Source code for quantify_scheduler.backends.qblox.compiler_container

# Repository: https://gitlab.com/quantify-os/quantify-scheduler
# Licensed according to the LICENCE file on the main branch
"""Contains the compiler container class."""

from __future__ import annotations

from typing import TYPE_CHECKING, Any

from quantify_scheduler.backends.qblox import constants
from quantify_scheduler.backends.qblox.instrument_compilers import (
    ClusterCompiler,
    LocalOscillatorCompiler,
)
from quantify_scheduler.helpers.schedule import _extract_port_clocks_used
from quantify_scheduler.operations.control_flow_library import ControlFlowOperation
from quantify_scheduler.schedules.schedule import ScheduleBase

if TYPE_CHECKING:
    from quantify_scheduler import Schedule
    from quantify_scheduler.backends.qblox.compiler_abc import InstrumentCompiler
    from quantify_scheduler.backends.qblox_backend import (
        QbloxHardwareCompilationConfig,
        _ClusterCompilationConfig,
        _LocalOscillatorCompilationConfig,
    )
    from quantify_scheduler.operations.operation import Operation
    from quantify_scheduler.resources import Resource


[docs] class CompilerContainer: """ Container class that holds all the compiler objects for the individual instruments. This class serves to allow all the possible compilation steps that involve multiple devices at the same time, such as calculating the modulation frequency for a device with a separate local oscillator from a clock that is defined at the schedule level. It is recommended to construct this object using the ``from_hardware_cfg`` factory method. Parameters ---------- schedule The schedule to be compiled. """ def __init__(self, schedule: Schedule) -> None:
[docs] self.total_play_time = schedule.get_schedule_duration() / schedule.repetitions
""" The total duration of a single repetition of the schedule. """
[docs] self.resources = _extract_all_resources(schedule)
""" The resources attribute of the schedule. Used for getting the information from the clocks. """
[docs] self.clusters: dict[str, ClusterCompiler] = {}
"""Cluster compiler instances managed by this container instance."""
[docs] self.local_oscillators: dict[str, LocalOscillatorCompiler] = {}
"""Local oscillator compiler instances managed by this container instance."""
[docs] def prepare(self) -> None: """ Prepares all the instrument compilers contained in the class, by running their respective :code:`prepare` methods. """ for lo_compiler in self.local_oscillators.values(): lo_compiler.prepare() for cluster_compiler in self.clusters.values(): cluster_compiler.prepare( external_los=self.local_oscillators, schedule_resources=self.resources )
@property
[docs] def instrument_compilers(self) -> dict[str, InstrumentCompiler]: """The compilers for the individual instruments.""" return {**self.clusters, **self.local_oscillators}
[docs] def compile(self, debug_mode: bool, repetitions: int) -> dict[str, Any]: """ Performs the compilation for all the individual instruments. Parameters ---------- debug_mode Debug mode can modify the compilation process, so that debugging of the compilation process is easier. repetitions Amount of times to perform execution of the schedule. Returns ------- : Dictionary containing all the compiled programs for each instrument. The key refers to the name of the instrument that the program belongs to. """ compiled_schedule: dict[str, Any] = {} for name, compiler in self.clusters.items(): if ( compiled_instrument_program := compiler.compile( debug_mode=debug_mode, repetitions=repetitions ) ) is not None: compiled_schedule[name] = compiled_instrument_program for name, compiler in self.local_oscillators.items(): if ( compiled_instrument_program := compiler.compile( debug_mode=debug_mode, repetitions=repetitions ) ) is not None: if constants.GENERIC_IC_COMPONENT_NAME not in compiled_schedule: compiled_schedule[constants.GENERIC_IC_COMPONENT_NAME] = {} compiled_schedule[constants.GENERIC_IC_COMPONENT_NAME].update( compiled_instrument_program ) return compiled_schedule
[docs] def _add_cluster( self, name: str, instrument_cfg: _ClusterCompilationConfig, ) -> None: self.clusters[name] = ClusterCompiler( name=name, total_play_time=self.total_play_time, instrument_cfg=instrument_cfg, )
[docs] def _add_local_oscillator( self, name: str, instrument_cfg: _LocalOscillatorCompilationConfig ) -> None: self.local_oscillators[name] = LocalOscillatorCompiler( name=name, total_play_time=self.total_play_time, instrument_cfg=instrument_cfg, )
@classmethod
[docs] def from_hardware_cfg( cls, schedule: Schedule, hardware_cfg: QbloxHardwareCompilationConfig ) -> CompilerContainer: """ Factory method for the CompilerContainer. This is the preferred way to use the CompilerContainer class. Parameters ---------- schedule The schedule to pass to the constructor. hardware_cfg The hardware compilation config. """ composite = cls(schedule) instrument_configs = hardware_cfg._extract_instrument_compilation_configs( _extract_port_clocks_used(schedule) ) for ( instrument_name, cfg, ) in instrument_configs.items(): instrument_type = cfg.hardware_description.instrument_type if instrument_type == "Cluster": composite._add_cluster( name=instrument_name, instrument_cfg=cfg, ) elif instrument_type == "LocalOscillator": composite._add_local_oscillator( name=instrument_name, instrument_cfg=cfg, ) else: raise ValueError( f"{instrument_type} is not a known compiler type. Expected either a " "'Cluster' or a 'LocalOscillator'." ) return composite
[docs] def _extract_all_resources(operation: Operation | ScheduleBase) -> dict[str, Resource]: if isinstance(operation, ScheduleBase): resources: dict[str, Resource] = operation.resources for inner_operation in operation.operations.values(): resources.update(_extract_all_resources(inner_operation)) return resources elif isinstance(operation, ControlFlowOperation): return _extract_all_resources(operation.body) else: return {}