# Repository: https://gitlab.com/quantify-os/quantify-scheduler
# Licensed according to the LICENCE file on the main branch
from quantify_scheduler.schedules.schedule import Schedule
from quantify_scheduler.operations.acquisition_library import Trace
from quantify_scheduler.operations.gate_library import Measure
from quantify_scheduler.operations.pulse_library import IdlePulse, SquarePulse
from quantify_scheduler.resources import ClockResource
# pylint: disable=too-many-arguments
[docs]def trace_schedule(
pulse_amp: float,
pulse_duration: float,
pulse_delay: float,
frequency: float,
acquisition_delay: float,
integration_time: float,
port: str,
clock: str,
init_duration: int = 200e-6,
repetitions: int = 1,
) -> Schedule:
"""
Generate a schedule to perform raw trace acquisition.
Parameters
----------
pulse_amp :
The amplitude of the pulse in Volt.
pulse_duration
The duration of the pulse in seconds.
pulse_delay
The pulse delay in seconds.
frequency
The frequency of the pulse and of the data acquisition in Hertz.
acquisition_delay
The start of the data acquisition with respect to the start of the pulse in
seconds.
integration_time
The time in seconds to integrate.
port
The location on the device where the
pulse should be applied.
clock
The reference clock used to track the pulse frequency.
init_duration
The relaxation time or dead time.
repetitions
The amount of times the Schedule will be repeated.
Returns
-------
:
The Raw Trace acquisition Schedule.
"""
schedule = Schedule("Raw trace acquisition", repetitions)
schedule.add_resource(ClockResource(name=clock, freq=frequency))
schedule.add(IdlePulse(duration=init_duration), label="Dead time")
pulse = schedule.add(
SquarePulse(
duration=pulse_duration,
amp=pulse_amp,
port=port,
clock=clock,
),
label="trace_pulse",
rel_time=pulse_delay,
)
schedule.add(
Trace(
duration=integration_time,
port=port,
clock=clock,
acq_index=0,
acq_channel=0,
),
ref_op=pulse,
ref_pt="start",
rel_time=acquisition_delay,
label="acquisition",
)
return schedule
[docs]def trace_schedule_circuit_layer(
qubit_name: str,
repetitions: int = 1,
) -> Schedule:
"""
Generate a simple schedule at circuit layer to perform raw trace acquisition.
Parameters
----------
qubit_name
Name of a device element.
repetitions
The amount of times the Schedule will be repeated.
Returns
-------
:
The Raw Trace acquisition Schedule.
"""
schedule = Schedule("Raw trace acquisition", repetitions)
schedule.add(Measure(qubit_name, acq_protocol="Trace"))
return schedule
# pylint: disable=too-many-arguments
# pylint: disable=too-many-locals
[docs]def two_tone_trace_schedule(
qubit_pulse_amp: float,
qubit_pulse_duration: float,
qubit_pulse_frequency: float,
qubit_pulse_port: str,
qubit_pulse_clock: str,
ro_pulse_amp: float,
ro_pulse_duration: float,
ro_pulse_delay: float,
ro_pulse_port: str,
ro_pulse_clock: str,
ro_pulse_frequency: float,
ro_acquisition_delay: float,
ro_integration_time: float,
init_duration: float = 200e-6,
repetitions: int = 1,
) -> Schedule:
"""
Generate a schedule for performing a two-tone raw trace acquisition.
Parameters
----------
qubit_pulse_amp
The amplitude of the pulse in Volt.
qubit_pulse_duration
The duration of the pulse in seconds.
qubit_pulse_frequency
The pulse frequency in Hertz.
qubit_pulse_port
The location on the device where the
qubit pulse should be applied.
spec_pulse_clock
The reference clock used to track the
pulse frequency.
ro_pulse_amp
The amplitude of the readout pulse in Volt.
ro_pulse_duration
The duration of the readout pulse in seconds.
ro_pulse_delay
The time between the end of the pulse and the start
of the readout pulse.
ro_pulse_port
The location on the device where the
readout pulse should be applied.
ro_pulse_clock
The reference clock used to track the
readout pulse frequency.
ro_pulse_frequency
The readout pulse frequency in Hertz.
ro_acquisition_delay
The start of the data acquisition with respect to
the start of the pulse in seconds.
ro_integration_time
The integration time of the data acquisition in seconds.
init_duration :
The relaxation time or dead time.
repetitions
The amount of times the Schedule will be repeated.
Returns
-------
:
The Two-tone Trace acquisition Schedule.
"""
schedule = Schedule("Two-tone Trace acquisition", repetitions)
schedule.add_resource(
ClockResource(name=qubit_pulse_clock, freq=qubit_pulse_frequency)
)
schedule.add_resource(ClockResource(name=ro_pulse_clock, freq=ro_pulse_frequency))
schedule.add(
IdlePulse(duration=init_duration),
label="Reset",
)
schedule.add(
SquarePulse(
duration=qubit_pulse_duration,
amp=qubit_pulse_amp,
port=qubit_pulse_port,
clock=qubit_pulse_clock,
),
label="qubit_pulse",
)
ro_pulse = schedule.add(
SquarePulse(
duration=ro_pulse_duration,
amp=ro_pulse_amp,
port=ro_pulse_port,
clock=ro_pulse_clock,
),
label="readout_pulse",
rel_time=ro_pulse_delay,
)
schedule.add(
Trace(
duration=ro_integration_time,
port=ro_pulse_port,
clock=ro_pulse_clock,
acq_index=0,
acq_channel=0,
),
ref_op=ro_pulse,
ref_pt="start",
rel_time=ro_acquisition_delay,
label="acquisition",
)
return schedule