# ========================================================================== ############################################################################# # ========================================================================== # General # ========================================================================== ############################################################################# # ========================================================================== # ------------------------------------------------------------------------- # Use this if you want to setup the logging stream for the jobs # (overwrites command line options) # ------------------------------------------------------------------------- #MLog.VerbosityLevel: 2 #MLog.DebugLevel: 1 #MLog.NoColors: yes # ========================================================================== ############################################################################# # ========================================================================== # Calibration # ========================================================================== ############################################################################# # ========================================================================== # ------------------------------------------------------------------------- # Use this if you want to write the MJPedestal output somewhere # If you don't want it, it is written to the calibration output anyhow. # ------------------------------------------------------------------------- #MJPedestalC1.PathOut: . #MJPedestalC2.PathOut: . #MJPedestalC1.BadPixelsFile: mjobs/badpixels_0_559.rc #MJPedestalC1.ReferenceFile: mjobs/pedestalref.rc #MJPedestalC2.ReferenceFile: mjobs/pedestalref.rc MJCalibration.ReferenceFile: mjobs/calibrationref_Nov04.rc MJCalibration.MHCalibrationRelTimeCam.ReferenceFile: mjobs/calibrationref_Nov04.rc MJCalibration.MHCalibrationChargeCam.ReferenceFile: mjobs/calibrationref_Nov04.rc # ------------------------------------------------------------------------- # Use this to define where the calibration output is stored. The filename # is created from the sequence number. If nothing is specified '.' is # assumed. (overwrites command line options) # ------------------------------------------------------------------------- #MJCalibration.PathOut: calped # ------------------------------------------------------------------------- # Define here which signal extractor you are going to use for the # whole calibration chain # ------------------------------------------------------------------------- MJPedestalC1.ExtractSignal: MExtractTimeAndChargeDigitalFilter # ------------------------------------------------------------------------- # Define here an extractor which can be used for the December 04 data. # ------------------------------------------------------------------------- #MJPedestalC1.ExtractSignal: MExtractTimeAndChargeSpline, MExtractTimeAndChargeDigitalFilterPeakSearch, MExtractTimeAndChargeSlidingWindow # ------------------------------------------------------------------------- # Define here parameters valid for all extractors above # The actual defaults used depend on the extractor in use. # For details see the corresponding source code # ------------------------------------------------------------------------- #MJPedestalC1.ExtractSignal.HiGainFirst: 0 #MJPedestalC1.ExtractSignal.HiGainLast: 15 #MJPedestalC1.ExtractSignal.LoGainFirst: 3 #MJPedestalC1.ExtractSignal.LoGainLast: 14 #MJPedestalC1.ExtractSignal.SaturationLimit: 250 #MJPedestalC1.ExtractSignal.OffsetLoGain: 0.95 #MJPedestalC1.ExtractSignal.LoGainSwitch: 120 #MJPedestalC1.ExtractSignal.LoGainStartShift: -2.5 # ------------------------------------------------------------------------- # Define here parameters valid for the spline: # ------------------------------------------------------------------------- #MJPedestalC1.ExtractSignal.Resolution: 0.05 #MJPedestalC1.ExtractSignal.RiseTimeHiGain: 0.5 #MJPedestalC1.ExtractSignal.FallTimeHiGain: 1.5 #MJPedestalC1.ExtractSignal.LoGainStretch: 1.5 #MJPedestalC1.ExtractSignal.ExtractionType: Integral #MJPedestalC1.ExtractSignal.ExtractionType: Amplitude # ------------------------------------------------------------------------- # In the case of the Digital filter you have to overwrite the default # weights file depending on what you are extracting # ------------------------------------------------------------------------- MJPedestalC2.ExtractSignal.WeightsFile: msignal/calibration_weights_UV46.dat MJPedestalY2.ExtractSignal.WeightsFile: msignal/cosmics_weights46.dat MJPedestalY3.ExtractSignal.WeightsFile: msignal/cosmics_weights46.dat MJCalibration.ExtractSignal.WeightsFile: msignal/calibration_weights_UV46.dat MJCalibrateSignal.ExtractSignal.WeightsFile: msignal/cosmics_weights46.dat MJCalibrateSignal.ExtractInterlaced.WeightsFile: msignal/calibration_weights_UV46.dat #MJPedestalC2.ExtractSignal.AutomaticWeightsFile: On #MJPedestalY2.ExtractSignal.AutomaticWeightsFile: On #MJPedestalY3.ExtractSignal.AutomaticWeightsFile: On #MJCalibration.ExtractSignal.AutomaticWeightsFile: On #MJCalibrateSignal.ExtractSignal.AutomaticWeightsFile: On #MJCalibrateSignal.ExtractInterlaced.AutomaticWeightsFile: On # ------------------------------------------------------------------------- # Configure MJCalibration # ------------------------------------------------------------------------- # Switch on relative time calibration #MJCalibration.RelTimeCalibration: Yes # Type of used data format: raw, root, mc #MJCalibration.DataType: Root # Type of displayed plots: Full,DataCheck,Normal #MJCalibration.Display: datacheck # Write additinal debug output #MJCalibration.Debug: No # Use blind pixel #MJCalibration.UseBlindPixel: No # Use pin diode #MJCalibration.UsePINDiode: No # Use pixel check option #MJCalibration.PixelCheck: Yes #MJCalibTest.PixelCheck: Yes # ------------------------------------------------------------------------- # Individual events check for calibration results # ------------------------------------------------------------------------- #ContCosmics.MaxEmptyPixels: 0.2 #ContCosmics.MaxExcludedFraction: 1 #ContCosmics.MinAcceptedFraction: 0 # ------------------------------------------------------------------------- # You can choose the pedestal extraction algorithm/task. To use # MPedCalcPedRun use the lines below. Be carefull, a pedestal file # could be (if no pedestal file available) a data-file, too. # ------------------------------------------------------------------------- #MJPedestalC1.ExtractPedestal: MPedCalcPedRun #MJPedestalC1.ExtractPedestal.ExtractWinFirst: 0 #MJPedestalC1.ExtractPedestal.ExtractWinSize: 6 #MJPedestalC1.ExtractPedestal.PedestalUpdate: no #MJPedestalC1.ExtractPedestal.CheckWinFirst: 0 #MJPedestalC1.ExtractPedestal.CheckWinLast: 6 #MJPedestalC1.ExtractPedestal.MaxSignalVar: 300 #MJPedestalC2.ExtractPedestal: MPedCalcPedRun #MJPedestalC2.ExtractPedestal.ExtractWinFirst: 0 #MJPedestalC2.ExtractPedestal.ExtractWinSize: 6 #MJPedestalC2.ExtractPedestal.PedestalUpdate: no #MJPedestalC2.ExtractPedestal.CheckWinFirst: 0 #MJPedestalC2.ExtractPedestal.CheckWinSize: 29 # ------------------------------------------------------------------------- # You can choose the pedestal extraction algorithm/task. To use # MPedCalcFromLoGain use the lines below. Be carefull, a pedestal file # could be (if no pedestal file available) a data-file, too. # ------------------------------------------------------------------------- #MJPedestalC1.ExtractPedestal: MPedCalcFromLoGain #MJPedestalC1.ExtractPedestal.ExtractWinFirst: 0 #MJPedestalC1.ExtractPedestal.ExtractWinSize: 6 #MJPedestalC1.ExtractPedestal.PedestalUpdate: no #MJPedestalC1.ExtractPedestal.CheckWinFirst: 0 #MJPedestalC1.ExtractPedestal.CheckWinSize: 29 #MJPedestalC1.ExtractPedestal.MaxSignalVar: 40 #MJPedestalC2.ExtractPedestal: MPedCalcFromLoGain #MJPedestalC2.ExtractPedestal.ExtractWinFirst: 0 #MJPedestalC2.ExtractPedestal.ExtractWinSize: 6 #MJPedestalC2.ExtractPedestal.PedestalUpdate: no #MJPedestalC2.ExtractPedestal.CheckWinFirst: 0 #MJPedestalC2.ExtractPedestal.CheckWinSize: 29 #MJPedestalC2.ExtractPedestal.MaxSignalVar: 40 # ------------------------------------------------------------------------- # Configure MJPedestalC1 and MJPedestalC2 # ------------------------------------------------------------------------- # Possible data type: Raw,Root,MC #MJPedestalC1.DataType: Root #MJPedestalC2.DataType: Root #MJPedestalC3.DataType: Root # Type of displayed plots: Full,DataCheck,None #MJPedestalC1.Display: datacheck #MJPedestalC2.Display: datacheck #MJPedestalC3.Display: datacheck # Maximum number of event processed in the loop #MJPedestalC1.MaxEvents: 1000 #MJPedestalC2.MaxEvents: 1000 # Allow to overwrite existing files with the output file #MJPedestalC1.AllowOverwrite: No #MJPedestalC2.AllowOverwrite: No # Use data runs from the sequence instead of calibration runs #MJPedestalC1.UseData: No #MJPedestalC2.UseData: No # Switch off DeadPixelCheck with "No" #MJPedestalY2.DeadPixelCheck: yes # ------------------------------------------------------------------------- # Use this if you want to change the software low-gain switch in the # calibration # ------------------------------------------------------------------------- MJCalibration.ExtractSignal.LoGainSwitch: 170 # ------------------------------------------------------------------------- # Use this if you want to change the higain-vs. logain intercalibration # ------------------------------------------------------------------------- #MJCalibration.HiLoCalibFile: mjobs/hilocalib_df46.root # ------------------------------------------------------------------------- # Use this to change the behaviour of the calibration # ------------------------------------------------------------------------- # Type if you set a colour explicitely from outside (TEST purposes!!) #MJCalibration.MCalibColorSet.ExplicitColor: green,blue,uv,ct1 #MJCalibration.MCalibrationChargeCalc.ArrTimeRmsLimit: 5.0 #MJCalibration.MCalibrationChargeCalc.ChargeLimit: 2.5 #MJCalibration.MCalibrationChargeCalc.ChargeErrLimit: 0 #MJCalibration.MCalibrationChargeCalc.ChargeRelErrLimit: 1 #MJCalibration.MCalibrationChargeCalc.Debug: no #MJCalibration.MCalibrationChargeCalc.FFactorErrLimit: 4.5 #MJCalibration.MCalibrationChargeCalc.LambdaErrLimit: 0.2 #MJCalibration.MCalibrationChargeCalc.LambdaCheckLimit: 0.5 #MJCalibration.MCalibrationChargeCalc.PheErrLowerLimit: 9.0 #MJCalibration.MCalibrationChargeCalc.PheErrUpperLimit: 5.5 #MJCalibration.MHCalibrationChargeCam.Debug: no #MJCalibration.MHCalibrationChargeCam.LoGain: yes #MJCalibration.MHCalibrationChargeCam.Oscillations: yes #MJCalibration.MHCalibrationChargeCam.SizeCheck: yes #MJCalibration.MHCalibrationChargeCam.Averageing: yes #MJCalibration.MHCalibrationChargeCam.HiGainNbins: 500 #MJCalibration.MHCalibrationChargeCam.HiGainFirst: -98. #MJCalibration.MHCalibrationChargeCam.HiGainLast: 1902. #MJCalibration.MHCalibrationChargeCam.LoGainNbins: 500 #MJCalibration.MHCalibrationChargeCam.LoGainFirst: -99. #MJCalibration.MHCalibrationChargeCam.LoGainLast: 901. #MJCalibration.MHCalibrationChargeCam.TimeLowerLimit: 1. #MJCalibration.MHCalibrationChargeCam.TimeUpperLimit: 3. #MJCalibration.MHCalibrationChargeCam.NumHiGainSaturationLimit: 0.02 #MJCalibration.MHCalibrationChargeCam.NumLoGainSaturationLimit: 0.005 #MJCalibration.MHCalibrationChargeCam.ProbLimit: 0.00000001 #MJCalibration.MHCalibrationChargeCam.OverflowLimit: 0.005 #MJCalibration.MHCalibrationChargeCam.PulserFrequency: 500 #MJCalibration.MHCalibrationRelTimeCam.Debug: no #MJCalibration.MHCalibrationRelTimeCam.LoGain: no #MJCalibration.MHCalibrationRelTimeCam.Oscillations: yes #MJCalibration.MHCalibrationRelTimeCam.SizeCheck: yes #MJCalibration.MHCalibrationRelTimeCam.Averageing: yes #MJCalibration.MHCalibrationRelTimeCam.Nbins: 210 #MJCalibration.MHCalibrationRelTimeCam.First: -5. #MJCalibration.MHCalibrationRelTimeCam.Last: 10. #MJCalibration.MHCalibrationRelTimeCam.NumHiGainSaturationLimit: 0.25 #MJCalibration.MHCalibrationRelTimeCam.ProbLimit: 0.00001 #MJCalibration.MHCalibrationRelTimeCam.OverflowLimit: 0.005 #MJCalibration.MHCalibrationRelTimeCam.PulserFrequency: 500 # ========================================================================== ############################################################################# # ========================================================================== # Signal extraction # ========================================================================== ############################################################################# # ========================================================================== # ------------------------------------------------------------------------- # Use a OutputPath if you want to write the results to a file # ------------------------------------------------------------------------- #MJCalibrateSignal.PathOut: . #MJPedestalY1.PathOut: . #MJPedestalY2.PathOut: . #MJPedestalY3.PathOut: . #MJCalibrateSignal.PathIn: . # ------------------------------------------------------------------------- # If you want to change the behaviour of the pedestal extraction... # ------------------------------------------------------------------------- # Possible data type: Raw,Root,MC #MJPedestalY1.DataType: Root #MJPedestalY2.DataType: Root #MJPedestalY3.DataType: Root #MJPedestalY1.UseData: Yes #MJPedestalY2.UseData: Yes #MJPedestalY3.UseData: Yes #MJPedestalY1.MinEvents: 50 #MJPedestalY2.MinEvents: 50 #MJPedestalY3.MinEvents: 50 MJPedestalY1.MaxEvents: 1000 MJPedestalY2.MaxEvents: 10000 MJPedestalY3.MaxEvents: 1000 MJPedestalY1.MaxPedestals: 500 MJPedestalY2.MaxPedestals: 500 MJPedestalY3.MaxPedestals: 500 # ------------------------------------------------------------------------- # When the starting pedestal is extracted from the first events of # the data run also the average pulse position of these events # is determined. If the pulse position check is switched on (default) # the extraction window of the hi- and lo-gain extractor for the # determined average pulse position is not allowed to exceed the # extractors search region. In this scenario we assume that the # start of the extraction window is at least similar to the # rising edge of the pulse. # To make sure that the search region and the extraction window # does not touch increase the values. # ------------------------------------------------------------------------- #MJPedestalY2.PulsePosCheck: yes #MJPedestalY2.ExtractWinLeft: 0.0 #MJPedestalY2.ExtractWinRight: 0.0 # ------------------------------------------------------------------------- # Define the Pulse Position check parameters: # ------------------------------------------------------------------------- #MJPedestalY2.MHCalibrationPulseTimeCam.SaturationLimit: 245 #MJPedestalY2.MHCalibrationPulseTimeCam.LowerSignalLimit: 85 #MJPedestalY2.MHCalibrationPulseTimeCam.NumPixelsRequired: 3 #MJPedestalY2.PixelCheck: no #MJPedestalY.ExtractPedestal: MPedCalcFromLoGain #MJPedestalY.ExtractPedestal.PedestalUpdate: no # ------------------------------------------------------------------------- # Setup pedestal extractor for running through data # ------------------------------------------------------------------------- #MJCalibrateSignal.MPedCalcFundamental.PedestalUpdate: yes #MJCalibrateSignal.MPedCalcFundamental.NumDump: 500 #MJCalibrateSignal.MPedCalcFundamental.NumEventsDump: 500 #MJCalibrateSignal.MPedCalcFundamental.NumAreasDump: 500 #MJCalibrateSignal.MPedCalcFundamental.NumSectorsDump: 500 #MJCalibrateSignal.MPedCalcFundamental.ExtractWinFirst: 17 #MJCalibrateSignal.MPedCalcFundamental.ExtractWinSize: 6 #MJCalibrateSignal.MPedCalcFundamental.CheckWinFirst: 0 #MJCalibrateSignal.MPedCalcFundamental.CheckWinSize: 29 #MJCalibrateSignal.MPedCalcFundamental.MaxSignalVar: 40 #MJCalibrateSignal.MPedCalcFromExtractorRndm.PedestalUpdate: yes #MJCalibrateSignal.MPedCalcFromExtractorRndm.NumDump: 500 #MJCalibrateSignal.MPedCalcFromExtractorRndm.NumEventsDump: 500 #MJCalibrateSignal.MPedCalcFromExtractorRndm.NumAreasDump: 500 #MJCalibrateSignal.MPedCalcFromExtractorRndm.NumSectorsDump: 500 #MJCalibrateSignal.MPedCalcFromExtractorRndm.ExtractWinFirst: 17 #MJCalibrateSignal.MPedCalcFromExtractorRndm.ExtractWinSize: 6 #MJCalibrateSignal.MPedCalcFromExtractorRndm.CheckWinFirst: 0 #MJCalibrateSignal.MPedCalcFromExtractorRndm.CheckWinSize: 29 #MJCalibrateSignal.MPedCalcFromExtractorRndm.MaxSignalVar: 40 #MJCalibrateSignal.MPedCalcFromExtractor.PedestalUpdate: yes #MJCalibrateSignal.MPedCalcFromExtractor.NumDump: 500 #MJCalibrateSignal.MPedCalcFromExtractor.NumEventsDump: 500 #MJCalibrateSignal.MPedCalcFromExtractor.NumAreasDump: 500 #MJCalibrateSignal.MPedCalcFromExtractor.NumSectorsDump: 500 #MJCalibrateSignal.MPedCalcFromExtractor.ExtractWinFirst: 17 #MJCalibrateSignal.MPedCalcFromExtractor.ExtractWinSize: 6 #MJCalibrateSignal.MPedCalcFromExtractor.CheckWinFirst: 0 #MJCalibrateSignal.MPedCalcFromExtractor.CheckWinSize: 29 #MJCalibrateSignal.MPedCalcFromExtractor.MaxSignalVar: 40 # ------------------------------------------------------------------------- # Configure the interlaced calibration updates # ------------------------------------------------------------------------- #MJCalibrateSignal.MCalibCalcFromPast.UpdateWithFFactorMethod: yes #MJCalibrateSignal.MCalibCalcFromPast.NumEventsDump: 500 #MJCalibrateSignal.MCalibCalcFromPast.UpdateNumPhes: yes #MJCalibrateSignal.MCalibCalcFromPast.NumPhesDump: 10 #MJCalibrateSignal.MCalibrationChargeCalc.Debug: no # ------------------------------------------------------------------------- # Use this if you want to change the signal extractor # ------------------------------------------------------------------------- MJCalibrateSignal.ExtractSignal.LoGainSwitch: 150 #MJCalibrateSignal.ExtractSignal.LoGainStretch: 1.5 #MJCalibrateSignal.ExtractInterlaced.LoGainStretch: 1.5 # ------------------------------------------------------------------------- # Setup calibration of data # ------------------------------------------------------------------------- # Type of used data format: raw,root,MC #MJCalibrateSignal.DataType: Root # Type if you set a colour explicitely from outside (only TESTS!!!) #MJCalibrateSignal.MCalibColorSet.ExpicitColor: green,blue,uv,ct1 #MJCalibrateSignal.MCalibrateData.PedestalFlag: Event #MJCalibrateSignal.MCalibrateData.ScaleFactor: 1 MJCalibrateSignal.MCalibrateData.FileNameScale: resources/calibration.rc #MJCalibrateSignal.MCalibrateData.CalibrationMode: Default #MJCalibrateSignal.MCalibrateData.CalibConvMinLimit: 0.01 #MJCalibrateSignal.MCalibrateData.CalibConvMaxLimit: 5. #MJCalibrateSignal.Interlaced: yes #MJCalibrateSignal.RelTimesUpdate: yes # ------------------------------------------------------------------------- # Setup level for determining of bad pixels # ------------------------------------------------------------------------- #MJCalibrateSignal.MBadPixelsCalc.PedestalLevel: 3.0 #MJCalibrateSignal.MBadPixelsCalc.PedestalLevelVariance: 3.0 #MJCalibrateSignal.MBadPixelsTreat.NumMinNeighbors: 3 #MJCalibrateSignal.MBadPixelsTreat.MaxArrivalTimeDiff: 3.0 #MJCalibrateSignal.MBadPixelsTreat.UseInterpolation: yes #MJCalibrateSignal.MBadPixelsTreat.ProcessPedestalEvt: yes #MJCalibrateSignal.MBadPixelsTreat.ProcessPedestalRun: no #MJCalibrateSignal.MBadPixelsTreat.ProcessTimes: yes #MJCalibrateSignal.MBadPixelsTreat.UseCentralPixel: no #MJCalibrateSignal.MBadPixelsTreat.HardTreatment: no # ------------------------------------------------------------------------- # Setup interlaced calibration events histogramming # ------------------------------------------------------------------------- #MJCalibrateSignal.MHCalibrationChargeCam.Debug: no #MJCalibrateSignal.MHCalibrationChargeCam.LoGain: yes MJCalibrateSignal.MHCalibrationChargeCam.Oscillations: no #MJCalibrateSignal.MHCalibrationChargeCam.SizeCheck: yes #MJCalibrateSignal.MHCalibrationChargeCam.Averageing: yes #MJCalibrateSignal.MHCalibrationChargeCam.HiGainNbins: 500 #MJCalibrateSignal.MHCalibrationChargeCam.HiGainFirst: -98. #MJCalibrateSignal.MHCalibrationChargeCam.HiGainLast: 1902. #MJCalibrateSignal.MHCalibrationChargeCam.HiGainLast: 1899.5 MJCalibrateSignal.MHCalibrationChargeCam.LoGainNbins: 250 MJCalibrateSignal.MHCalibrationChargeCam.LoGainFirst: -98 MJCalibrateSignal.MHCalibrationChargeCam.LoGainLast: 902 #MJCalibrateSignal.MHCalibrationChargeCam.TimeLowerLimit: 1. #MJCalibrateSignal.MHCalibrationChargeCam.TimeUpperLimit: 3. #MJCalibrateSignal.MHCalibrationChargeCam.NumHiGainSaturationLimit: 0.02 #MJCalibrateSignal.MHCalibrationChargeCam.NumLoGainSaturationLimit: 0.005 #MJCalibrateSignal.MHCalibrationChargeCam.ProbLimit: 0.0001 #MJCalibrateSignal.MHCalibrationChargeCam.OverflowLimit: 0.005 MJCalibrateSignal.MHCalibrationChargeCam.PulserFrequency: 50 # ------------------------------------------------------------------------- # Setup relative time interlaced calibration # ------------------------------------------------------------------------- #MJCalibrateSignal.MHCalibrationRelTimeCam.Debug: no #MJCalibrateSignal.MHCalibrationRelTimeCam.LoGain: no MJCalibrateSignal.MHCalibrationRelTimeCam.Oscillations: no #MJCalibrateSignal.MHCalibrationRelTimeCam.SizeCheck: yes #MJCalibrateSignal.MHCalibrationRelTimeCam.Averageing: yes #MJCalibrateSignal.MHCalibrationRelTimeCam.Nbins: 210 #MJCalibrateSignal.MHCalibrationRelTimeCam.First: -5. #MJCalibrateSignal.MHCalibrationRelTimeCam.Last: 10. #MJCalibrateSignal.MHCalibrationRelTimeCam.NumHiGainSaturationLimit: 0.25 #MJCalibrateSignal.MHCalibrationRelTimeCam.ProbLimit: 0.00001 #MJCalibrateSignal.MHCalibrationRelTimeCam.OverflowLimit: 0.005 MJCalibrateSignal.MHCalibrationRelTimeCam.PulserFrequency: 50 # ------------------------------------------------------------------------- # Resource for movie encoding. For more details see IACT wiki # ------------------------------------------------------------------------- #MMoviePrepare.FirstSlice: 0 #MMoviePrepare.LastSlice: 15 #MovieFilter.Condition: MMovieData.fMax>5*MMovieData.fMedianPedestalRms #MImgCleanStd.CleanLevel1: 8.0 #MImgCleanStd.CleanLevel2: 4.5 #MFEvtNumber.FileName: ganymed00001218.root #MFEvtNumber.Selector: ThetaSquared.fVal<0.04 && DataType.fVal>0.5 #MMovieWrite.TargetLength: 5 #MMovieWrite.NumEvents: 10 #MMovieWrite.Threshold: 3 #MMovieWrite.Filename: movie.mpg # ------------------------------------------------------------------------- # This is a special option for the datacheck. A task executed as last # task in the event processing task list - in the standard software it # is skipped # ------------------------------------------------------------------------- #MJCalibrateSignal.FinalFantasy: MHCamFlorian