Ejemplo n.º 1
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    def test_custom_usual_topologies(self) -> None:
        """
        Tests Sabre on common circuit for some usual custom topologies for different number of qubits.
        """

        for nbqbit in range(2 * min_nbqbit, max_nbqbit):
            nbqbit_circuit = rd.randint(nbqbit // 2, nbqbit)
            circuit = generate_random_circuit(nbqbit_circuit)

            nb_measured_qubits = rd.randint(1, nbqbit_circuit)
            measured_qubits = rd.sample(range(nbqbit_circuit),
                                        nb_measured_qubits)
            measured_qubits.sort()

            qpu_1 = PyLinalg()
            result_1 = qpu_1.submit(circuit.to_job(qubits=measured_qubits))

            for topology in generate_custom_topologies(nbqbit):
                qpu_2 = Sabre() | (QuameleonPlugin(topology=topology)
                                   | PyLinalg())
                result_2 = qpu_2.submit(circuit.to_job(qubits=measured_qubits))

                check_results_equality(result_1, result_2, amplitude=False)

            if nbqbit % 2 == 0:
                topology = Topology.from_nx(
                    nx.grid_2d_graph(nbqbit // 2, nbqbit // 2))
                qpu_2 = Sabre() | (QuameleonPlugin(topology=topology)
                                   | PyLinalg())
                result_2 = qpu_2.submit(circuit.to_job(qubits=measured_qubits))

                check_results_equality(result_1, result_2, amplitude=False)
Ejemplo n.º 2
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    def test_custom_usual_topologies(self) -> None:
        """
        Tests Sabre on common circuit for some usual custom topologies for different number of qubits.
        """

        for nbqbit in range(2 * min_nbqbit, max_nbqbit):
            nbqbit_circuit = rd.randint(nbqbit // 2, nbqbit)
            circuit = generate_random_circuit(nbqbit_circuit)

            observable = generate_random_observable(nbqbit_circuit)

            qpu_1 = PyLinalg()
            measure_1 = qpu_1.submit(
                circuit.to_job("OBS", observable=observable, nbshots=5))

            for topology in generate_custom_topologies(nbqbit):
                qpu_2 = Sabre() | (QuameleonPlugin(topology=topology)
                                   | PyLinalg())
                measure_2 = qpu_2.submit(
                    circuit.to_job("OBS", observable=observable, nbshots=5))

                check_measures_equality(measure_1, measure_2)

            if nbqbit % 2 == 0:
                topology = Topology.from_nx(
                    nx.grid_2d_graph(nbqbit // 2, nbqbit // 2))
                qpu_2 = Sabre() | (QuameleonPlugin(topology=topology)
                                   | PyLinalg())
                measure_2 = qpu_2.submit(
                    circuit.to_job("OBS", observable=observable, nbshots=5))

                check_measures_equality(measure_1, measure_2)
Ejemplo n.º 3
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 def test_gate_more_two_qubits(self) -> None:
     """
     Checks Sabre raises PluginException if there is a circuit containing a gate with more than two qubits.
     """
     with pytest.raises(PluginException):
         circuit = generate_qft_circuit(max_nbqbit, inline=False)
         qpu = Sabre() | (QuameleonPlugin(topology=Topology(
             type=TopologyType.LNN)) | PyLinalg())
         qpu.submit(circuit.to_job())
Ejemplo n.º 4
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 def test_custom_topology_without_graph(self) -> None:
     """
     Checks Sabre raises PluginException if TopologyType is CUSTOM but no graph is provided.
     """
     with pytest.raises(PluginException):
         circuit = generate_qft_circuit(max_nbqbit)
         qpu = Sabre() | (QuameleonPlugin(topology=Topology(
             type=TopologyType.CUSTOM)) | PyLinalg())
         qpu.submit(circuit.to_job())
Ejemplo n.º 5
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 def test_unknown_topology_type(self) -> None:
     """
     Checks Sabre raises PluginException for an unknown topology type.
     """
     with pytest.raises(PluginException):
         circuit = generate_qft_circuit(max_nbqbit)
         qpu = Sabre() | (QuameleonPlugin(topology=Topology(type=-5))
                          | PyLinalg())
         qpu.submit(circuit.to_job())
Ejemplo n.º 6
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def generate_custom_topologies(nbqbit: int) -> List[Topology]:
    """
    Generates several custom topologies for a given number of qubits.

    Args:
        nbqbit (int): number of qubits in the topology

    Returns:
        List<Topology>: a list containing the topologies
    """

    # We use NetworkX graph generator and the Topology class method from_nx to build topologies
    topology_list = [
        Topology.from_nx(nx.path_graph(nbqbit)),
        Topology.from_nx(nx.complete_graph(nbqbit)),
        Topology.from_nx(nx.star_graph(nbqbit - 1)),
        Topology.from_nx(nx.wheel_graph(nbqbit)),
        Topology.from_nx(nx.cycle_graph(nbqbit))
    ]
    return topology_list
Ejemplo n.º 7
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 def test_too_much_qubits(self) -> None:
     """
     Checks Sabre raises PluginException if there are more qubits in the circuit than in the topology.
     """
     with pytest.raises(PluginException):
         circuit = generate_qft_circuit(max_nbqbit)
         qpu = Sabre() | (QuameleonPlugin(topology=Topology(
             type=TopologyType.CUSTOM, graph={
                 0: [1],
                 1: [0]
             })) | PyLinalg())
         qpu.submit(circuit.to_job())
Ejemplo n.º 8
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    def test_lnn_topology(self) -> None:
        """
        Tests Sabre on common circuit for LNN topologies for different number of qubits.
        """

        for nbqbit in range(2 * min_nbqbit, max_nbqbit):
            circuit = generate_random_circuit(rd.randint(nbqbit // 2, nbqbit))

            qpu_1 = PyLinalg()
            result_1 = qpu_1.submit(circuit.to_job())

            qpu_2 = Sabre() | (QuameleonPlugin(topology=Topology(
                type=TopologyType.LNN)) | PyLinalg())
            result_2 = qpu_2.submit(circuit.to_job())

            check_results_equality(result_1, result_2)
Ejemplo n.º 9
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    def test_qft_lnn(self) -> None:
        """
        Tests Sabre on a QFT for LNN topologies for different number of qubits.
        """

        for nbqbit in range(3, max_nbqbit):
            circuit = generate_qft_circuit(nbqbit)

            qpu_1 = PyLinalg()
            result_1 = qpu_1.submit(circuit.to_job())

            qpu_2 = Sabre() | (QuameleonPlugin(topology=Topology(
                type=TopologyType.LNN)) | PyLinalg())
            result_2 = qpu_2.submit(circuit.to_job())

            check_results_equality(result_1, result_2)
Ejemplo n.º 10
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    def test_lnn_topology(self) -> None:
        """
        Tests Sabre on common circuit for LNN topologies for different number of qubits.
        """

        for nbqbit in range(2 * min_nbqbit, max_nbqbit):
            nbqbit_circuit = rd.randint(nbqbit // 2, nbqbit)
            circuit = generate_random_circuit(nbqbit_circuit)

            observable = generate_random_observable(nbqbit_circuit)

            qpu_1 = PyLinalg()
            measure_1 = qpu_1.submit(
                circuit.to_job("OBS", observable=observable))

            qpu_2 = Sabre() | (QuameleonPlugin(topology=Topology(
                type=TopologyType.LNN)) | PyLinalg())
            measure_2 = qpu_2.submit(
                circuit.to_job("OBS", observable=observable))

            check_measures_equality(measure_1, measure_2)
Ejemplo n.º 11
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    def test_lnn_topology(self) -> None:
        """
        Tests Sabre on common circuit for LNN topologies for different number of qubits.
        """

        for nbqbit in range(2 * min_nbqbit, max_nbqbit):
            nbqbit_circuit = rd.randint(nbqbit // 2, nbqbit)
            circuit = generate_random_circuit(nbqbit_circuit)

            nb_measured_qubits = rd.randint(1, nbqbit_circuit)
            measured_qubits = rd.sample(range(nbqbit_circuit),
                                        nb_measured_qubits)
            measured_qubits.sort()

            qpu_1 = PyLinalg()
            result_1 = qpu_1.submit(circuit.to_job(qubits=measured_qubits))

            qpu_2 = Sabre() | (QuameleonPlugin(topology=Topology(
                type=TopologyType.LNN)) | PyLinalg())
            result_2 = qpu_2.submit(circuit.to_job(qubits=measured_qubits))

            check_results_equality(result_1, result_2, amplitude=False)