Source code for quantify_scheduler.operations.control_flow_library
# Repository: https://gitlab.com/quantify-os/quantify-scheduler
# Licensed according to the LICENCE file on the main branch
"""Standard control flow operations for use with the quantify_scheduler."""
from __future__ import annotations
from quantify_scheduler.operations.operation import Operation
[docs]
class Loop(Operation):
"""
Loop over another operation.
Cannot be added to Schedule manually, to be used with the ``control_flow`` arg of
Schedule.add
Parameters
----------
repetitions : int
number of repetitions
t0 : float, optional
time offset, by default 0
"""
def __init__(self, repetitions: int, t0: float = 0) -> None:
super().__init__(name="Loop")
self.data.update(
{
"name": "Loop",
"control_flow_info": {
"t0": t0,
"repetitions": repetitions,
},
}
)
self._update()
def __str__(self) -> str:
"""
Represent the Operation as string.
Returns
-------
str
description
"""
return self._get_signature(self.data["control_flow_info"])
[docs]
class Conditional(Operation):
"""
Conditional operation.
Cannot be added to Schedule manually, to be used with the `control_flow` arg
of :meth:`~quantify_scheduler.schedules.schedule.Schedule.add`.
When passing ``control_flow=Conditional(<qubit_name>)`` to ``Schedule.add``,
the subschedule will be *conditional* on ``qubit_name``. In other
words, if a preceding thresholded acquisition on ``qubit_name`` results in a "1", the
subschedule will be executed, otherwise it will generate a wait time that is
equal to the time of the subschedule, to ensure the absolute timing of later
operations remains consistent.
Parameters
----------
qubit_name: str
The name of the qubit to condition on.
t0 : float, optional
Time offset, by default 0
Example
-------
A conditional reset can be implemented as follows:
.. admonition:: example
# relevant imports
from quantify_scheduler import Schedule
from quantify_scheduler.operations.control_flow_library import Conditional
from quantify_scheduler.operations.gate_library import Measure, X
# define schedule
schedule = Schedule("main schedule")
# define a subschedule containing conditional reset
conditional_reset = Schedule("conditional reset")
conditional_reset.add(Measure("q0", feedback_trigger_label="q0"))
sub_schedule = Schedule("conditional x")
sub_schedule.add(X("q0"))
conditional_reset.add(sub_schedule, control_flow=Conditional("q0"))
# add conditional reset as if it were a gate
schedule.add(conditional_reset)
"""
def __init__(self, qubit_name: str, t0: float = 0) -> None:
class_name = self.__class__.__name__
super().__init__(name=class_name)
self.data.update(
{
"name": class_name,
"control_flow_info": {
"qubit_name": qubit_name,
"t0": t0,
"feedback_trigger_label": qubit_name,
},
}
)
self._update()
def __str__(self) -> str:
"""
Represent the Operation as string.
Returns
-------
str
The string representation of this operation.
"""
return self._get_signature(self.data["control_flow_info"])
