Exemplo n.º 1
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def test_xmon_device_eq():
    eq = EqualsTester()
    eq.make_equality_pair(lambda: square_device(3, 3))
    eq.make_equality_pair(lambda: square_device(3, 3, holes=[XmonQubit(1, 1)]))
    eq.make_equality_pair(lambda: XmonDevice(Duration(
        nanos=1), Duration(nanos=2), Duration(nanos=3), []))
    eq.make_equality_pair(lambda: XmonDevice(Duration(
        nanos=1), Duration(nanos=1), Duration(nanos=1), []))
Exemplo n.º 2
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def square_device(width, height, holes=()):
    ns = Duration(nanos=1)
    return XmonDevice(measurement_duration=ns,
                      exp_w_duration=2 * ns,
                      exp_11_duration=3 * ns,
                      qubits=[
                          XmonQubit(x, y) for x in range(width)
                          for y in range(height)
                          if XmonQubit(x, y) not in holes
                      ])
Exemplo n.º 3
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def test_greedy_method_calls_greedy_search():
    q00 = XmonQubit(0, 0)
    q01 = XmonQubit(0, 1)
    q03 = XmonQubit(0, 3)
    device = XmonDevice(Duration(nanos=0),
                        Duration(nanos=0),
                        Duration(nanos=0),
                        qubits=[q00, q01, q03])
    method = greedy.GreedySequenceSearchMethod()

    with mock.patch.object(method, 'place_line') as place_line:
        sequences = [[q00, q01]]
        place_line.return_value = sequences

        assert place_on_device(device, method) == sequences
        place_line.assert_called_once_with(device)
Exemplo n.º 4
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def xmon_to_arc(xmon: XmonDevice) -> Architecture:
    """Generates a :math:`\\mathrm{t|ket}\\rangle` :py:class:`Architecture` object for a Cirq :py:class:`XmonDevice` .
    
    :param xmon: The device to convert

    :return: The corresponding :math:`\\mathrm{t|ket}\\rangle` :py:class:`Architecture`
    """

    nodes = len(xmon.qubits)
    indexed_qubits = _sort_row_col(xmon.qubits)
    pairs = []
    for qb in indexed_qubits:
        neighbours = xmon.neighbors_of(qb)
        #filter only higher index neighbours to avoid double counting edges
        forward_neighbours = filter(
            lambda x: indexed_qubits.index(x) > indexed_qubits.index(qb),
            neighbours)
        for x in forward_neighbours:
            pairs.append((indexed_qubits.index(qb), indexed_qubits.index(x)))
    return Architecture(pairs, nodes)
Exemplo n.º 5
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def process_characterisation(xmon: XmonDevice) -> dict:
    """Generates a tket dictionary containing device characteristics for a Cirq
    :py:class:`XmonDevice`.

    :param xmon: The device to convert

    :return: A dictionary containing device characteristics
    """
    qb_map = {q: Node("q", q.row, q.col) for q in xmon.qubits}

    indexed_qubits = _sort_row_col(xmon.qubits)
    coupling_map = []
    for qb in indexed_qubits:
        neighbours = xmon.neighbors_of(qb)
        for x in neighbours:
            coupling_map.append((qb_map[qb], qb_map[x]))
    arc = Architecture(coupling_map)

    node_ers_dict = {}
    link_ers_dict = {}

    for qb in xmon.qubits:
        error_cont = QubitErrorContainer({OpType.PhasedX, OpType.Rz})
        error_cont.add_error((OpType.PhasedX, 0.0))
        error_cont.add_error((OpType.Rz, 0.0))
        node_ers_dict[qb_map[qb]] = error_cont

    for a, b in coupling_map:
        error_cont = QubitErrorContainer({OpType.CZ})
        error_cont.add_error((OpType.CZ, 0.0))
        link_ers_dict[(a, b)] = error_cont
        link_ers_dict[(b, a)] = error_cont

    characterisation = dict()
    characterisation["NodeErrors"] = node_ers_dict
    characterisation["EdgeErrors"] = link_ers_dict
    characterisation["Architecture"] = arc

    return characterisation
Exemplo n.º 6
0
def _create_device(qubits: Iterable[GridQubit]) -> XmonDevice:
    return XmonDevice(Duration(nanos=0), Duration(nanos=0), Duration(nanos=0),
                      qubits)
Exemplo n.º 7
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def _create_device(qubits: Iterable[XmonQubit]):
    return XmonDevice(Duration(nanos=0), Duration(nanos=0), Duration(nanos=0),
                      qubits)