}
//______________________________________________________________________
void AliITSOnlineSDDBase::Reset(){
- //
+ // reset all counters
fNEvents=0;
for(Int_t i=0;i<fgkNAnodes;i++){
fGoodAnode[i]=1;
}
//______________________________________________________________________
void AliITSOnlineSDDBase::ValidateAnodes(){
- //
+ // tag good/bad channels
for(Int_t ian=0;ian<fgkNAnodes;ian++){
fGoodAnode[ian]=1;
- if(GetAnodeBaseline(ian)>fMaxBaseline || GetAnodeBaseline(ian)<fMinBaseline) fGoodAnode[ian]=0;
- else if(GetAnodeRawNoise(ian)>fMaxRawNoise || GetAnodeRawNoise(ian)<fMinRawNoise) fGoodAnode[ian]=0;
- else if(GetAnodeRawNoise(ian)>fNSigmaNoise*CalcMeanRawNoise()) fGoodAnode[ian]=0;
+ Float_t basel=GetAnodeBaseline(ian);
+ Float_t rawn=GetAnodeRawNoise(ian);
+ Float_t ratio=0.;
+ if(rawn>0) ratio=basel/rawn;
+ if(basel>fMaxBaseline || basel<fMinBaseline) fGoodAnode[ian]=0;
+ else if(rawn>fMaxRawNoise || rawn<fMinRawNoise) fGoodAnode[ian]=0;
+ else if(rawn>fNSigmaNoise*CalcMeanRawNoise()) fGoodAnode[ian]=0;
+ else if(ratio<3.) fGoodAnode[ian]=0;
}
}
//______________________________________________________________________
void AliITSOnlineSDDBase::AddEvent(TH2F* hrawd){
- //
+ // analyzes one event and adds its ontribution to the various counters
+
fNEvents++;
- const Int_t kTimeBins=fLastGoodTB-fFirstGoodTB+1;
+ const Int_t kTimeBins=fLastGoodTB+1;
Float_t sum[fgkNAnodes];
for(Int_t ian=0;ian<fgkNAnodes;ian++){
Float_t sumQ=0.;
sum[ian]=0.;
+ Int_t cnt=0;
for(Int_t itb=fFirstGoodTB;itb<=fLastGoodTB;itb++){
- sum[ian]+=hrawd->GetBinContent(itb+1,ian+1);
- sumQ+=TMath::Power(hrawd->GetBinContent(itb+1,ian+1),2);
+ Float_t cbin=hrawd->GetBinContent(itb+1,ian+1);
+ sum[ian]+=cbin;
+ sumQ+=cbin*cbin;
+ cnt++;
+ }
+ if(cnt != 0){
+ sum[ian]/=(Float_t)cnt;
+ sumQ/=(Float_t)cnt;
}
- sum[ian]/=(Float_t)kTimeBins;
- sumQ/=(Float_t)kTimeBins;
fSumBaseline[ian]+=sum[ian];
fSumRawNoise[ian]+=sumQ;
}
-
if(fNEvents==1) ValidateAnodes();
Float_t *cmnEven = new Float_t[kTimeBins];
Float_t cmnCoef=cmnOdd[itb];
if(ian%2==0) cmnCoef=cmnEven[itb];
num+=(hrawd->GetBinContent(itb+1,ian+1)-sum[ian])*cmnCoef;
- den+=TMath::Power(cmnCoef,2);
+ den+=cmnCoef*cmnCoef;
}
if(den!=0) fSumCMN[ian]+=num/den;
}
}
//______________________________________________________________________
Float_t AliITSOnlineSDDBase::CalcMeanRawNoise() const{
- //
+ // compute mean value of raw noise
Float_t meanns=0.;
Int_t cnt=0;
for(Int_t ian=0;ian<fgkNAnodes;ian++){
}
//______________________________________________________________________
void AliITSOnlineSDDBase::WriteToASCII(){
- //
- Char_t outfilnam[100];
+ // writes parameters of each channel into an ASCII file
+ // to be then read in the successive step for common mode noise
+ // correction (AliITSOnlineSDDCMN)
+
+ TString outfilnam;
Float_t basMin,basMax;
GetMinAndMaxBaseline(basMin,basMax);
Float_t finalVal=basMin;
if(basMin>fGoldenBaseline && basMax<fGoldenBaseline+fgkMaxCorr) finalVal=fGoldenBaseline;
if(basMax<basMin+fgkMaxCorr && basMax>fGoldenBaseline+fgkMaxCorr) finalVal=basMax-fgkMaxCorr;
-
+
Float_t avNoise=CalcMeanRawNoise();
Int_t thrL=(Int_t)(finalVal+fLowThrFact*avNoise+0.5);
Int_t thrH=(Int_t)(finalVal+fHighThrFact*avNoise+0.5);
+ if(CountGoodAnodes()==0) thrH=255;
- sprintf(outfilnam,"SDDbase_step1_ddl%02dc%02d_sid%d.data",fDDL,fCarlos,fSide);
- FILE* outf=fopen(outfilnam,"w");
+ outfilnam.Form("SDDbase_step1_ddl%02dc%02d_sid%d.data",fDDL,fCarlos,fSide);
+ FILE* outf=fopen(outfilnam.Data(),"w");
fprintf(outf,"%d\n",thrH);
fprintf(outf,"%d\n",thrL);
Float_t corrnoise=2.;