def set_datas(self): doc = """ Output Microwave Amplitude """ self.data.template(name="Amplitude", fname='amp_{autoname}.txt', cols=[ Column('channel A', unit='V'), Column('channel B', unit='V') ], doc=doc) doc = """ Cavity Spectrum """ self.data.template(name="T1", fname='t1_d_{autoname}.txt', index=[Index('Time', unit='ns')], cols=[ Column('P0', with_err=True, unit='mV'), Column('P1', with_err=True, unit='mV'), Column('P2', with_err=True, unit='mV') ], doc=doc) self.data.targets("T1")
def set_datas(self): doc = """ Output Microwave Amplitude """ self.data.template(name="Amplitude", fname='amp_{autoname}.txt', cols=[ Column('channel A', unit='V'), Column('channel B', unit='V') ], doc=doc) doc = """ Rabi in dispersive range """ self.data.template( name="Rabi2D", fname='rabi2d_{autoname}.txt', index=[Index('Time', unit='ns'), Index('Frequency', unit='GHz')], cols=[Column('Amplitude', with_err=True, unit='mV')], doc=doc) self.data.targets("Rabi2D")
def set_datas(self): doc = """ Output Microwave Amplitude """ self.data.template(name="Amplitude", fname='amp_{autoname}.txt', cols=[ Column('channel A', unit='V'), Column('channel B', unit='V') ], doc=doc) doc = """ Cavity Spectrum var probe power """ self.data.template( name="CavitySpectrum2D", fname='cs2d_{autoname}.txt', index=[Index('Power', unit='dBm'), Index('Frequency', unit='GHz')], cols=[Column('Amplitude', with_err=True, unit='mV')], doc=doc) self.data.targets("CavitySpectrum2D")
def set_datas(self): doc = """ ATS var probe frequency and coupler frequency """ self.data.template( name="ATS_fp_fc", fname='ATS_fp_fc_{autoname}.txt', index=[Index('Probe Frequency', unit='GHz'), Index('Coupler Frequency', unit='GHz')], cols=[Column('P0', with_err=True, unit='mV'), Column('P1', with_err=True, unit='mV'), Column('P2', with_err=True, unit='mV')], doc = doc) self.data.targets("ATS_fp_fc") self.data_manager.save_raw = False
def set_datas(self): doc = """ Output Microwave Amplitude """ self.data.template( name="Amplitude", fname='amp_{autoname}.txt', cols=[Column('channel A', unit='V'), Column('channel B', unit='V')], doc=doc) doc = """ Cavity Spectrum """ self.data.template( name="SteepJumpS1", fname='sjs1_{autoname}.txt', index=[Index('Power', unit='dBm')], cols=[Column('Amplitude', with_err=True, unit='mV')], doc = doc) self.data.targets("SteepJumpS1")
def set_datas(self): doc = """ Output Microwave Amplitude """ self.data.template(name="Amplitude", fname='amp_{autoname}.txt', cols=[ Column('channel A', unit='V'), Column('channel B', unit='V') ], doc=doc) doc = """ Cavity Spectrum for state 1 prepared """ self.data.template( name="CavitySpectrumS1", fname='css1_{autoname}.txt', index=[Index('Frequency', unit='GHz')], cols=[Column('Amplitude', with_err=True, unit='mV')], doc=doc) self.data.targets("CavitySpectrumS1")
def set_datas(self): doc = """ Output Microwave Amplitude """ self.data.template(name="Amplitude", fname='amp_{autoname}.txt', cols=[ Column('channel A', unit='V'), Column('channel B', unit='V') ], doc=doc) doc = """ Ramsey """ self.data.template( name="Ramsey", fname='ramsey_{autoname}.txt', index=[Index('Time', unit='ns')], cols=[Column('Amplitude', with_err=True, unit='mV')], doc=doc) self.data.targets("Ramsey")