コード例 #1
0
 def _get_qasm_str_from_qobj(self, qobj):
     """
     convert to format(QASM) that can run on our simulator,
     we now assume that there is only one experiment(QC) (2020/9/9, YT Lin),
     can do multi-circuit easily by list comprehension 
     """
     original_config = qobj.config
     assert len(
         disassemble(qobj)[0]
     ) == 1, "we now assume that there is only one experiment(QC) (2020/9/9, YT Lin)"
     qc = disassemble(qobj)[0][0]
     qasm_str = qc.qasm()
     # print(qasm_str)
     return qasm_str
コード例 #2
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ファイル: ionq.py プロジェクト: sanjgupt/qdk-python
    def run(self, circuit, **kwargs):
        """Submits the given circuit to run on an IonQ target."""
        # If the circuit was created using qiskit.assemble,
        # disassemble into QASM here
        if isinstance(circuit, QasmQobj) or isinstance(circuit, Qobj):
            from qiskit.assembler import disassemble
            circuits, run, _ = disassemble(circuit)
            circuit = circuits[0]
            if kwargs.get("shots") is None:
                # Note that the default number of shots for QObj is 1024
                # unless the user specifies the backend.
                kwargs["shots"] = run["shots"]

        ionq_circ, _, meas_map = qiskit_circ_to_ionq_circ(circuit)
        input_data = json.dumps({
            "qubits": circuit.num_qubits,
            "circuit": ionq_circ,
        })

        # Options are mapped to input_params
        # Take also into consideration options passed in the kwargs, as the take precedence
        # over default values:
        input_params = vars(self.options)
        for opt in kwargs.copy():
            if opt in input_params:
                input_params[opt] = kwargs.pop(opt)

        logger.info(f"Submitting new job for backend {self.name()}")
        job = AzureQuantumJob(backend=self,
                              name=circuit.name,
                              target=self.name(),
                              input_data=input_data,
                              blob_name="inputData",
                              content_type="application/json",
                              provider_id="ionq",
                              input_data_format="ionq.circuit.v1",
                              output_data_format="ionq.quantum-results.v1",
                              input_params=input_params,
                              metadata=self._job_metadata(circuit=circuit,
                                                          meas_map=meas_map),
                              **kwargs)

        logger.info(
            f"Submitted job with id '{job.id()}' for circuit '{circuit.name}':"
        )
        logger.info(input_data)

        return job
コード例 #3
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 def run(self, qobj: QasmQobj) -> TketJob:
     module = disassemble(qobj)
     circ_list = [qiskit_to_tk(qc) for qc in module[0]]
     if self._comp_pass:
         final_maps = []
         compiled_list = []
         for c in circ_list:
             cu = CompilationUnit(c)
             self._comp_pass.apply(cu)
             compiled_list.append(cu.circuit)
             final_maps.append(cu.final_map)
         circ_list = compiled_list
     else:
         final_maps = [None for c in circ_list]
     handles = self._backend.process_circuits(circ_list, n_shots=qobj.config.shots)
     return TketJob(self, handles, qobj, final_maps)
コード例 #4
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def qobj_to_circuits(qobj):
    """Return a list of QuantumCircuit object(s) from a qobj

    Args:
        qobj (Qobj): The Qobj object to convert to QuantumCircuits
    Returns:
        list: A list of QuantumCircuit objects from the qobj

    """
    warnings.warn(
        'qiskit.converters.qobj_to_circuit() is deprecated and will '
        'be removed in Qiskit Terra 0.9. Please use '
        'qiskit.compiler.disassemble_circuits() to convert a qobj '
        'to list of circuits.', DeprecationWarning)

    variables = disassemble(qobj)
    return variables[0]
コード例 #5
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ファイル: honeywell.py プロジェクト: sanjgupt/qdk-python
    def run(self, circuit: QuantumCircuit, **kwargs):
        """Submits the given circuit for execution on an Honeywell target."""
        # If the circuit was created using qiskit.assemble,
        # disassemble into QASM here
        if isinstance(circuit, QasmQobj) or isinstance(circuit, Qobj):
            from qiskit.assembler import disassemble
            circuits, run, _ = disassemble(circuit)
            circuit = circuits[0]
            if kwargs.get("count") is None:
                # Note that the default number of shots for QObj is 1024
                # unless the user specifies the backend.
                kwargs["count"] = run["shots"]

        input_data = circuit.qasm()

        # Options are mapped to input_params
        # Take also into consideration options passed in the kwargs, as the take precedence
        # over default values:
        input_params = vars(self.options)
        for opt in kwargs.copy():
            if opt in input_params:
                input_params[opt] = kwargs.pop(opt)

        logger.info(f"Submitting new job for backend {self.name()}")
        job = AzureQuantumJob(
            backend=self,
            name=circuit.name,
            target=self.name(),
            input_data=input_data,
            blob_name="inputData",
            content_type="application/qasm",
            provider_id="honeywell",
            input_data_format="honeywell.openqasm.v1",
            output_data_format="honeywell.quantum-results.v1",
            input_params=input_params,
            metadata={"qubits": str(circuit.num_qubits)},
            **kwargs)

        logger.info(
            f"Submitted job with id '{job.id()}' for circuit '{circuit.name}':"
        )
        logger.info(input_data)

        return job
コード例 #6
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    def run(self, qobj):
        """ Convert all the circuits inside qobj into a Batch of
            QLM jobs before sending them into a QLM qpu.

        Args:
            qobj: Qiskit batch of circuits to run

        Returns:
            Returns a :class:`~qat.interop.qiskit.providers.QLMJob` object containing
            the results of the QLM qpu execution after being converted into
            Qiskit results
        """
        if self._qpu is None:
            raise NoQpuAttached("No qpu attached to the QLM connector.")
        headers = [exp.header.to_dict() for exp in qobj.experiments]
        circuits = disassemble(qobj)[0]
        nbshots = qobj.config.shots
        qlm_task = Batch(jobs=[])
        for circuit in circuits:
            qlm_circuit = qiskit_to_qlm(circuit)
            job = qlm_circuit.to_job(aggregate_data=False)
            job.nbshots = nbshots
            job.qubits = list(range(0, qlm_circuit.nbqbits))
            qlm_task.jobs.append(job)

        results = self._qpu.submit(qlm_task)
        for res in results:
            for sample in res.raw_data:
                sample.intermediate_measures = None
            res = aggregate_data(res)

        # Creating a job that will contain the results
        job = QLMJob(self, str(self.id_counter))
        self.id_counter += 1
        job.set_results(results, qobj.qobj_id, headers)
        return job
コード例 #7
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 def time_disassemble_circuit(self, _, __, ___):
     disassemble(self.qobj)
コード例 #8
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def dict_to_circuit(dict_: dict) -> QuantumCircuit:
    qobj = QasmQobj.from_dict(dict_)
    return disassemble(qobj)[0][0]