def onRecordStartRequested():
for channel in channels:
item = items[channel]
if item.checkState() is QtCore.Qt.CheckState.Checked:
recording.append(channel)
item.setForeground(
QtGui.QBrush(
QtGui.QColor('red')
)
)
relPath, fileName = filenameGen(self.MEASUREMENT_TYPE)
absPath = os.path.join(POOHDATAPATH,relPath)
checkPath(absPath)
self.fileName = os.path.join(absPath,fileName+'.txt')
with open(self.fileName,'w+') as file:
file.write(
'%s\n' % '\t'.join(
['time'] + [
items[channel].text().replace('\t','_')
for channel in
recording
]
)
)
recordToggle.toggle()
def saveFile(dataToSave,prefix):
dir, filePrefix = filenameGen()
dir = join(POOHDATAPATH,dir)
checkPath(dir)
subDir = QtGui.QFileDialog.getExistingDirectory(self,'select folder', dir)
desc, valid = QtGui.QInputDialog.getText(self, 'enter file description','description' )
if not valid:
desc = None
else:
saveCSV(dataToSave, subDir=subDir, description=prefix+'_'+desc)
def onRecordStartRequested():
for channel in channels:
item = items[channel]
if item.checkState() is QtCore.Qt.CheckState.Checked:
recording.append(channel)
item.setForeground(QtGui.QBrush(QtGui.QColor('red')))
relPath, fileName = filenameGen(self.MEASUREMENT_TYPE)
absPath = os.path.join(POOHDATAPATH, relPath)
checkPath(absPath)
self.fileName = os.path.join(absPath, fileName + '.txt')
with open(self.fileName, 'w+') as file:
file.write('%s\n' % '\t'.join(['time'] + [
items[channel].text().replace('\t', '_')
for channel in recording
]))
recordToggle.toggle()
def onReady():
vm_prot = yield getProtocol(VOLTMETER_SERVER)
sm_prot = yield getProtocol(STEPPER_MOTOR_SERVER)
dg_prot = yield getProtocol(DELAY_GENERATOR_SERVER)
vm = VoltMeterClient(vm_prot)
sm = StepperMotorClient(sm_prot,POL)
dg = DelayGeneratorClient(dg_prot)
delays = yield dg.getDelays()
pumpTime = delays[MAV_PUMP_QSW]
times = np.arange(TIME_START+pumpTime,TIME_STOP+pumpTime+TIME_STEP,TIME_STEP)
angles = np.arange(ANGLE_START,ANGLE_STOP+ANGLE_STEP,ANGLE_STEP)
channels = yield vm.getChannels()
channel = yield selectFromList(channels,'pick the mcp channel')
trans = yield selectFromList(['Q3','S3','Q1'],'pick the transition you are at')
bsang = yield selectFromList(['020','110'],'pick the angle of the beam splitter')
for i in range(REPEAT):
for angle in np.concatenate((angles,angles[::-1])):
yield sm.setPosition(int(degrees_to_steps(angle)))
angleStr = str(angle).zfill(3)
relPath, fileName = filenameGen(path.join(trans,'TimeOfFlight','BS'+str(bsang),'HWP'+angleStr))
absPath = path.join(POOHDATAPATH,relPath)
checkPath(absPath)
logName = path.join(absPath,fileName+'.tsv')
thisLog = LogFile(logName)
for time in times[::-1]:
yield dg.setPartnerDelay(MAV_PROBE_QSW, int(time))
voltage, std = yield vm.getNVoltages(channel,SHOTS)
stdom = std/np.sqrt(SHOTS)
print (angle,time-pumpTime,voltage,stdom)
thisLog.update([time,voltage,stdom])
thisLog.close()
print BELL
if WAIT_FOR_TUNE:
pause(None,None)
reactor.stop()
def onReady():
vm_prot = yield getProtocol(VOLTMETER_SERVER)
sm_prot = yield getProtocol(STEPPER_MOTOR_SERVER)
vm = VoltMeterClient(vm_prot)
sm = StepperMotorClient(sm_prot,POL)
channels = yield vm.getChannels()
channel = yield selectFromList(channels,'pick the mcp channel')
trans = yield selectFromList(['Q3','S3','Q1'],'pick the transition you are at')
bsang = yield selectFromList(['020','110'],'pick the angle of the beam splitter')
# #suffix = yield selectFromList(['pump','unpump'],'are you pumping?')
suffix = 'mBeamOff_diffZeroed'
numPoints = (ANGLE_STOP-ANGLE_START+1)/ANGLE_STEP
totalAcqTime = SWEEPS*2*(SHOTS/10.)*numPoints
totalStepTime = ((ANGLE_STEP*SLOPE)/500.)*numPoints
print 'ETA is: '+str((totalAcqTime + totalStepTime)/60.)+' minutes.'
for sweep in range(SWEEPS):
for direction in (FORWARDS,BACKWARDS):
relPath, fileName = filenameGen(trans)
absPath = path.join(POOHDATAPATH,relPath)
checkPath(absPath)
logName = path.join(absPath,fileName+'_pol_sweep_'+bsang+'_'+suffix+'.tsv')
thisLog = LogFile(logName)
for angle in {
FORWARDS:forwards,
BACKWARDS:backwards
}[direction]:
yield sm.setPosition(int(degrees_to_steps(angle)))
voltage, std = yield vm.getNVoltages(channel,SHOTS)
stdom = std/np.sqrt(SHOTS)
print (sweep,angle,voltage, stdom)
thisLog.update([angle,voltage,stdom])
thisLog.close()
reactor.stop()
def onRecordStartRequested():
# build a list of selected channels, record only those, set text color to red
for channel in channels:
tile = tiles[channel]
if tile.checkState() is QtCore.Qt.CheckState.Checked:
recording.append(channel)
tile.setForeground(
QtGui.QBrush(
QtGui.QColor('red')
)
)
# initialize logfile in today's folder / voltmeter / start time
relPath, fileName = filenameGen(self.MEASUREMENT_TYPE)
absPath = os.path.join(POOHDATAPATH,relPath)
checkPath(absPath)
logName = os.path.join(absPath,fileName+'.txt')
self.LogFile = LogFile(logName)
headerLine = []
for channel in recording:
headerLine.append(tiles[channel].text().replace('\t','_'))
self.LogFile.update(headerLine)
recordToggle.toggle()
