pyquil.external.rpcq module¶

class pyquil.external.rpcq.CompilerISA(**extra_data: Any)[source]¶

Bases: pydantic.main.BaseModel

Create a new model by parsing and validating input data from keyword arguments.

Raises ValidationError if the input data cannot be parsed to form a valid model.

edges: Dict[str, pyquil.external.rpcq.Edge]¶

qubits: Dict[str, pyquil.external.rpcq.Qubit]¶

class pyquil.external.rpcq.Edge(*, ids: List[int], dead: Optional[bool] = False, gates: List[pyquil.external.rpcq.GateInfo] = None)[source]¶

Bases: pydantic.main.BaseModel

Create a new model by parsing and validating input data from keyword arguments.

Raises ValidationError if the input data cannot be parsed to form a valid model.

dead: Optional[bool]¶

dict(**kwargs: Any) → Dict[str, Any][source]¶: Generate a dictionary representation of the model, optionally specifying which fields to include or exclude.

gates: List[pyquil.external.rpcq.GateInfo]¶

ids: List[int]¶

class pyquil.external.rpcq.GateInfo(*, operator: Optional[str] = None, duration: Optional[float] = None, fidelity: Optional[float] = None, parameters: List[Union[float, str]] = None, arguments: List[Union[int, str]] = None, operator_type: typing_extensions.Literal[gate] = 'gate')[source]¶

Bases: pyquil.external.rpcq.Operator

Create a new model by parsing and validating input data from keyword arguments.

Raises ValidationError if the input data cannot be parsed to form a valid model.

arguments: List[Union[int, str]]¶

operator_type: typing_extensions.Literal[gate]¶

parameters: List[Union[float, str]]¶

class pyquil.external.rpcq.MeasureInfo(*, operator: Optional[str] = None, duration: Optional[float] = None, fidelity: Optional[float] = None, qubit: Optional[Union[int, str]] = None, target: Optional[Union[int, str]] = None, operator_type: typing_extensions.Literal[measure] = 'measure')[source]¶

Bases: pyquil.external.rpcq.Operator

Create a new model by parsing and validating input data from keyword arguments.

Raises ValidationError if the input data cannot be parsed to form a valid model.

operator_type: typing_extensions.Literal[measure]¶

qubit: Optional[Union[int, str]]¶

target: Optional[Union[int, str]]¶

class pyquil.external.rpcq.Operator(*, operator: Optional[str] = None, duration: Optional[float] = None, fidelity: Optional[float] = None)[source]¶

Bases: pydantic.main.BaseModel

Create a new model by parsing and validating input data from keyword arguments.

Raises ValidationError if the input data cannot be parsed to form a valid model.

duration: Optional[float]¶

fidelity: Optional[float]¶

operator: Optional[str]¶

class pyquil.external.rpcq.Qubit(*, id: int, dead: Optional[bool] = False, gates: List[Union[pyquil.external.rpcq.GateInfo, pyquil.external.rpcq.MeasureInfo]] = None)[source]¶

Bases: pydantic.main.BaseModel

Create a new model by parsing and validating input data from keyword arguments.

Raises ValidationError if the input data cannot be parsed to form a valid model.

dead: Optional[bool]¶

dict(**kwargs: Any) → Dict[str, Any][source]¶: Generate a dictionary representation of the model, optionally specifying which fields to include or exclude.

gates: List[Union[pyquil.external.rpcq.GateInfo, pyquil.external.rpcq.MeasureInfo]]¶

id: int¶

class pyquil.external.rpcq.Supported1QGate[source]¶

Bases: object

I = 'I'¶

MEASURE = 'MEASURE'¶

RX = 'RX'¶

RZ = 'RZ'¶

WILDCARD = 'WILDCARD'¶

class pyquil.external.rpcq.Supported2QGate[source]¶

Bases: object

CPHASE = 'CPHASE'¶

CZ = 'CZ'¶

ISWAP = 'ISWAP'¶

WILDCARD = 'WILDCARD'¶

XY = 'XY'¶

pyquil.external.rpcq.add_edge(quantum_processor: pyquil.external.rpcq.CompilerISA, qubit1: int, qubit2: int) → pyquil.external.rpcq.Edge[source]¶

pyquil.external.rpcq.add_qubit(quantum_processor: pyquil.external.rpcq.CompilerISA, node_id: int) → pyquil.external.rpcq.Qubit[source]¶

pyquil.external.rpcq.compiler_isa_to_target_quantum_processor(compiler_isa: pyquil.external.rpcq.CompilerISA) → rpcq.messages.TargetDevice[source]¶

pyquil.external.rpcq.get_edge(quantum_processor: pyquil.external.rpcq.CompilerISA, qubit1: int, qubit2: int) → Optional[pyquil.external.rpcq.Edge][source]¶

pyquil.external.rpcq.get_qubit(quantum_processor: pyquil.external.rpcq.CompilerISA, node_id: int) → Optional[pyquil.external.rpcq.Qubit][source]¶

pyquil.external.rpcq.make_edge_id(qubit1: int, qubit2: int) → str[source]¶