test_nokappas.ini 20.1 KB
 Madeline Wade committed May 30, 2019 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 [InputConfigurations] # Filters file containing calibration FIR filters FiltersFileName: L1DCS_C01_1237749384.npz # Data source should be set to frames or lvshm DataSource: frames FileChecksum: No # Right now, SkipBadFiles needs to be off when reading from frames SkipBadFiles: No ############################################ # If reading from frames use these options # ############################################ # None ################################################### # If reading from shared memory use these options # ################################################### SHMPartition: LLO_Online # Assumed duration of input frames in seconds InputFrameDuration: 1 [OutputConfigurations] CompressionScheme: 6 CompressionLevel: 3 ChanPrefix: DCS- # Set to "None" if you do not want a channel suffix ChanSuffix: None # Data sink should be set to frames or lvshm DataSink: frames ################################################# # If writing to shared memory use these options # ################################################# OutputSHMPartition: LLO_hoft BufferMode: 2 # Use this to approximate the frame size (in bytes) when writing to shared memory FrameSize: 405338 NumBuffers: 10 ############################################### # If writing to frame files use these options # ############################################### FrameType: L1DCS_TEST_NOKAPPAS [CalibrationConfigurations] IFO: L1 # Set calibration mode to Full or Partial CalibrationMode: Full ComputeCalibStateVector: Yes [DebuggingConfigurations] # If you want to write a pipeline graph, provide the graph name. Otherwise, set name equal to None PipelineGraphFilename: None Verbose: Yes # Turn this on to write data presentation timestamps and real-time unix timestamps to file at the beginning and end of the pipeline, to measure latency TestLatency: No # Turn this on to compute transfer functions for the filters by comparing output data to input data TestFilters: No [TDCFConfigurations] ######################################################### # Options related to time dependent correction factors # ######################################################### ComputeKappaTST: Yes ApplyKappaTST: No # Set this to have the \kappa_tst factors filter the actuation chain with an adaptive filter that corrects for both magnitude and phase errors. ApplyComplexKappaTST: No ComputeKappaPU: No ApplyKappaPU: No # Set this to have the \kappa_pu factors the actuation chain with an adaptive filter that corrects for both magnitude and phase errors ApplyComplexKappaPU: No ComputeKappaPUM: Yes ApplyKappaPUM: No # Set this to have the \kappa_p factors the actuation chain with an adaptive filter that corrects for both magnitude and phase errors. ApplyComplexKappaPUM: No ComputeKappaUIM: Yes ApplyKappaUIM: No # Set this to have the \kappa_u factors the actuation chain with an adaptive filter that corrects for both magnitude and phase errors. ApplyComplexKappaUIM: No ComputeKappaC: Yes ApplyKappaC: No ComputeFcc: Yes ApplyFcc: No ComputeSRCQ: Yes ApplySRCQ: No ComputeFs: Yes ApplyFs: No ########################################### # Options related to the coherence gating # ########################################### UseCoherence: Yes CoherenceUncThreshold: 0.02 # Amount of time used in front-end to compute coherence CoherenceTime: 130 ################################################################### # Options related to the computation configurations for the TDCFs # ################################################################### ComputeFactorsSR: 16 RecordFactorsSR: 16 # Length in seconds of low-pass FIR filter used in demodulation of the calibration lines DemodulationFilterTime: 20 # Time (in seconds) to smooth out \kappas with a median-like method MedianSmoothingTime: 128 TDCFAveragingTime: 10 #If set to yes, bad computed kappas will be replaced by the previous computed median in the running median array. Otherwise, they are replaced with the default value TDCFDefaultToMedian: Yes # If using Y-end Pcal, we need a minus sign, so set this to -1.0 PcalSign: 1.0 ################################################## # Options related to updating cavity pole filter # ################################################## # Duration of the Fcc filter in the time domain in seconds FccFilterDuration: 0.01 # Number of seconds to average Fcc values before creating a new Fcc filter FccAveragingTime: 60 # Number of samples to be used when tapering old filter and ramping in new filter FccFilterTaperLength: 32768 ############################ # Nominal values for TDCFs # ############################ ExpectedKappaTSTReal: 1.0 ExpectedKappaTSTImag: 0.0 ExpectedKappaPUMReal: 1.0 ExpectedKappaPUMImag: 0.0 ExpectedKappaUIMReal: 1.0 ExpectedKappaUIMImag: 0.0 ExpectedKappaPUReal: 1.0 ExpectedKappaPUImag: 0.0 ExpectedKappaC: 1.0 ExpectedFs_Squared: 5.253 ################################ # Acceptable variance in TDCFs # ################################ KappaTSTRealVar: 0.2 KappaTSTImagVar: 0.2 KappaPURealVar: 0.2 KappaPUImagVar: 0.2 KappaPUMRealVar: 0.2 KappaPUMImagVar: 0.2 KappaUIMRealVar: 0.2 KappaUIMImagVar: 0.2 KappaCVar: 0.2 FccVar: 50.0 FsVar: 5.0 SRCQInvMin: 0.0 SRCQInvMax: 0.5 ####################### # EPICS records input # ####################### # Set to Yes if EPICS records for TDCF computations should be read from filters file. If set to No, they will be read from frames FactorsFromFiltersFile: Yes ############################################################################################## # Updating Sensing and Actuation filters with all frequency-dependent corrections parameters # ############################################################################################## # Length of time (in seconds) between when inverse-sensing FIR filter is updated SensingFilterUpdateTime: 64 # Length of time (in seconds) over which the smoothed time-dependent parameters of the sensing function are averaged before updating the filter SensingFilterAveragingTime: 1 # Number of samples to be used when tapering old inverse sensing filter and ramping in new filter SensingFilterTaperLength: 32768 # Number of samples in linear-phase correction filters used for TST, PUM, and UIM AdaptiveTSTFilterSamples: 128 AdaptivePUMFilterSamples: 128 AdaptiveUIMFilterSamples: 128 AdaptivePUMUIMFilterSamples: 128 # Length of time (in seconds) between when the actuation FIR filters are updated ActuationFilterUpdateTime: 64 # Length of time (in seconds) over which the smoothed time-dependent parameters of the actuation function are averaged before updating the filter ActuationFilterAveragingTime: 1 # Number of samples to be used when tapering old actuation filters and ramping in new filters ActuationFilterTaperLength: 32768 [ChannelNames] ############################# # Calibration Channel Names # ############################# DARMCtrlChannel: CAL-DARM_CTRL_DBL_DQ DARMErrChannel: CAL-DARM_ERR_DBL_DQ DeltaLTSTChannel: CAL-DELTAL_CTRL_TST_DBL_DQ DeltaLPUMChannel: CAL-DELTAL_CTRL_PUM_DBL_DQ DeltaLUIMChannel: CAL-DELTAL_CTRL_UIM_DBL_DQ DeltaLResChannel: CAL-DELTAL_RESIDUAL_DBL_DQ #################################### # Data Quality Vector Channel Name # #################################### LowNoiseStateChannel: GRD-IFO_READY HWInjChannel: CAL-INJ_STATUS_OUT_DQ ObsIntentChannel: GRD-IFO_INTENT FilterClockChannelList: GRD-ISC_LOCK_OK ################################## # Calibration Line Channel Names # ################################## DARMExcChannel: CAL-CS_LINE_SUM_DQ TSTExcChannel: SUS-ETMY_L3_CAL_LINE_OUT_DQ PUMExcChannel: SUS-ETMX_L2_CAL_LINE_OUT_DQ UIMExcChannel: SUS-ETMX_L1_CAL_LINE_OUT_DQ PCALChannel: CAL-PCALY_RX_PD_OUT_DQ ############################################ # Calibration Line Frequency Channel Names # ############################################ DARMExcLineFreqChannel: CAL-CS_TDEP_DARM_LINE1_COMPARISON_OSC_FREQ TSTExcLineFreqChannel: CAL-CS_TDEP_SUS_LINE3_COMPARISON_OSC_FREQ PUMExcLineFreqChannel: CAL-CS_TDEP_SUS_LINE2_COMPARISON_OSC_FREQ UIMExcLineFreqChannel: CAL-CS_TDEP_SUS_LINE1_COMPARISON_OSC_FREQ PCALLine1FreqChannel: CAL-CS_TDEP_PCAL_LINE1_COMPARISON_OSC_FREQ PcalLine1CorrRealChannel: CAL-CS_TDEP_PCAL_LINE1_CORRECTION_REAL PcalLine1CorrImagChannel: CAL-CS_TDEP_PCAL_LINE1_CORRECTION_IMAG PCALLine2FreqChannel: CAL-CS_TDEP_PCAL_LINE2_COMPARISON_OSC_FREQ PcalLine2CorrRealChannel: CAL-CS_TDEP_PCAL_LINE2_CORRECTION_REAL PcalLine2CorrImagChannel: CAL-CS_TDEP_PCAL_LINE2_CORRECTION_IMAG PCALLine3FreqChannel: CAL-CS_TDEP_PCAL_LINE3_COMPARISON_OSC_FREQ PcalLine3CorrRealChannel: CAL-CS_TDEP_PCAL_LINE3_CORRECTION_REAL PcalLine3CorrImagChannel: CAL-CS_TDEP_PCAL_LINE3_CORRECTION_IMAG PCALLine4FreqChannel: CAL-CS_TDEP_PCAL_LINE4_COMPARISON_OSC_FREQ PcalLine4CorrRealChannel: CAL-CS_TDEP_PCAL_LINE4_CORRECTION_REAL PcalLine4CorrImagChannel: CAL-CS_TDEP_PCAL_LINE4_CORRECTION_IMAG ####################################### # Coherence Uncertainty Channel Names # ####################################### CohUncSusLine1Channel: CAL-CS_TDEP_SUS_LINE1_UNCERTAINTY CohUncSusLine2Channel: CAL-CS_TDEP_SUS_LINE2_UNCERTAINTY CohUncSusLine3Channel: CAL-CS_TDEP_SUS_LINE3_UNCERTAINTY CohUncPcalyLine1Channel: CAL-CS_TDEP_PCAL_LINE1_UNCERTAINTY CohUncPcalyLine2Channel: CAL-CS_TDEP_PCAL_LINE2_UNCERTAINTY CohUncPcalyLine4Channel: CAL-CS_TDEP_PCAL_LINE4_UNCERTAINTY CohUncDARMLine1Channel: CAL-CS_TDEP_DARM_LINE1_UNCERTAINTY ################################### # Noise Subtraction Channel Names # ################################### # Semicolon-separated list of comma-separated lists of witness channels to use to subtract lines from h(t) # Semicolons separate channels to be handled separately (in series), and commas separate channels to be handled in parallel. #Set to None if no line witness channels are to be used LineWitnessChannelList: SUS-ETMX_L1_CAL_LINE_OUT_DQ;SUS-ETMX_L2_CAL_LINE_OUT_DQ;SUS-ETMY_L3_CAL_LINE_OUT_DQ;CAL-PCALY_RX_PD_OUT_DQ;PEM-EY_MAINSMON_EBAY_1_DQ # Semicolon-separated list of comma-separated lists of witness channels to use to subtract noise from h(t) # Set to None if no witness channels are to be used #WitnessChannelList: ASC-DHARD_P_OUT_DQ,ASC-DHARD_Y_OUT_DQ,ASC-CHARD_P_OUT_DQ,ASC-CHARD_Y_OUT_DQ,LSC-SRCL_IN1_DQ,LSC-MICH_IN1_DQ,LSC-PRCL_IN1_DQ WitnessChannelList: None # What channel should we use to gate the noise subtraction and 60-Hz line subtraction NoiseSubGateChannel: GRD-ISC_LOCK_OK ############################### # EPICS Records Channel Names # ############################### EP1RealChannel: CAL-CS_TDEP_SUS_LINE3_REF_INVA_TST_RESPRATIO_REAL EP1ImagChannel: CAL-CS_TDEP_SUS_LINE3_REF_INVA_TST_RESPRATIO_IMAG EP2RealChannel: CAL-CS_TDEP_REF_CLGRATIO_CTRL_REAL EP2ImagChannel: CAL-CS_TDEP_REF_CLGRATIO_CTRL_IMAG EP3RealChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_USUM_INV_REAL EP3ImagChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_USUM_INV_IMAG EP4RealChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_TST_REAL EP4ImagChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_TST_IMAG EP5RealChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_USUM_REAL EP5ImagChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_USUM_IMAG EP6RealChannel: CAL-CS_TDEP_PCAL_LINE2_REF_C_NOCAVPOLE_REAL EP6ImagChannel: CAL-CS_TDEP_PCAL_LINE2_REF_C_NOCAVPOLE_IMAG EP7RealChannel: CAL-CS_TDEP_PCAL_LINE2_REF_D_REAL EP7ImagChannel: CAL-CS_TDEP_PCAL_LINE2_REF_D_IMAG EP8RealChannel: CAL-CS_TDEP_PCAL_LINE2_REF_A_TST_REAL EP8Imagchannel: CAL-CS_TDEP_PCAL_LINE2_REF_A_TST_IMAG EP9RealChannel: CAL-CS_TDEP_PCALY_LINE2_REF_A_USUM_REAL EP9ImagChannel: CAL-CS_TDEP_PCALY_LINE2_REF_A_USUM_IMAG EP10RealChannel: CAL-CS_TDEP_SUS_LINE3_REF_A_TST_NOLOCK_REAL EP10ImagChannel: CAL-CS_TDEP_SUS_LINE3_REF_A_TST_NOLOCK_IMAG EP11RealChannel: CAL-CS_TDEP_PCAL_LINE1_REF_C_NOCAVPOLE_REAL EP11ImagChannel: CAL-CS_TDEP_PCAL_LINE1_REF_C_NOCAVPOLE_IMAG EP12RealChannel: CAL-CS_TDEP_PCAL_LINE1_REF_D_REAL EP12ImagChannel: CAL-CS_TDEP_PCAL_LINE1_REF_D_IMAG EP13RealChannel: CAL-CS_TDEP_PCAL_LINE1_REF_A_TST_REAL EP13ImagChannel: CAL-CS_TDEP_PCAL_LINE1_REF_A_TST_IMAG EP14RealChannel: CAL-CS_TDEP_PCALY_LINE1_REF_A_USUM_REAL EP14ImagChannel: CAL-CS_TDEP_PCALY_LINE1_REF_A_USUM_IMAG EP15RealChannel: CAL-CS_TDEP_SUS_LINE2_REF_INVA_PUM_RESPRATIO_REAL EP15Imagchannel: CAL-CS_TDEP_SUS_LINE2_REF_INVA_PUM_RESPRATIO_IMAG EP16RealChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_UIM_INV_REAL EP16ImagChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_UIM_INV_IMAG EP17RealChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_PUM_REAL EP17ImagChannel: CAL-CS_TDEP_DARM_LINE1_REF_A_PUM_IMAG EP18RealChannel: CAL-CS_TDEP_PCAL_LINE2_REF_A_PUM_REAL EP18ImagChannel: CAL-CS_TDEP_PCAL_LINE2_REF_A_PUM_IMAG EP19RealChannel: CAL-CS_TDEP_PCAL_LINE2_REF_A_UIM_REAL EP19ImagChannel: CAL-CS_TDEP_PCAL_LINE2_REF_A_UIM_IMAG EP20RealChannel: CAL-CS_TDEP_PCAL_LINE1_REF_A_PUM_REAL EP20ImagChannel: CAL-CS_TDEP_PCAL_LINE1_REF_A_PUM_IMAG EP21RealChannel: CAL-CS_TDEP_PCAL_LINE1_REF_A_UIM_REAL EP21ImagChannel: CAL-CS_TDEP_PCAL_LINE1_REF_A_UIM_IMAG EP22RealChannel: CAL-CS_TDEP_SUS_LINE1_REF_INVA_UIM_RESPRATIO_REAL EP22ImagChannel: CAL-CS_TDEP_SUS_LINE1_REF_INVA_UIM_RESPRATIO_IMAG EP23RealChannel: CAL-CS_TDEP_SUS_LINE2_REF_A_PUM_NOLOCK_REAL EP23ImagChannel: CAL-CS_TDEP_SUS_LINE2_REF_A_PUM_NOLOCK_IMAG EP24RealChannel: CAL-CS_TDEP_SUS_LINE1_REF_A_UIM_NOLOCK_REAL EP24ImagChannel: CAL-CS_TDEP_SUS_LINE1_REF_A_UIM_NOLOCK_IMAG [SampleRates] # Sample rate at which to compute h(t) HoftSR: 16384 # Sample rate at which to compute CALIB_STATE_VECTOR CalibStateSR: 16 # Sample rate of control channel # Should be 16384 if using DARM_CTRL and 4096 if using DELTAL_CTRL CtrlSR: 16384 # Sample rate of low noise state channel LowNoiseSR: 16 # Sample rate of HW injection channel HWInjSR: 16384 # Sample rate of observation intent channel ObsIntentSR: 16 # Sample rate list for chanels being used to trigger filter settling clock FilterClockSRList: 16 # Sample rate of TST excitation channel TSTExcSR: 512 # Sample rate of PUM excitation channel PUMExcSR: 512 # Sample rate of UIM excitation channel UIMExcSR: 512 # Sample rate of coherence channels CohSR: 16 # Sample rate for the EPICS reference channels EPICSRefSR: 16 # Sample rates at which transfer functions will be computed and witness channels will be filtered, given as a semicolon-separated list, e.g., 2048;2048;512;2048. This must be given if WitnessChannelList is not None, and it must be the same length. WitnessChannelSR: 512 # Sample rates at which to compute and record TDCFs ComputeFactorsSR: 16 RecordFactorsSR: 16 [Bitmasks] ObsReadyBitmask: 1 ObsIntentBitmask: 1 FilterClockBitmaskList: 1 CBCHWInjOffBitmask: 9 BurstHWInjOffBitmask: 17 DetCharHWInjOffBitmask: 33 StochHWInjOffBitmask: 65 NoiseSubGateBitmask: 1 [PipelineConfigurations] BufferLength: 1.0 FrequencyDomainFiltering: No Dewhitening: No # Latency of all filtering/averaging/median processes (other than calibration model filters) as a fraction of filter length. Value should be set between 0.0 and 1.0. FilterLatency: 0.0 [DataCleaningConfigurations] # Remove the DC component from the residual and control channels before filtering RemoveDC: No # Subtract the calibration lines from the h(t) spectrum RemoveCalLines: No ############################################################### # Options for running line subtraction using witness channels # ############################################################### # Semicolon-separated list of comma-separated lists of frequencies (same number of semicolons as LineWitnessChannelList) LineWitnessFreqs: 15.1;15.7;16.9;16.3,434.9,1083.1;60.0,120.0,180.0,240.0,300.0 # Time over which to take a median of transfer functions LineWitnessTFMedianTime: 128 # Time over which to average transfer functions LineWitnessTFAveragingTime: 1 # Semicolon-separated list of typical frequency fluctuations in lines being subtracted (same number of semicolons as LineWitnessChannelList) LineWitnessFreqVars: 0.0;0.0;0.0;0.0;0.02 ####################################### # Options for broadband noise removal # ####################################### # The length in seconds of the fast Fourier transforms used to compute transfer functions between witness channels and h(t). The fft's are windowed with Hann windows and overlapped. WitnessChannelFFTTime: 4.0 # The number of ffts to take before averaging the witness -> h(t) transfer functions calculation. The average is taken after the ratio h(f) / witness(f). NumWitnessFFTs: 509 # Sets the minimum number of FFTs necessary to produce the first transfer functions and clean data after data flow starts. MinWitnessFFTs: 509 # The length in seconds of the filters applied to the witness channels before subtracting from h(t) WitnessFIRLength: 1.0 # The frequency resolution of the filters applied to the witness channels before subtracting from h(t). It can be advantageous to lower the frequency resolution in order to average over excess noise. WitnessFrequencyResolution: 0.5 # List of minima and maxima of frequency ranges where the Fourier transform of h(t) will be replaced by a straight line in the calculation of transfer functions between witness channels and h(t) for noise subtraction. Semicolons separate lists for different sets of witness channels. If no notches are desired, use zeros, e.g., \'0;0;0\'. Here is an example using the expected format: \'495.0,515.0,985.0,1015.0;59,60,119,121;0\' This can be useful, e.g., if there are loud lines in the signal that are not present in the witness channels. WitnessNotchFrequencies: 0 # Cutoff frequencies for high-pass filters for witness channels WitnessHighPasses: 10 # The amount of time after transfer functions between witness channels and h(t) are finished to begin the calculation of the next set of transfer functions WitnessTFUpdateTime: 4 # If lock-loss lasts at least this many seconds, transfer functions will revert to those computed at the beginning of a lock stretch. Set to zero to disbale. CriticalLockLossTime: 1800 # The amount of time to use to taper in newly computed FIR filters for witness channels being used for noise subtraction. WitnessFilterTaperTime: 2 # If writing transfer functions to file, this sets the name. If transfer functions should not be written to file, this should be set to None WitnessTFFilename: None # Should the transfer function calculation use a median? If not, an average (mean) is used. WitnessTFUseMedian: Yes # Should transfer functions be computed on a fixed schedule, so that the output does not depend on start time? This is useful for running jobs in parallel. Otherwise, they are computed asap. WitnessTFParallelMode: Yes # When using parallel mode, how many seconds later should we shift the time when transfer functions start being computed from a multiple of the cycle period? WitnessTFTimeShift: 360 # To write only one strain channel, and pick whichever is less noisy, set this option to 'Yes'. This way, if a problem arises with the noise subtraction it will not affect the output strain channel. PickCleanestStrainChannel: No # A half Hann window is used for transitions between cleaned and uncleaned data. This is the length of that window in seconds. StrainChannelTransitionTime: 10.0 ############################### # Options for HOFT_CLEAN bits # ############################### # The amount of data from h(t) and cleaned h(t) that is used to compute and compare the rms. This comparison between cleaned and uncleaned h(t) determines whether the HOFT_CLEAN bits of the calibration state vector are on or off. CleaningCheckRMSTime: 30.0 # Minimum of a range of frequencies in which we expect line/noise subtraction to be impactful. The HOFT_CLEAN_LOWFREQ_OK bit of the calibration state vector is determined based on whether rms of the cleaned data is less than that of uncleaned h(t) in this range. CleaningCheckRangeLowMin: 15 # Maximum of a range of frequencies in which we expect line/noise subtraction to be impactful. The HOFT_CLEAN_LOWFREQ_OK bit of the calibration state vector is determined based on whether rms of the cleaned data is less than that of uncleaned h(t) in this range. CleaningCheckRangeLowMax: 20 # Minimum of a range of frequencies in which we expect line/noise subtraction to be impactful. The HOFT_CLEAN_MIDFREQ_OK bit of the calibration state vector is determined based on whether rms of the cleaned data is less than that of uncleaned h(t) in this range. CleaningCheckRangeMidMin: 20 # Maximum of a range of frequencies in which we expect line/noise subtraction to be impactful. The HOFT_CLEAN_MIDFREQ_OK bit of the calibration state vector is determined based on whether rms of the cleaned data is less than that of uncleaned h(t) in this range. CleaningCheckRangeMidMax: 200