예제 #1
0
def _execute_and_read_result(
    quantum_computer: QuantumComputer,
    executable: QuantumExecutable,
    measurement_id_map: Dict[str, str],
    resolver: cirq.ParamResolverOrSimilarType,
    memory_map: Optional[Dict[str, Union[int, float, Sequence[int],
                                         Sequence[float]]]] = None,
) -> cirq.Result:
    """Execute the `pyquil.api.QuantumExecutable` and parse the measurements into
    a `cirq.Result`.

    Args:
        quantum_computer: The `pyquil.api.QuantumComputer` on which to execute
            and from which to read results.
        executable: The fully compiled `pyquil.api.QuantumExecutable` to run.
        measurement_id_map: A dict mapping cirq measurement keys to pyQuil
            read out regions.
        resolver: The `cirq.ParamResolverOrSimilarType` to include on
            the returned `cirq.Result`.
        memory_map: A dict of values to write to memory values on the
            `quantum_computer`. The `pyquil.api.QuantumAbstractMachine` reads these
            values into memory regions on the pre-compiled `executable` during execution.

    Returns:
        A `cirq.Result` with measurements read from the `quantum_computer`.

    Raises:
        ValueError: measurement_id_map references an undefined pyQuil readout region.
    """
    if memory_map is None:
        memory_map = {}

    for region_name, values in memory_map.items():
        executable.write_memory(region_name=region_name, value=values)
    qam_execution_result = quantum_computer.qam.run(executable)

    measurements = {}
    # For every key, value in QuilOutput#measurement_id_map, use the value to read
    # Rigetti QCS results and assign to measurements by key.
    for cirq_memory_key, pyquil_region in measurement_id_map.items():
        readout = qam_execution_result.readout_data.get(pyquil_region)
        if readout is None:
            raise ValueError(
                f'readout data does not have values for region "{pyquil_region}"'
            )
        measurements[cirq_memory_key] = readout
    logger.debug(f"measurement_id_map {measurement_id_map}")
    logger.debug(f"measurements {measurements}")

    # collect results in a cirq.Result.
    result = cirq.Result(
        params=cast(cirq.ParamResolver, resolver or cirq.ParamResolver({})),
        measurements=measurements,
    )  # noqa
    return result
예제 #2
0
    def execute(self, executable: QuantumExecutable) -> QVMExecuteResponse:
        """
        Synchronously execute the input program to completion.
        """
        executable = executable.copy()

        if not isinstance(executable, Program):
            raise TypeError(
                f"`QVM#executable` argument must be a `Program`; got {type(executable)}"
            )

        result_memory = {}

        for region in executable.declarations.keys():
            result_memory[region] = np.ndarray((executable.num_shots, 0),
                                               dtype=np.int64)

        trials = executable.num_shots
        classical_addresses = get_classical_addresses_from_program(executable)

        if self.noise_model is not None:
            executable = apply_noise_model(executable, self.noise_model)

        executable._set_parameter_values_at_runtime()

        request = qvm_run_request(
            executable,
            classical_addresses,
            trials,
            self.measurement_noise,
            self.gate_noise,
            self.random_seed,
        )
        response = self._qvm_client.run_program(request)
        ram = {key: np.array(val) for key, val in response.results.items()}
        result_memory.update(ram)

        return QVMExecuteResponse(executable=executable, memory=result_memory)
예제 #3
0
    def execute(self, executable: QuantumExecutable) -> QPUExecuteResponse:
        """
        Enqueue a job for execution on the QPU. Returns a ``QPUExecuteResponse``, a
        job descriptor which should be passed directly to ``QPU.get_result`` to retrieve
        results.
        """
        executable = executable.copy()

        assert isinstance(
            executable, EncryptedProgram
        ), "QPU#execute requires an rpcq.EncryptedProgram. Create one with QuantumComputer#compile"

        assert (
            executable.ro_sources is not None
        ), "To run on a QPU, a program must include ``MEASURE``, ``CAPTURE``, and/or ``RAW-CAPTURE`` instructions"

        request = RunProgramRequest(
            id=str(uuid.uuid4()),
            priority=self.priority,
            program=executable.program,
            patch_values=self._build_patch_values(executable),
        )
        job_id = self._qpu_client.run_program(request).job_id
        return QPUExecuteResponse(_executable=executable, job_id=job_id)