void Digitize(Int_t event); // Make Digits from SDigits stored in fSDigits
void Exec(Option_t *option); // Supervising method
- Int_t GetDigitThreshold() const { return fDigitThreshold;}
+ Int_t GetDigitThreshold() const { return fDigitThreshold;}
//Float_t GetPedestal() const { return fPedestal; }
- Float_t GetPinNoise() const { return fPinNoise;}
+ Float_t GetPinNoise() const { return fPinNoise;}
//Float_t GetSlope() const { return fSlope; }
Double_t GetTimeResolution() const { return fTimeResolution ; }
- Float_t GetECAchannel() const { return fADCchannelEC ; }
- Float_t GetECApedestal() const { return fADCpedestalEC ; }
- void SetEventRange(Int_t first=0, Int_t last=-1) {fFirstEvent=first; fLastEvent=last; }
- void SetDigitThreshold(Int_t EMCThreshold) {fDigitThreshold = EMCThreshold;}
- void SetPinNoise(Float_t PinNoise ) {fPinNoise = PinNoise;}
+ Double_t GetTimeDelay() const { return fTimeDelay ; }
+ Float_t GetECAchannel() const { return fADCchannelEC ; }
+ Float_t GetECApedestal() const { return fADCpedestalEC ; }
+ void SetEventRange(Int_t first=0, Int_t last=-1) {fFirstEvent=first; fLastEvent=last; }
+ void SetDigitThreshold(Int_t EMCThreshold) {fDigitThreshold = EMCThreshold;}
+ void SetPinNoise(Float_t PinNoise ) {fPinNoise = PinNoise;}
//General
Int_t GetDigitsInRun() const { return fDigitsInRun; }
//Calculate the time of crossing of the threshold by front edge
//Float_t FrontEdgeTime(TClonesArray * ticks) ;
- Int_t DigitizeEnergy(Float_t energy, Int_t AbsId) ;
+ Float_t DigitizeEnergy(Float_t energy, Int_t AbsId) ;
void Digits2FastOR(TClonesArray*digitsTMP, TClonesArray* digitsTRG);
void DigitalFastOR(Double_t time, Double_t dE, Int_t timeSamples[], Int_t nSamples);
TString * fInputFileNames ; //[fInput] List of file names to merge
TString * fEventNames ; //[fInput] List of event names to merge
- Int_t fDigitThreshold ; // Threshold for storing digits in EMC, ACD units
- Int_t fMeanPhotonElectron ; // number of photon electrons per GeV deposited energy
+ Int_t fDigitThreshold ; // Threshold for storing digits in EMC, ACD units
+ Int_t fMeanPhotonElectron ; // number of photon electrons per GeV deposited energy
//Float_t fPedestal ; // Calibration parameters //Not used, remove?
//Float_t fSlope ; // read from SDigitizer //Not used, remove?
- Float_t fPinNoise ; // Electronics noise in EMC
- Double_t fTimeResolution ; // Time resolution of FEE electronics
+ Float_t fPinNoise ; // Electronics noise in EMC
+ Double_t fTimeDelay; // Time delay to reproduce data delay
+ Double_t fTimeResolution ; // Time resolution of FEE electronics
//Float_t fTimeThreshold ; // Threshold to start timing for given crystall //Not used, remove?
//Float_t fTimeSignalLength ; // Length of the timing signal //Not used, remove?
Float_t fADCchannelEC ; // width of one ADC channel in EC section (GeV)
Float_t fADCpedestalEC ; // pedestal for one ADC channel
Int_t fNADCEC ; // number of channels in EC section ADC
- TString fEventFolderName; // skowron: name of EFN to read data from in stand alone mode
- Int_t fFirstEvent; // first event to process
- Int_t fLastEvent; // last event to process
-
+ TString fEventFolderName; // skowron: name of EFN to read data from in stand alone mode
+ Int_t fFirstEvent; // first event to process
+ Int_t fLastEvent; // last event to process
+
AliEMCALCalibData * fCalibData; //Calibration data pointer
- ClassDef(AliEMCALDigitizer,8) // description
+ ClassDef(AliEMCALDigitizer,9) // description
};