- Float_t fPhotoCathodeEfficiency; // Photocathode efficiency
- Float_t fPMVoltage ; // Photomultiplier voltage
- Float_t fPMGain; // Photomultiplier gain
+ Float_t fPhotoCathodeEfficiency; // Photocathode efficiency
+
+ Int_t fNdigits; //! Number of digits
+ TClonesArray *fDigits; //! List of digits
+
+ TF1* fSignalShape; // function which describes the PMT signal shape
+ TF1* fPMResponse; // function which describes the PM time response
+ TF1* fSinglePhESpectrum; // function which describes the single ph.e. PM response
+
+ Float_t fAdc[64][kNClocks]; //! Container for ADC samples
+ Float_t fLeadingTime[64]; //! Leading time container
+ Float_t fTimeWidth[64]; //! Time width container
+ Float_t fAdcPedestal[64][2]; //! Pedestals, one per integrator
+ Float_t fAdcSigma[64][2]; //! Sigma of pedestals
+ Float_t fPmGain[64]; //! PMT gains
+ Int_t fNBins[64]; //! Number of bins in fTime container
+ Int_t fNBinsLT[64]; //! Number of bins in fTime container (match window only)
+ Float_t fBinSize[64]; //! Bin size in fTime container
+ Float_t fHptdcOffset[64]; //! HPTDC time offsets channel by channel
+ Float_t fClockOffset[64]; //! Clock offsets channel by channel
+
+ Float_t *fTime[64]; //! Main container used in digitization
+ Int_t fLabels[64][3]; //! Container for MC labels
+ Bool_t fEvenOrOdd; //! Choise of integrator in central ADC sample