public:
AliITSOnlineSDDBase();
- AliITSOnlineSDDBase(Int_t mod, Int_t sid);
+ AliITSOnlineSDDBase(Int_t nddl, Int_t ncarlos, Int_t sid);
virtual ~AliITSOnlineSDDBase();
void Reset();
void AddEvent(TH2F* hrawd);
void SetMinRawNoise(Float_t ns=0.001){fMinRawNoise=ns;}
void SetMaxRawNoise(Float_t ns=9.){fMaxRawNoise=ns;}
void SetNSigmaNoise(Float_t ns=4.){fNSigmaNoise=ns;}
+ void SetGoldenBaselineValue(Float_t val=20.){fGoldenBaseline=val;}
+ void SetZeroSuppThresholds(Float_t vall=2.2,Float_t valh=4.){
+ fLowThrFact=vall;
+ fHighThrFact=valh;
+ }
Bool_t IsAnodeGood(Int_t iAnode)const{ return fGoodAnode[iAnode];}
Float_t GetAnodeBaseline(Int_t iAnode) const{
if(fNEvents>0) return fSumBaseline[iAnode]/fNEvents;
else return 0;
}
+ void GetMinAndMaxBaseline(Float_t &basMin, Float_t &basMax) const;
+ Float_t GetMinimumBaseline() const;
Float_t GetAnodeRawNoise(Int_t iAnode) const{
if(fNEvents>0) return TMath::Sqrt(fSumRawNoise[iAnode]/fNEvents-TMath::Power(GetAnodeBaseline(iAnode),2));
else return 0;
}
- Float_t CalcMeanRawNoise();
+ Float_t CalcMeanRawNoise() const;
Float_t GetAnodeCommonMode(Int_t iAnode) const{
if(fNEvents>0) return fSumCMN[iAnode]/fNEvents;
else return 0;
}
Int_t GetNEvents() const {return fNEvents;}
- void WriteToFXS();
+ void WriteToASCII();
protected:
private:
- Int_t fNEvents;
- Bool_t fGoodAnode[fgkNAnodes];
- Float_t fSumBaseline[fgkNAnodes];
- Float_t fSumRawNoise[fgkNAnodes];
- Float_t fSumCMN[fgkNAnodes];
- Float_t fMinBaseline;
- Float_t fMaxBaseline;
- Float_t fMinRawNoise;
- Float_t fMaxRawNoise;
- Float_t fNSigmaNoise;
+ static const Int_t fgkMaxCorr; // maximum baseline correction in AMBRA (=63)
+
+ Int_t fNEvents; // number of events
+ Bool_t fGoodAnode[fgkNAnodes]; // anode quality: good(1) - bad (0)
+ Float_t fSumBaseline[fgkNAnodes]; // baseline summed over events
+ Float_t fSumRawNoise[fgkNAnodes]; // noise summed over events
+ Float_t fSumCMN[fgkNAnodes]; // common mode noise coeff.
+ Float_t fMinBaseline; // Cut value for minimum baseline
+ Float_t fMaxBaseline; // Cut value for maximum baseline
+ Float_t fMinRawNoise; // Cut value for minimum noise
+ Float_t fMaxRawNoise; // Cut value for maximum noise
+ Float_t fNSigmaNoise; // Cut value for noise (n*sigma)
+ Float_t fGoldenBaseline; // golden value for equalizing baselines
+ Float_t fLowThrFact; // factor for low threshold
+ Float_t fHighThrFact; // factor for high threshold
- ClassDef(AliITSOnlineSDDBase,1);
+ ClassDef(AliITSOnlineSDDBase,2);
};
#endif