Source code for quantify_scheduler.gettables_profiled

# Repository: https://gitlab.com/quantify-os/quantify-scheduler
# Licensed according to the LICENCE file on the main branch
r"""
This module represents the Q-Profile quantum control electronics profiler.

Profiling of the control electronics is enabled by using the
:class:`ProfiledScheduleGettable` in place of
:class:`~.ScheduleGettable`.

.. note::

    The :class:`ProfiledScheduleGettable` is currently only tested to support Qblox hardware.
"""
import json
import os
import time

import numpy as np
import matplotlib.pyplot as plt

from qcodes import Instrument

from quantify_scheduler.gettables import ScheduleGettable
from quantify_scheduler.instrument_coordinator.instrument_coordinator import (
    InstrumentCoordinator,
)


[docs] def profiler(func): """ Decorator that reports the execution time of the decorated function and stores this in ``ProfiledInstrumentCoordinator.profile``. Parameters ---------- func: Callable Target function to be profiled. """ def wrap(self, *args, **kwargs): start = time.time() result = func(self, *args, **kwargs) end = time.time() if func.__name__ not in self.profile: self.profile[func.__name__] = [] self.profile[func.__name__].append(end - start) return result return wrap
[docs] class ProfiledInstrumentCoordinator(InstrumentCoordinator): """ Subclass of :class:`~.InstrumentCoordinator` that implements a profiling tool to log timing results. Time results are stored in ``ProfiledInstrumentCoordinator.profile``. :class:`ProfiledInstrumentCoordinator` is set up to be used when using :class:`ProfiledScheduleGettable`, code example: .. code-block:: python ic = InstrumentCoordinator(name="instrument_coordinator") quantum_device = QuantumDevice(name="quantum_device") quantum_device.instr_instrument_coordinator(ic.name) profiled_gettable = ProfiledScheduleGettable( quantum_device=quantum_device, schedule_function=..., schedule_kwargs=..., ) profiled_gettable.initialize() profiled_ic = ( profiled_gettable.quantum_device.instr_instrument_coordinator.get_instr() ) Parameters ---------- name: str Name of :class:`ProfiledInstrumentCoordinator` instance. parent_ic: InstrumentCoordinator Original :class:`~.InstrumentCoordinator`. """ def __init__(self, name: str, parent_ic: InstrumentCoordinator): self.profile = {"schedule": []} super().__init__(name, add_default_generic_icc=False) self.parent_ic = parent_ic self.plot = None @profiler
[docs] def add_component( self, component, ) -> None: self.parent_ic.add_component(component)
@profiler
[docs] def prepare( self, compiled_schedule, ) -> None: self.profile["schedule"].append(compiled_schedule.get_schedule_duration()) self.parent_ic.prepare(compiled_schedule)
@profiler
[docs] def start(self): self.parent_ic.start()
@profiler
[docs] def stop(self, allow_failure=False): self.parent_ic.stop()
@profiler
[docs] def retrieve_acquisition(self): self.parent_ic.retrieve_acquisition()
@profiler
[docs] def wait_done(self, timeout_sec: int = 10): self.parent_ic.wait_done(timeout_sec)
[docs] class ProfiledScheduleGettable(ScheduleGettable): """ To be used in place of :class:`~.ScheduleGettable` to enable profiling of the compilation. Logged execution times can be read from ``self.profile``, and plotted via :func:`plot_profile`. """ def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.profile = {} self.plot = None # Overwrite linked IC to a profiled IC self.instr_coordinator = ( self.quantum_device.instr_instrument_coordinator.get_instr() ) self.profiled_instr_coordinator = ProfiledInstrumentCoordinator( name="profiled_ic", parent_ic=self.instr_coordinator ) self.quantum_device.instr_instrument_coordinator( self.profiled_instr_coordinator.name ) @profiler
[docs] def _compile(self, sched): """Overwrite compile step for profiling.""" super()._compile(sched)
[docs] def close(self): """Cleanup new profiling instruments to avoid future conflicts.""" self.profile.update(self.profiled_instr_coordinator.profile) self.quantum_device.instr_instrument_coordinator(self.instr_coordinator.name) prof_ic = Instrument.find_instrument("profiled_ic") Instrument.close(prof_ic)
[docs] def log_profile( self, obj=None, path="profiling_logs", filename=None, indent: int = 4, separators=None, ): """Store profiling logs to json file.""" if not obj: obj = self.profile if not separators: separators = (",", ": ") if filename: if not os.path.exists(path): os.makedirs(path) file_path = os.path.join(path, filename) with open(file_path, "w", encoding="utf-8") as file: json.dump(obj, file, indent=indent, separators=separators) return self.profile
[docs] def plot_profile(self, path=None, filename="average_runtimes.pdf"): """Create barplot of accumulated profiling data.""" profile = self.profile time_ax = list(profile.keys()) num_keys = len(time_ax) x_pos = np.arange(num_keys) means = [np.mean(x) for x in profile.values()] error = [np.std(x) for x in profile.values()] fig, ax = plt.subplots(figsize=(9, 6)) color = ["r", "b", "c", "m", "k", "g", "y"][:num_keys] ax.bar(x_pos, means, yerr=error, color=color) ax.bar(num_keys, means[0], color=color[0]) for i in range(1, num_keys): ax.bar(num_keys, means[i], color=color[i], bottom=sum(means[:i])) time_ax.append("total") ax.set_xticks(np.append(x_pos, num_keys)) ax.set_xticklabels(time_ax) self.plot = (fig, ax) plt.ylabel("runtime [s]") plt.title("Average runtimes") file_path = os.path.join(path, filename) if path else filename fig.savefig(file_path)