class Frequency(ConductorParameter):
priority = 1
autostart = False
call_in_thread = True
rf_devicename = 'Beatnote_689'
value = None
def initialize(self, config):
super(Frequency, self).initialize(config)
self._update = UpdateProxy(
'Red-B beatnote') # Should have the same name as in GUI client..
self.connect_to_labrad()
def update(self):
is_end = self.server.is_end
try:
parameter_values = self.server.experiment['parameter_values']
if (not is_end) and ('red_mot.beatnote' in parameter_values):
request = {self.rf_devicename: self.value} # ADD
response_json = self.cxn.rf.frequencies(json.dumps(request))
self.value = json.loads(response_json)[self.rf_devicename]
self._update.emit({
'frequency': self.value
}) # Will update value on client.. in principle..
except:
pass
class IsLocked(ConductorParameter, _mot.DeviceProxy):
autostart = False
priority = 1
def initialize(self, config):
super(IsLocked, self).initialize(config)
self._update = UpdateProxy('mot')
def update(self):
power = self.power
self.value = bool(power > self._locked_threshold)
self._update.emit({'power': power})
class IsLocked(ConductorParameter, blue_slave_3.BlueSlave3Proxy):
autostart = True
priority = 1
call_in_thread = True
def initialize(self, config):
super(IsLocked, self).initialize(config)
self._update = UpdateProxy('Blue Slave 3')
callInThread(self.update)
def update(self):
moncurrent = self.moncurrent
lock_threshold = self.threshold
self.value = bool(moncurrent > lock_threshold)
self._update.emit({'moncurrent': moncurrent})
class ModulationFrequency(ConductorParameter):
priority = 1
autostart = False
call_in_thread = True
rf_devicename = 'Lattice_Modulation' # name in /rf/devices
value = None
def initialize(self, config):
super(ModulationFrequency, self).initialize(config)
self._update = UpdateProxy(
'Red-B beatnote'
) # Should have the same name as in main GUI client..
self.connect_to_labrad()
def update(self):
experiment = self.server.experiment
is_first = self.server.is_first
is_end = self.server.is_end
try:
parameter_values = self.server.experiment['parameter_values']
if (experiment is not None) and ('lattice.ModulationFrequency'
in parameter_values):
if is_first:
request = {self.rf_devicename: True} # True for ON
response_json = self.cxn.rf.states(json.dumps(request))
response = json.loads(response_json)
self._update.emit({'state2': response[self.rf_devicename]})
request = {self.rf_devicename: self.value} # ADD
response_json = self.cxn.rf.frequencies(json.dumps(request))
self.value = json.loads(response_json)[self.rf_devicename]
except:
pass
if is_end and (self.value is not None):
request = {self.rf_devicename: False} # False for OFF
response_json = self.cxn.rf.states(json.dumps(request))
response = json.loads(response_json)
self._update.emit({'state2': response[self.rf_devicename]})
self.value = None
class IsLocked(ConductorParameter, blue_slave_1.BlueSlave1Proxy):
autostart = True
priority = 1
call_in_thread = True
def initialize(self, config):
super(IsLocked, self).initialize(config)
self._update = UpdateProxy(
'Blue Slave 1'
) # Should have the same name as in current controller client..
callInThread(self.update)
def update(self):
moncurrent = self.moncurrent
lock_threshold = self.threshold
self.value = bool(moncurrent > lock_threshold)
self._update.emit({
'moncurrent': moncurrent
}) # Will update value on current controller.. in principle..
class Frequency(ConductorParameter):
priority = 1
autostart = False
call_in_thread = True
rf_devicename = 'AOM_blue2'
value = None
def initialize(self, config):
super(Frequency, self).initialize(config)
self._update = UpdateProxy(
'AOM_blue2') # Should have the same name as in rf2 client..
self.connect_to_labrad()
def update(self):
is_end = self.server.is_end
if not is_end:
request = {self.rf_devicename: self.value} # ADD
response_json = self.cxn.rf.frequencies(json.dumps(request))
self.value = json.loads(response_json)[self.rf_devicename]
self._update.emit({
'frequency': self.value
}) # Will update value on current controller.. in principle..
def initialize(self, config):
super(ModulationAmplitude, self).initialize(config)
self._update = UpdateProxy(
'Red-B beatnote'
) # Should have the same name as in main GUI client..
self.connect_to_labrad()
def initialize(self, config):
super(IsLocked, self).initialize(config)
self._update = UpdateProxy('Blue Slave 3')
callInThread(self.update)
def initialize(self, config):
super(Frequency, self).initialize(config)
self._update = UpdateProxy(
'Red-B beatnote') # Should have the same name as in GUI client..
self.connect_to_labrad()
class FrequencyModulation(ConductorParameter):
priority = 9
autostart = True
call_in_thread = False
afg_devicename = 'FM'
rf_devicename_A = 'MoglabsARF_689A'
rf_devicename_B = 'MoglabsARF_689B'
value_type = 'dict'
# Scales are set to 100%, so max output is +- 1V.
default_waveforms = {
'red_mot_87': {
'A': {
'wfm': 'U:/red_mot/RM87A.tfw',
'scale': 100,
'source': 1,
'fm_gain': 4.19e6
},
'B': {
'wfm': 'U:/red_mot/RM88B.tfw',
'scale': 100,
'source': 2,
'fm_gain': 0.7e6
}
},
'red_mot_88': {
'A': {
'wfm': 'U:/red_mot/RM88B.tfw',
'scale': 100,
'source': 1,
'fm_gain': 2.5e6
},
'B': {
'wfm': 'U:/red_mot/RM88B.tfw',
'scale': 100,
'source': 2,
'fm_gain': 2.5e6
}
},
'red_mot_87_fast': {
'A': {
'wfm': 'U:/red_mot/RM87A.tfw',
'scale': 100,
'source': 1,
'fm_gain': 4.19e6
},
'B': {
'wfm': 'U:/red_mot/RM87B.tfw',
'scale': 100,
'source': 2,
'fm_gain': 0.7e6
}
},
'red_mot_88_fast': {
'A': {
'wfm': 'U:/red_mot/RM88B.tfw',
'scale': 100,
'source': 1,
'fm_gain': 2.5e6
},
'B': {
'wfm': 'U:/red_mot/RM88B.tfw',
'scale': 100,
'source': 2,
'fm_gain': 2.5e6
}
},
'in_lattice_cooling_87': {
'A': {
'wfm': 'U:/in_lattice_cooling/ILC87A.tfw',
'scale': 100,
'source': 1,
'fm_gain': 4.19e6
},
'B': {
'wfm': 'U:/in_lattice_cooling/ILC87B.tfw',
'scale': 100,
'source': 2,
'fm_gain': 0.7e6
}
},
'in_lattice_cooling_88': {
'A': {
'wfm': 'U:/in_lattice_cooling/ILC88B_10mV.tfw',
'scale': 100,
'source': 1,
'fm_gain': 2.5e6
},
'B': {
'wfm': 'U:/in_lattice_cooling/ILC88B_10mV.tfw',
'scale': 100,
'source': 2,
'fm_gain': 2.59e6
}
},
}
waveforms = {}
def initialize(self, config):
super(FrequencyModulation, self).initialize(config)
self._update_afg = UpdateProxy('Red AFG')
self._update_rf = UpdateProxy(
'Moglabs_ARF') # Should have the same name as in GUI client.
self.connect_to_labrad()
def update(self):
sequence = self.server._get_parameter_value('sequencer.sequence')
# previous_sequence = self.server._get_parameter_value('sequencer.previous_sequence')
is_first = self.server.is_first
is_end = self.server.is_end
experiment = self.server.experiment
if is_first and experiment:
self.waveforms = self.default_waveforms.copy()
if self.value is not None:
# If self.value is not None, update self.waveforms, default waveform remains unchanged.
# This allows you to change, ie. fm_gain, from experiment scripts
for key1, value1 in self.value.items():
if key1 in self.waveforms.keys():
for key2, value2 in value1.items():
self.waveforms[key1][key2].update(value1[key2])
request = {}
element = 1
for subsequence in sequence:
if subsequence in list(self.waveforms.keys()):
request[element] = self.waveforms[subsequence]
element += 1
if request:
# self.cxn.afg.new(json.dumps({self.afg_devicename: True}))
# self.cxn.afg.reset(json.dumps({self.afg_devicename: True}))
if self.value is None:
self.value = request
# set up the sequence list
self.cxn.afg.sequences(
json.dumps({self.afg_devicename: request}))
# update scale
scale = request[1]['A'][
'scale'] # element should be at least 1
scale_request1 = {
self.afg_devicename: {
'source': 1,
'scale': scale
}
}
scale_request2 = {
self.afg_devicename: {
'source': 2,
'scale': scale
}
}
self.cxn.afg.scales(json.dumps(scale_request1))
self.cxn.afg.scales(json.dumps(scale_request2))
self._update_afg.emit({'scale1': scale})
self._update_afg.emit({'scale1': scale})
# set afg stop and run
self.cxn.afg.stop(json.dumps({self.afg_devicename: True}))
self.cxn.afg.run(json.dumps({self.afg_devicename: True}))
# update rf fm_gain, this should come from RedMOT sequence in principle..
fm_gain1 = request[1]['A']['fm_gain']
fm_gain2 = request[1]['B']['fm_gain']
rf_request1 = {self.rf_devicename_A: fm_gain1}
rf_request2 = {self.rf_devicename_B: fm_gain2}
self.cxn.rf.fm_gains(json.dumps(rf_request1))
self.cxn.rf.fm_gains(json.dumps(rf_request2))
self._update_rf.emit({'fm_gain1': fm_gain1})
self._update_rf.emit({'fm_gain2': fm_gain2})
elif is_end and self.value is not None:
self.value = None
def initialize(self, config):
super(FrequencyModulation, self).initialize(config)
self._update_afg = UpdateProxy('Red AFG')
self._update_rf = UpdateProxy(
'Moglabs_ARF') # Should have the same name as in GUI client.
self.connect_to_labrad()
def initialize(self, config):
super(IsLocked, self).initialize(config)
self._update = UpdateProxy('mot')
def initialize(self, config):
super(IsLocked, self).initialize(config)
self._update = UpdateProxy(
'Blue Slave 1'
) # Should have the same name as in current controller client..
callInThread(self.update)
def initialize(self, config):
super(Frequency, self).initialize(config)
self._update = UpdateProxy(
'AOM_blue2') # Should have the same name as in rf2 client..
self.connect_to_labrad()