#include "AliITSOnlineSDD.h"
+class TH1F;
class TH2F;
class AliITSOnlineSDDTP : public AliITSOnlineSDD {
public:
AliITSOnlineSDDTP();
- AliITSOnlineSDDTP(Int_t mod, Int_t sid,Float_t xDAC);
+ AliITSOnlineSDDTP(Int_t nddl, Int_t ncarlos, Int_t sid, Float_t xDAC);
virtual ~AliITSOnlineSDDTP();
void Reset();
void AddEvent(TH2F* hrawd);
void ReadBaselines();
void SetNSigmaGain(Float_t sig=3.){fNSigmaGain=sig;}
+ void SetNSigmaNoise(Float_t sig=10.){fNSigmaNoise=sig;}
Bool_t IsModuleGood()const;
Bool_t IsAnodeGood(Int_t iAnode)const{ return fGoodAnode[iAnode];}
Float_t GetAnodeBaseline(Int_t iAnode) const{ return fBaseline[iAnode];}
+ Int_t GetAnodeEqualizedBaseline(Int_t iAnode) const{ return fEqBaseline[iAnode];}
+ Int_t GetAnodeBaselineOffset(Int_t iAnode) const{ return fOffsetBaseline[iAnode];}
Float_t GetAnodeRawNoise(Int_t iAnode) const{ return fRawNoise[iAnode];}
Float_t GetAnodeCommonMode(Int_t iAnode) const{ return fCMN[iAnode];}
Float_t GetAnodeCorrNoise(Int_t iAnode) const{return fCorrNoise[iAnode];}
- Int_t GetNEvents() const {return fNEvents;}
+ Float_t GetTimeBinTPPeak(Int_t iAnode) const{
+ if(fNEvents[iAnode]>0) return fTPPos[iAnode]/fNEvents[iAnode];
+ else return 0;
+ }
+ Int_t GetNEvents(Int_t iAnode) const {return fNEvents[iAnode];}
Float_t GetChannelGain(Int_t iAnode)const{
- if(fNEvents>0) return fSumTPPeak[iAnode]/fNEvents/fDAC;
+ if(fNEvents[iAnode]>0) return fSumTPPeak[iAnode]/fNEvents[iAnode]/fDAC;
else return 0;
}
void StatGain(Float_t &mean, Float_t &rms);
void WriteToASCII();
Bool_t WriteToROOT(TFile *fil);
+ TH1F* GetBaselineAnodeHisto() const;
+ TH1F* GetRawNoiseAnodeHisto() const;
+ TH1F* GetCorrNoiseAnodeHisto() const;
+ TH1F* GetCMNCoefAnodeHisto() const;
+ TH1F* GetGainAnodeHisto() const;
+ TH1F* GetStatusAnodeHisto() const;
+
protected:
private:
- Int_t fNEvents; // number of events
+ Int_t fNEvents[fgkNAnodes]; // number of TP events for given anode
Float_t fDAC; // Pascal Test Pulse amplitude (DAC units)
+ Int_t fLowThreshold; // low threshold for zero supp.
+ Int_t fHighThreshold; // high threshold for zero supp.
Bool_t fGoodAnode[fgkNAnodes]; // array of anode quality (1 good, 0 bad)
Float_t fBaseline[fgkNAnodes]; // array of anode baselines
+ Int_t fEqBaseline[fgkNAnodes]; // array of anode baselines after equalization
+ Int_t fOffsetBaseline[fgkNAnodes]; // array of offsets for baseline equal.
Float_t fRawNoise[fgkNAnodes]; // array of anode raw noise
Float_t fCMN[fgkNAnodes]; // common mode noise coeff.
Float_t fCorrNoise[fgkNAnodes]; // array of anode corrected noise
Float_t fSumTPPeak[fgkNAnodes]; // test pulse amplitude summed over events
Float_t fTPPos[fgkNAnodes]; // test pulse position
Float_t fNSigmaGain; // Cut value for gain (n*sigma)
-
- ClassDef(AliITSOnlineSDDTP,2);
+ Float_t fNSigmaNoise; // Threshold for TP signal identification
+ ClassDef(AliITSOnlineSDDTP,4);
};
#endif