Timestamp(seconds=1000020000),
            slot_type=qenums.QuantumTimeSlot.TimeSlotType.RESERVATION,
            reservation_config=qtypes.QuantumTimeSlot.ReservationConfig(
                project_id='super_secret_quantum'),
        ),
    ]
    list_time_slots.return_value = results
    processor = cg.EngineProcessor('proj', 'p0', EngineContext())
    assert (processor.get_schedule(
        datetime.datetime.fromtimestamp(1000000000),
        datetime.datetime.fromtimestamp(1000050000)) == results)
    list_time_slots.assert_called_once_with(
        'proj', 'p0', 'start_time < 1000050000 AND end_time > 1000000000')
Exemplo n.º 16
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def test_get_repetitions_and_sweeps_unsupported(get_job):
    job = cg.EngineJob('a', 'b', 'steve', EngineContext())
    get_job.return_value = quantum.QuantumJob(run_context=any_pb2.Any(
        type_url='type.googleapis.com/unknown.proto'))
    with pytest.raises(ValueError,
                       match='unsupported run_context type: unknown.proto'):
        job.get_repetitions_and_sweeps()
Exemplo n.º 17
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def test_get_calibration(get_calibration):
    qjob = quantum.QuantumJob(execution_status=quantum.ExecutionStatus(
        calibration_name='projects/a/processors/p/calibrations/123'))
    calibration = quantum.QuantumCalibration(data=util.pack_any(
        Merge(
            """
    timestamp_ms: 123000,
    metrics: [{
        name: 'xeb',
        targets: ['0_0', '0_1'],
        values: [{
            double_val: .9999
        }]
    }, {
        name: 't1',
        targets: ['0_0'],
        values: [{
            double_val: 321
        }]
    }, {
        name: 'globalMetric',
        values: [{
            int32_val: 12300
        }]
    }]
""",
            v2.metrics_pb2.MetricsSnapshot(),
        )))
    get_calibration.return_value = calibration

    job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
    assert list(job.get_calibration()) == ['xeb', 't1', 'globalMetric']
    get_calibration.assert_called_once_with('a', 'p', 123)
Exemplo n.º 18
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def test_labels():
    program = cg.EngineProgram(
        'a',
        'b',
        EngineContext(),
        _program=qtypes.QuantumProgram(labels={'t': '1'}))
    assert program.labels() == {'t': '1'}
Exemplo n.º 19
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def test_batched_results(get_job_results):
    qjob = quantum.QuantumJob(
        execution_status=quantum.ExecutionStatus(
            state=quantum.ExecutionStatus.State.SUCCESS),
        update_time=UPDATE_TIME,
    )
    get_job_results.return_value = BATCH_RESULTS

    job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
    data = job.results()
    assert len(data) == 4
    assert str(data[0]) == 'q=011'
    assert str(data[1]) == 'q=111'
    assert str(data[2]) == 'q=1101'
    assert str(data[3]) == 'q=1001'
    get_job_results.assert_called_once_with('a', 'b', 'steve')

    data = job.batched_results()
    assert len(data) == 2
    assert len(data[0]) == 2
    assert len(data[1]) == 2
    assert str(data[0][0]) == 'q=011'
    assert str(data[0][1]) == 'q=111'
    assert str(data[1][0]) == 'q=1101'
    assert str(data[1][1]) == 'q=1001'
Exemplo n.º 20
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def test_get_circuit_v1(get_program):
    program = cg.EngineProgram('a', 'b', EngineContext())
    get_program.return_value = qtypes.QuantumProgram(
        code=_to_any(v1.program_pb2.Program()))

    with pytest.raises(ValueError, match='v1 Program is not supported'):
        program.get_circuit()
Exemplo n.º 21
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def test_list_reservation(list_reservations):
    name = 'projects/proj/processors/p0/reservations/rid'
    results = [
        quantum.QuantumReservation(
            name=name,
            start_time=Timestamp(seconds=1000000000),
            end_time=Timestamp(seconds=1000003600),
            whitelisted_users=['*****@*****.**'],
        ),
        quantum.QuantumReservation(
            name=name + '2',
            start_time=Timestamp(seconds=1000003600),
            end_time=Timestamp(seconds=1000007200),
            whitelisted_users=['*****@*****.**'],
        ),
    ]
    list_reservations.return_value = results
    processor = cg.EngineProcessor('proj', 'p0', EngineContext())
    assert (
        processor.list_reservations(
            datetime.datetime.fromtimestamp(1000000000), datetime.datetime.fromtimestamp(1000010000)
        )
        == results
    )
    list_reservations.assert_called_once_with(
        'proj', 'p0', 'start_time < 1000010000 AND end_time > 1000000000'
    )
Exemplo n.º 22
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def test_get_schedule_filter_by_time_slot(list_time_slots):
    results = [
        quantum.QuantumTimeSlot(
            processor_name='potofgold',
            start_time=Timestamp(seconds=1000020000),
            end_time=Timestamp(seconds=1000040000),
            time_slot_type=quantum.QuantumTimeSlot.TimeSlotType.MAINTENANCE,
            maintenance_config=quantum.QuantumTimeSlot.MaintenanceConfig(
                title='Testing',
                description='Testing some new configuration.'),
        )
    ]
    list_time_slots.return_value = results
    processor = cg.EngineProcessor('proj', 'p0', EngineContext())

    assert (processor.get_schedule(
        datetime.datetime.fromtimestamp(1000000000),
        datetime.datetime.fromtimestamp(1000050000),
        quantum.QuantumTimeSlot.TimeSlotType.MAINTENANCE,
    ) == results)
    list_time_slots.assert_called_once_with(
        'proj',
        'p0',
        'start_time < 1000050000 AND end_time > 1000000000 AND ' +
        'time_slot_type = MAINTENANCE',
    )
Exemplo n.º 23
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def test_expected_recovery_time():
    processor = cg.EngineProcessor('a',
                                   'p',
                                   EngineContext(),
                                   _processor=qtypes.QuantumProcessor())
    assert not processor.expected_recovery_time()
    processor = cg.EngineProcessor(
        'a',
        'p',
        EngineContext(),
        _processor=qtypes.QuantumProcessor(
            expected_recovery_time=qtypes.timestamp_pb2.Timestamp(
                seconds=1581515101)),
    )
    assert processor.expected_recovery_time() == datetime.datetime(
        2020, 2, 12, 13, 45, 1)
Exemplo n.º 24
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def test_get_missing_device():
    processor = cg.EngineProcessor('a',
                                   'p',
                                   EngineContext(),
                                   _processor=quantum.QuantumProcessor())
    with pytest.raises(ValueError, match='device specification'):
        _ = processor.get_device(gate_sets=[_GATE_SET])
Exemplo n.º 25
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def test_current_calibration(get_current_calibration):
    get_current_calibration.return_value = _CALIBRATION
    processor = cg.EngineProcessor('a', 'p', EngineContext())
    calibration = processor.get_current_calibration()
    assert calibration.timestamp == 1562544000021
    assert set(calibration.keys()) == {'xeb', 't1', 'globalMetric'}
    get_current_calibration.assert_called_once_with('a', 'p')
Exemplo n.º 26
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def test_sampler(client):
    client().create_program.return_value = (
        'prog',
        quantum.QuantumProgram(name='projects/proj/programs/prog'),
    )
    client().create_job.return_value = (
        'job-id',
        quantum.QuantumJob(name='projects/proj/programs/prog/jobs/job-id',
                           execution_status={'state': 'READY'}),
    )
    client().get_job.return_value = quantum.QuantumJob(
        execution_status={'state': 'SUCCESS'},
        update_time=_to_timestamp('2019-07-09T23:39:59Z'))
    client().get_job_results.return_value = quantum.QuantumResult(
        result=util.pack_any(_RESULTS_V2))
    processor = cg.EngineProcessor('proj', 'mysim', EngineContext())
    sampler = processor.get_sampler()
    results = sampler.run_sweep(
        program=_CIRCUIT,
        params=[cirq.ParamResolver({'a': 1}),
                cirq.ParamResolver({'a': 2})])
    assert len(results) == 2
    for i, v in enumerate([1, 2]):
        assert results[i].repetitions == 1
        assert results[i].params.param_dict == {'a': v}
        assert results[i].measurements == {'q': np.array([[0]], dtype='uint8')}
    assert client().create_program.call_args[0][0] == 'proj'
Exemplo n.º 27
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def test_delete(delete_program):
    program = cg.EngineProgram('a', 'b', EngineContext())
    program.delete()
    delete_program.assert_called_with('a', 'b', delete_jobs=False)

    program.delete(delete_jobs=True)
    delete_program.assert_called_with('a', 'b', delete_jobs=True)
Exemplo n.º 28
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def test_get_circuit_unsupported_program_type(get_program):
    program = cg.EngineProgram('a', 'b', EngineContext())
    get_program.return_value = qtypes.QuantumProgram(code=qtypes.any_pb2.Any(
        type_url='type.googleapis.com/unknown.proto'))

    with pytest.raises(ValueError, match='unknown.proto'):
        program.get_circuit()
Exemplo n.º 29
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def test_run_calibration_no_processors(create_job):
    create_job.return_value = ('dogs', qtypes.QuantumJob())
    program = cg.EngineProgram('woof',
                               'woof',
                               EngineContext(),
                               result_type=ResultType.Calibration)
    with pytest.raises(ValueError, match='No processors specified'):
        _ = program.run_calibration(job_id='spot')
Exemplo n.º 30
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def test_get_circuit_v2_unknown_gateset(get_program):
    program = cg.EngineProgram('a', 'b', EngineContext())
    get_program.return_value = qtypes.QuantumProgram(code=_to_any(
        v2.program_pb2.Program(language=v2.program_pb2.Language(
            gate_set="BAD_GATESET"))))

    with pytest.raises(ValueError, match='BAD_GATESET'):
        program.get_circuit()