SetDoFFT();
AliITSsegmentationSDD* seg = (AliITSsegmentationSDD*)GetSegmentationModel(1);
-
+ if(seg->Npx()==128) fScaleSize=8;
AliITSSimuParam* simpar = fDetType->GetSimuParam();
fpList = new AliITSpList( seg->Npz(),
fScaleSize*seg->Npx() );
m /= 2;
m2 += m2;
} // end for i
-
for(j=0; j<samples; j++) {
Int_t j1 = j;
Int_t p = 0;
if(timeSample > fScaleSize*fMaxNofSamples) {
AliWarning(Form("Wrong Time Sample: %e",timeSample));
continue;
- } // end if timeSample > fScaleSize*fMaxNoofSamples
-
+ } // end if timeSample > fScaleSize*fMaxNofSamples
if(zAnode>nofAnodes) zAnode-=nofAnodes; // to have the anode number between 0. and 256.
if(zAnode*anodePitch > sddWidth || zAnode*anodePitch < 0.)
AliWarning(Form("Exceeding sddWidth=%e Z = %e",sddWidth,zAnode*anodePitch));
// Peak amplitude in nanoAmpere
amplitude = fScaleSize*160.*depEnergy/
(timeStep*eVpairs*2.*acos(-1.)*sigT*sigA);
- amplitude *= timeStep/25.; // WARNING!!!!! Amplitude scaling to
+ //amplitude *= timeStep/25.; // WARNING!!!!! Amplitude scaling to
// account for clock variations
// (reference value: 40 MHz)
chargeloss = 1.-cHloss*driftPath/1000.;
}
fInZI[k] = 0.;
} // end for k
- if(!fDoFFT) {
+ if(!fDoFFT) {
for(k=0; k<fMaxNofSamples; k++) {
Double_t newcont = 0.;
Double_t maxcont = 0.;