void SetMinBaseline(Float_t bas=10.){fMinBaseline=bas;}
void SetMaxBaseline(Float_t bas=150.){fMaxBaseline=bas;}
- void SetMinRawNoise(Float_t ns=0.001){fMinRawNoise=ns;}
+ void SetMinRawNoise(Float_t ns=0.5){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;}
else return 0;
}
+ Int_t CountGoodAnodes() const{
+ Int_t nGdAn=0;
+ for(Int_t ian=0;ian<fgkNAnodes;ian++) if(fGoodAnode[ian]) nGdAn++;
+ return nGdAn;
+ }
Float_t CalcMeanRawNoise() const;
Float_t GetAnodeCommonMode(Int_t iAnode) const{
if(fNEvents>0) return fSumCMN[iAnode]/fNEvents;