Source code for quantify_scheduler.device_under_test.device_element
# Repository: https://gitlab.com/quantify-os/quantify-scheduler
# Licensed according to the LICENCE file on the main branch
"""The module contains definitions for device elements."""
from __future__ import annotations
from typing import TYPE_CHECKING, Any
from qcodes.instrument.base import Instrument
from quantify_scheduler.helpers.importers import export_python_object_to_path_string
if TYPE_CHECKING:
from quantify_scheduler.backends.graph_compilation import DeviceCompilationConfig
[docs]
class DeviceElement(Instrument):
"""
Create a device element for managing parameters.
The :class:`~DeviceElement` is responsible for compiling operations applied to that
specific device element from the quantum-circuit to the quantum-device
layer.
"""
def __init__(self, name: str, **kwargs) -> None: # noqa: ANN003
if "-" in name or "_" in name:
raise ValueError(
f"Invalid DeviceElement name '{name}'. Hyphens and "
f"underscores are not allowed due to naming conventions"
)
super().__init__(name, **kwargs)
def __getstate__(self) -> dict: # type: ignore
"""
Serialize :class:`~DeviceElement` and derived classes.
Serialization is performed by converting submodules into a dict containing
the name of the device element and a dict for each submodule containing its
parameter names and corresponding values.
"""
snapshot = self.snapshot()
element_data: dict[str, Any] = {"name": self.name}
for submodule_name, submodule_data in snapshot["submodules"].items():
element_data[submodule_name] = {
name: data["value"]
for name, data in submodule_data["parameters"].items()
}
state = {
"deserialization_type": export_python_object_to_path_string(self.__class__),
"mode": "__init__",
"data": element_data,
}
return state
[docs]
def generate_device_config(self) -> DeviceCompilationConfig:
"""Generate the device configuration."""
raise NotImplementedError
