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artiq_experiments
Commit 282ee988 authored by Nicolas Nunez Barreto's avatar Nicolas Nunez Barreto
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agrego todo antes de cagarla

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artiq_master/repository/Experiments/Spectrum/With_calibration/Mixed/Both_spectrum_withcalib_delaysfixed_TwoIRLasers.py 0 → 100644
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from artiq.experiment import *
from pyLIAF.artiq.controllers import UrukulCh
#from artiq.coredevice.ad9910 import PHASE_MODE_ABSOLUTE
import time
import numpy as np
class BothLasers_Scan_withcal_optimized(EnvExperiment):
"""PENDING - Frequency sweep for all lasers"""
def build(self):
# Agrego kernel invariants a ver si mejoro algo de la performance
kernel_invariants = getattr(self, 'kernel_invariants', set())
self.kernel_invariants = kernel_invariants | {"no_measures", "t_cool", "t_trans", "t_readout"}
self.setattr_device("core")
self.setattr_device("ccb")
self.pmt = self.get_device("ttl0")
self.laserUV = UrukulCh(self, ch=2, freq=110.0, amp=0.3, name="UV") #corresponde a 0.7 Vpp
self.laserIR1 = UrukulCh(self, ch=1, freq=208.0, amp=0.35, name="IR1") #corresponde a 0.8 Vpp
self.laserIR2 = UrukulCh(self, ch=3, freq=80.0, amp=0.2, name="IR2") #corresponde a 0.8 Vpp
self.laserIR2shift = UrukulCh(self, ch=0, freq=270.0, amp=0.7, name="IR2shift") #corresponde a 0.8 Vpp
self.setattr_argument("Fine_scan", BooleanValue(1==0), "Experiment params")
self.setattr_argument("no_measures",
NumberValue(2000, min=1, ndecimals=0, step=1),
"Experiment params")
self.setattr_argument(f"IR1_cooling_freq",
NumberValue(229*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"Cooling params")
self.setattr_argument(f"IR1_cooling_amp",
NumberValue(0.25, min=0.0, max=0.35),
"Cooling params")
self.setattr_argument(f"UV_cooling_freq",
NumberValue(112*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"Cooling params")
self.setattr_argument(f"UV_cooling_amp",
NumberValue(0.1, min=0.0, max=0.3),
"Cooling params")
self.setattr_argument(f"IR2_cooling_freq",
NumberValue(80*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"Cooling params")
self.setattr_argument(f"IR2_cooling_amp",
NumberValue(0.3, min=0.0, max=0.8),
"Cooling params")
self.setattr_argument(f"UV_CPT_freq",
NumberValue(118*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"CPT params")
self.setattr_argument(f"UV_CPT_amp",
NumberValue(0.1, min=0.000, max=0.300, step=0.001),
"CPT params")
self.setattr_argument(f"IR2_CPT_freq",
NumberValue(85*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"CPT params")
self.setattr_argument(f"IR2_CPT_amp",
NumberValue(0.3, min=0., max=0.8),
"CPT params")
self.setattr_argument(f"IR1_final_freq",
NumberValue(229*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"Final params")
self.setattr_argument(f"IR1_final_amp",
NumberValue(0.23, min=0.0, max=0.35),
"Final params")
self.setattr_argument(f"UV_final_freq",
NumberValue(115*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"Final params")
self.setattr_argument(f"UV_final_amp",
NumberValue(0.11, min=0.0, max=0.3),
"Final params")
self.setattr_argument(f"IR2_final_freq",
NumberValue(80*MHz, unit='MHz', scale=MHz, min=1*MHz, max=400*MHz),
"Final params")
self.setattr_argument(f"IR2_final_amp",
NumberValue(0.3, min=0.0, max=0.8),
"Final params")
self.setattr_argument(f"t_cool",
NumberValue(1000*us, unit='us', scale=us, min=1*us),
"Experiment params")
self.setattr_argument(f"t_trans",
NumberValue(10*us, unit='us', scale=us, min=1*us),
"Experiment params")
self.setattr_argument(f"t_readout",
NumberValue(50*us, unit='us', scale=us, min=1*us),
"Experiment params")
self.setattr_argument(f"t_heating",
NumberValue(1*ms, unit='ms', scale=ms),
"Experiment params")
self.setattr_argument("Heating", BooleanValue(1==0), "Experiment params")
self.setattr_argument("Scan_type",
EnumerationValue(["Calibrated_scan", "Defined_scan"]),
"Scan params")
self.setattr_argument("Scanning_frequencies", Scannable(
default=CenterScan(210*MHz, 20*MHz, 0.1*MHz),
unit="MHz",
scale=MHz,
global_min = 1*MHz,
global_max = 400*MHz
),
"Scan params")
self.setattr_argument("Comments", StringValue(" "), "General comments")
@rpc
def create_datasets(self):
#self.set_dataset("measurements", np.zeros(len(self.UV_Freqs.sequence)*self.no_measures, dtype=int), broadcast=True, archive=True)
#self.set_dataset("counts_spectrum", np.zeros(len(self.UV_Freqs.sequence), dtype=int), broadcast=True, archive=True)
#self.set_dataset("UV_frequencies", self.UV_Freqs.sequence, broadcast=True, archive=True)
#self.set_dataset("UV_amplitudes", self.Test_Experiment_amps, broadcast=True, archive=True)
#freqs = self.get_dataset("UV_Frequencies")
self.set_dataset("no_measures", self.no_measures, broadcast=True, archive=True)
#self.set_dataset("no_frequencies", len(self.UV_Freqs.sequence), broadcast=True, archive=True)
self.set_dataset("IR1_cooling_freq", self.IR1_cooling_freq, broadcast=False, archive=True)
self.set_dataset("IR1_cooling_amp", self.IR1_cooling_amp, broadcast=False, archive=True)
self.set_dataset("UV_cooling_freq", self.UV_cooling_freq, broadcast=False, archive=True)
self.set_dataset("UV_cooling_amp", self.UV_cooling_amp, broadcast=False, archive=True)
self.set_dataset("IR2_cooling_freq", self.IR2_cooling_freq, broadcast=False, archive=True)
self.set_dataset("IR2_cooling_amp", self.IR2_cooling_amp, broadcast=False, archive=True)
self.set_dataset("UV_CPT_freq", self.UV_CPT_freq, broadcast=False, archive=True)
self.set_dataset("UV_CPT_amp", self.UV_CPT_amp, broadcast=False, archive=True)
self.set_dataset("IR2_CPT_freq", self.IR2_CPT_freq, broadcast=False, archive=True)
self.set_dataset("IR2_CPT_amp", self.IR2_CPT_amp, broadcast=False, archive=True)
self.set_dataset("t_cool", self.t_cool, broadcast=False, archive=True)
self.set_dataset("t_trans", self.t_trans, broadcast=False, archive=True)
self.set_dataset("t_readout", self.t_readout, broadcast=False, archive=True)
self.set_dataset("t_heating", self.t_heating, broadcast=False, archive=True)
self.set_dataset("Comments", self.Comments, broadcast=False, archive=True)
#self.set_dataset("calibration", self.get_dataset())
#self.laserIR1.generate_dataset()
#self.laserUV.generate_dataset()
@rpc(flags={"async"})
def create_applets(self, no_freqs):
self.ccb.issue("create_applet", "IR_espectro_fixeddelays",
"${python} -m pyLIAF.artiq.applets.plot_xy "
"counts_spectrum "
"--x IR1_Frequencies")
self.ccb.issue("create_applet", "Scanning_amps",
"${python} -m pyLIAF.artiq.applets.plot_xy "
"IR1_Amplitudes "
"--x IR1_Frequencies")
@rpc
def Get_Calibrated_Frequencies(self) -> TList(TFloat):
if self.Fine_scan:
Calibrated_Experiment_freqs = self.get_dataset("Experiment_freqs_IR_fine")
else:
Calibrated_Experiment_freqs = self.get_dataset("Experiment_freqs_IR")
self.set_dataset("IR1_Frequencies_calibrated", np.array(Calibrated_Experiment_freqs), broadcast=True, archive=True)
if self.Scan_type == "Calibrated_scan":
Experiment_freqs = Calibrated_Experiment_freqs
elif self.Scan_type == "Defined_scan":
Experiment_freqs = self.Scanning_frequencies.sequence
self.set_dataset("IR1_Frequencies", np.array(Experiment_freqs), broadcast=True, archive=True)
self.set_dataset("no_freqs", len(Calibrated_Experiment_freqs), broadcast=True, archive=True)
self.set_dataset("counts_spectrum", np.zeros(len(Experiment_freqs), dtype=int), broadcast=True, archive=True)
return Experiment_freqs
@rpc
def Get_Calibrated_Amplitudes(self) -> TList(TFloat):
if self.Fine_scan:
Calibrated_Experiment_amps = list(self.get_dataset("Experiment_amps_IR_fine"))
else:
Calibrated_Experiment_amps = list(self.get_dataset("Experiment_amps_IR"))
self.set_dataset("IR1_Amplitudes_calibrated", Calibrated_Experiment_amps, broadcast=True, archive=True)
if self.Scan_type == "Calibrated_scan":
Experiment_amps = Calibrated_Experiment_amps
elif self.Scan_type == "Defined_scan":
Experiment_amps = []
Experiment_freqs = self.Scanning_frequencies.sequence
if self.Fine_scan:
Calibrated_Experiment_freqs = self.get_dataset("Experiment_freqs_IR_fine")
else:
Calibrated_Experiment_freqs = self.get_dataset("Experiment_freqs_IR")
for f in Experiment_freqs:
idx = (np.abs(np.asarray(Calibrated_Experiment_freqs) - f)).argmin() #busco el valor mas cercano en las freqs calibradas
Experiment_amps.append(Calibrated_Experiment_amps[idx])
self.set_dataset("IR1_Amplitudes", Experiment_amps, broadcast=True, archive=True)
return Experiment_amps
@kernel
def run(self):
t_cool_mu = self.core.seconds_to_mu(self.t_cool) # Precomputo esto para despues
cuentas = 0
Freqs = self.Get_Calibrated_Frequencies()
#Freqs = self.UV_Freqs.sequence
Amps = self.Get_Calibrated_Amplitudes()
self.create_datasets()
self.create_applets(len(Freqs))
self.init_kernel()
delay(1*ms)
self.laserIR1.on()
self.laserIR2.on()
self.laserIR2shift.on()
self.laserUV.on()
self.enfriar_ion()
iter_index = 0
while iter_index < len(Freqs):
#print(Freqs[iter_index])
#print(Amps[iter_index])
Accumulated_counts = 0
delay(10000*us)
self.laserIR1.set_frequency(Freqs[iter_index], Amps[iter_index], profile=1) # Cambio la frec del perfil 1 (estoy en el 0)
for runN in range(self.no_measures):
if runN % 20 == 0:
delay(self.t_cool)
else:
delay(100*us)
if self.Heating:
self.laserUV.off()
delay(self.t_heating)
self.laserUV.on()
#self.enfriar_ion()
#delay(0.001*self.t_heating)
cuentas = self.readout() # Hago la medicion y vuelvo con las cuentas
Accumulated_counts = Accumulated_counts + cuentas
self.mutate_dataset("counts_spectrum", iter_index, Accumulated_counts)
delay(5000*us)
iter_index = iter_index + 1
delay(500*us)
self.laserUV.select_profile(1)
self.laserIR1.select_profile(1)
self.laserIR2.select_profile(1)
self.laserUV.set_frequency(self.UV_final_freq, self.UV_final_amp, profile=1)
self.laserIR2shift.set_frequency(270*MHz, 0.7, profile=1)
self.laserIR1.set_frequency(self.IR1_final_freq, self.IR1_final_amp, profile=1)
self.laserIR2.set_frequency(self.IR2_final_freq, self.IR2_final_amp, profile=1)
print("jose maria listorti")
@kernel
def init_kernel(self):
self.core.reset()
self.pmt.input()
#self.laserUV.initialize_channel()
#self.laserIR.initialize_channel()
delay(1*ms)
# Seteo los perfiles 0 y 1 con los mismos valores
# el 0 va a ser el de ENFRIADO, el 1 va a ser el de MEDICION y el 2 va a ser de CALENTAMIENTO
self.laserIR1.set_channel()
self.laserUV.set_channel()
self.laserIR2.set_channel()
self.laserIR2shift.set_channel()
self.laserIR1.set_frequency(self.IR1_cooling_freq, self.IR1_cooling_amp, profile=0)
self.laserIR2shift.set_frequency(270*MHz, 0.7, profile=0)
self.laserUV.set_frequency(self.UV_cooling_freq, self.UV_cooling_amp, profile=0)
self.laserIR2.set_frequency(self.IR2_cooling_freq, self.IR2_cooling_amp, profile=0)
self.laserIR1.set_channel(profile=1)
self.core.break_realtime()
self.laserUV.set_channel(profile=1)
self.core.break_realtime()
self.laserIR2shift.set_channel(profile=1)
self.core.break_realtime()
self.laserIR2.set_channel(profile=1)
self.core.break_realtime()
self.laserUV.set_frequency(self.UV_CPT_freq, self.UV_CPT_amp, profile=1)
#self.laserUV.set_frequency(self.UV_CPT_freq, 0.07, profile=1)
self.core.break_realtime()
self.laserIR2.set_frequency(self.IR2_CPT_freq, self.IR2_CPT_amp, profile=1)
self.core.break_realtime()
self.laserIR2shift.set_frequency(270*MHz, 0.7, profile=1)
#self.laserTISA.set_frequency(self.TISA_CPT_freq, 0.035, profile=1)
self.core.break_realtime()
#self.laserIR1.set_channel(profile=2)
#self.core.break_realtime()
#self.laserUV.set_channel(profile=2)
#self.core.break_realtime()
#self.laserIR2.set_channel(profile=2)
#self.core.break_realtime()
#self.laserIR2shift.set_channel(profile=2)
#self.core.break_realtime()
#self.laserIR1.set_frequency(self.IR1_cooling_freq, self.IR1_cooling_amp, profile=2)
#self.core.break_realtime()
#self.laserIR2shift.set_frequency(270*MHz, 0.7, profile=2)
#self.core.break_realtime()
#self.laserUV.set_frequency(self.UV_cooling_freq, self.UV_cooling_amp, profile=2)
#self.core.break_realtime()
#self.laserIR2.set_frequency(self.IR2_cooling_freq, self.IR2_cooling_amp, profile=2)
# Me aseguro que todo termine antes de seguir
self.core.break_realtime()
self.core.wait_until_mu(now_mu())
@kernel
def enfriar_ion(self):
"""Enfrio llevando el laser IR a una cierta frecuencia"""
self.laserIR1.select_profile(0) # Pongo el laser en el perfil referencia
self.laserUV.select_profile(0) # Pongo el laser en el perfil referencia
self.laserIR2.select_profile(0)
self.laserIR2shift.select_profile(0)
@kernel
def calentar_ion(self):
"""Caliento el ion por un tiempo determinado apagando el laser UV"""
self.laserUV.off()
@kernel
def readout(self) -> TInt64:
"""Registro de cuentas emitidas"""
self.laserUV.select_profile(1) # Paso al perfil que cambia
self.laserIR1.select_profile(1) # Paso al perfil que cambia
self.laserIR2.select_profile(1) # Paso al perfil que cambia
self.laserIR2shift.select_profile(1)
delay(self.t_trans)
here = self.pmt.gate_rising(self.t_readout) # Que mida durante t_readout
self.enfriar_ion() # ya pongo a enfriar, asi todos los retardos estan enfriando
return self.pmt.count(here) # recupero las cuentas medidas
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