//////////////////////////////////////////////////////////////////////////////
// Class performs digitization of Summable digits from simulated data
//
-// In addition it performs mixing of summable digits from different events.
+// In addition it performs mixing/embedding of summable digits from different events.
//
-// For each event two branches are created in TreeD:
+// For each event 3 branches are created in TreeD:
// "EMCAL" - list of digits
+// "EMCALTRG" - list of trigger digits
// "AliEMCALDigitizer" - AliEMCALDigitizer with all parameters used in digitization
//
-// Note, that one cset title for new digits branch, and repeat digitization with
-// another set of parameters.
//
-// Examples of use:
-// root[0] AliEMCALDigitizer * d = new AliEMCALDigitizer() ;
-// root[1] d->ExecuteTask()
-// Warning in <TDatabasePDG::TDatabasePDG>: object already instantiated
-// //Digitizes SDigitis in all events found in file galice.root
-//
-// root[2] AliEMCALDigitizer * d1 = new AliEMCALDigitizer("galice1.root") ;
-// // Will read sdigits from galice1.root
-// root[3] d1->MixWith("galice2.root")
-// Warning in <TDatabasePDG::TDatabasePDG>: object already instantiated
-// // Reads another portion of sdigits from galice2.root
-// root[3] d1->MixWith("galice3.root")
-// // Reads another portion of sdigits from galice3.root
-// root[4] d->ExecuteTask("deb timing")
-// // Reads SDigits from files galice1.root, galice2.root ....
-// // mixes them and stores produced Digits in file galice1.root
-// // deb - prints number of produced digits
-// // deb all - prints list of produced digits
-// // timing - prints time used for digitization
////////////////////////////////////////////////////////////////////////////////////
//
//*-- Author: Sahal Yacoob (LBL)
// based on : AliEMCALDigitizer
// Modif:
// August 2002 Yves Schutz: clone PHOS as closely as possible and intoduction
-// of new IO (à la PHOS)
+// of new IO (a la PHOS)
// November 2003 Aleksei Pavlinov : adopted for Shish-Kebab geometry
+// July 2011 GCB: Digitizer modified to accomodate embedding.
+// Time calibration added. Decalibration possibility of energy and time added
//_________________________________________________________________________________
// --- ROOT system ---
// --- AliRoot header files ---
#include "AliLog.h"
#include "AliRun.h"
-#include "AliRunDigitizer.h"
+#include "AliDigitizationInput.h"
#include "AliRunLoader.h"
#include "AliCDBManager.h"
#include "AliCDBEntry.h"
#include "AliEMCALDigitizer.h"
#include "AliEMCALSDigitizer.h"
#include "AliEMCALGeometry.h"
-//#include "AliEMCALTick.h"
#include "AliEMCALCalibData.h"
#include "AliEMCALSimParam.h"
#include "AliEMCALRawDigit.h"
-namespace
-{
- Double_t HeavisideTheta(Double_t x)
- {
- Double_t signal = 0.;
-
- if (x > 0.) signal = 1.;
-
- return signal;
- }
-
- Double_t AnalogFastORFunction(Double_t *x, Double_t *par)
- {
- Double_t v0 = par[0];
- Double_t t0 = par[1];
- Double_t tr = par[2];
-
- Double_t R1 = 1000.;
- Double_t C1 = 33e-12;
- Double_t R2 = 1800;
- Double_t C2 = 22e-12;
-
- Double_t t = x[0];
-
- return (((0.8*(-((TMath::Power(C1,2)*C2*TMath::Power(TMath::E(),(-t + t0)/(C1*R1))*
- TMath::Power(R1,2)*R2)/(C1*R1 - C2*R2)) +
- C1*C2*R1*R2*(1 - (C2*TMath::Power(TMath::E(),(-t + t0)/(C2*R2))*R2)/(-(C1*R1) + C2*R2)))*v0*
- HeavisideTheta(t - t0))/tr
- - (0.8*(C1*C2*R1*R2 -
- (TMath::Power(C1,2)*C2*TMath::Power(TMath::E(),(-1.*t + t0 + 1.25*tr)/(C1*R1))*
- TMath::Power(R1,2)*R2)/(C1*R1 - C2*R2) +
- (C1*TMath::Power(C2,2)*TMath::Power(TMath::E(),(-1.*t + t0 + 1.25*tr)/(C2*R2))*
- R1*TMath::Power(R2,2))/(C1*R1 - C2*R2))*v0*
- HeavisideTheta(t - t0 - 1.25*tr))/tr)/(C2*R1));
- }
-}
+ namespace
+ {
+ Double_t HeavisideTheta(Double_t x)
+ {
+ Double_t signal = 0.;
+
+ if (x > 0.) signal = 1.;
+
+ return signal;
+ }
+
+ Double_t AnalogFastORFunction(Double_t *x, Double_t *par)
+ {
+ Double_t v0 = par[0];
+ Double_t t0 = par[1];
+ Double_t tr = par[2];
+
+ Double_t R1 = 1000.;
+ Double_t C1 = 33e-12;
+ Double_t R2 = 1800;
+ Double_t C2 = 22e-12;
+
+ Double_t t = x[0];
+
+ return (((0.8*(-((TMath::Power(C1,2)*C2*TMath::Power(TMath::E(),(-t + t0)/(C1*R1))*
+ TMath::Power(R1,2)*R2)/(C1*R1 - C2*R2)) +
+ C1*C2*R1*R2*(1 - (C2*TMath::Power(TMath::E(),(-t + t0)/(C2*R2))*R2)/(-(C1*R1) + C2*R2)))*v0*
+ HeavisideTheta(t - t0))/tr
+ - (0.8*(C1*C2*R1*R2 -
+ (TMath::Power(C1,2)*C2*TMath::Power(TMath::E(),(-1.*t + t0 + 1.25*tr)/(C1*R1))*
+ TMath::Power(R1,2)*R2)/(C1*R1 - C2*R2) +
+ (C1*TMath::Power(C2,2)*TMath::Power(TMath::E(),(-1.*t + t0 + 1.25*tr)/(C2*R2))*
+ R1*TMath::Power(R2,2))/(C1*R1 - C2*R2))*v0*
+ HeavisideTheta(t - t0 - 1.25*tr))/tr)/(C2*R1));
+ }
+ }
ClassImp(AliEMCALDigitizer)
-
-
+
+
//____________________________________________________________________________
AliEMCALDigitizer::AliEMCALDigitizer()
: AliDigitizer("",""),
fEventNames(0x0),
fDigitThreshold(0),
fMeanPhotonElectron(0),
-// fPedestal(0), //Not used, remove?
-// fSlope(0), //Not used, remove?
fPinNoise(0),
+ fTimeNoise(0),
fTimeDelay(0),
- fTimeResolution(0),
-// fTimeThreshold(0), //Not used, remove?
-// fTimeSignalLength(0), //Not used, remove?
+ fTimeResolutionPar0(0),
+ fTimeResolutionPar1(0),
fADCchannelEC(0),
fADCpedestalEC(0),
+ fADCchannelECDecal(0),
+ fTimeChannel(0),
+ fTimeChannelDecal(0),
fNADCEC(0),
fEventFolderName(""),
fFirstEvent(0),
fLastEvent(0),
- fCalibData(0x0)
+ fCalibData(0x0),
+ fSDigitizer(0x0)
{
// ctor
InitParameters() ;
- fManager = 0 ; // We work in the standalone mode
+ fDigInput = 0 ; // We work in the standalone mode
}
//____________________________________________________________________________
AliEMCALDigitizer::AliEMCALDigitizer(TString alirunFileName, TString eventFolderName)
- : AliDigitizer("EMCAL"+AliConfig::Instance()->GetDigitizerTaskName(), alirunFileName),
+ : AliDigitizer("EMCALDigitizer", alirunFileName),
fDefaultInit(kFALSE),
fDigitsInRun(0),
fInit(0),
fEventNames(0),
fDigitThreshold(0),
fMeanPhotonElectron(0),
-// fPedestal(0),//Not used, remove?
-// fSlope(0), //Not used, remove?
fPinNoise(0),
+ fTimeNoise(0),
fTimeDelay(0),
- fTimeResolution(0),
-// fTimeThreshold(0), //Not used, remove?
-// fTimeSignalLength(0), //Not used, remove?
+ fTimeResolutionPar0(0),
+ fTimeResolutionPar1(0),
fADCchannelEC(0),
fADCpedestalEC(0),
+ fADCchannelECDecal(0),
+ fTimeChannel(0),
+ fTimeChannelDecal(0),
fNADCEC(0),
fEventFolderName(eventFolderName),
fFirstEvent(0),
fLastEvent(0),
- fCalibData(0x0)
+ fCalibData(0x0),
+ fSDigitizer(0x0)
{
// ctor
InitParameters() ;
Init() ;
- fManager = 0 ; // We work in the standalone mode
+ fDigInput = 0 ; // We work in the standalone mode
}
//____________________________________________________________________________
fEventNames(d.fEventNames),
fDigitThreshold(d.fDigitThreshold),
fMeanPhotonElectron(d.fMeanPhotonElectron),
-// fPedestal(d.fPedestal), //Not used, remove?
-// fSlope(d.fSlope), //Not used, remove?
fPinNoise(d.fPinNoise),
+ fTimeNoise(d.fTimeNoise),
fTimeDelay(d.fTimeDelay),
- fTimeResolution(d.fTimeResolution),
-// fTimeThreshold(d.fTimeThreshold), //Not used, remove?
-// fTimeSignalLength(d.fTimeSignalLength), //Not used, remove?
+ fTimeResolutionPar0(d.fTimeResolutionPar0),
+ fTimeResolutionPar1(d.fTimeResolutionPar1),
fADCchannelEC(d.fADCchannelEC),
fADCpedestalEC(d.fADCpedestalEC),
+ fADCchannelECDecal(d.fADCchannelECDecal),
+ fTimeChannel(d.fTimeChannel), fTimeChannelDecal(d.fTimeChannelDecal),
fNADCEC(d.fNADCEC),
fEventFolderName(d.fEventFolderName),
fFirstEvent(d.fFirstEvent),
fLastEvent(d.fLastEvent),
- fCalibData(d.fCalibData)
+ fCalibData(d.fCalibData),
+ fSDigitizer(d.fSDigitizer ? new AliEMCALSDigitizer(*d.fSDigitizer) : 0)
{
// copyy ctor
}
//____________________________________________________________________________
-AliEMCALDigitizer::AliEMCALDigitizer(AliRunDigitizer * rd)
- : AliDigitizer(rd,"EMCAL"+AliConfig::Instance()->GetDigitizerTaskName()),
+AliEMCALDigitizer::AliEMCALDigitizer(AliDigitizationInput * rd)
+ : AliDigitizer(rd,"EMCALDigitizer"),
fDefaultInit(kFALSE),
fDigitsInRun(0),
fInit(0),
fEventNames(0),
fDigitThreshold(0),
fMeanPhotonElectron(0),
-// fPedestal(0), //Not used, remove?
-// fSlope(0.), //Not used, remove?
fPinNoise(0.),
+ fTimeNoise(0.),
fTimeDelay(0.),
- fTimeResolution(0.),
-// fTimeThreshold(0), //Not used, remove?
-// fTimeSignalLength(0), //Not used, remove?
+ fTimeResolutionPar0(0.),
+ fTimeResolutionPar1(0.),
fADCchannelEC(0),
fADCpedestalEC(0),
+ fADCchannelECDecal(0),
+ fTimeChannel(0),
+ fTimeChannelDecal(0),
fNADCEC(0),
fEventFolderName(0),
fFirstEvent(0),
fLastEvent(0),
- fCalibData(0x0)
+ fCalibData(0x0),
+ fSDigitizer(0x0)
{
// ctor Init() is called by RunDigitizer
- fManager = rd ;
- fEventFolderName = fManager->GetInputFolderName(0) ;
- SetTitle(dynamic_cast<AliStream*>(fManager->GetInputStream(0))->GetFileName(0));
+ fDigInput = rd ;
+ fEventFolderName = fDigInput->GetInputFolderName(0) ;
+ SetTitle(dynamic_cast<AliStream*>(fDigInput->GetInputStream(0))->GetFileName(0));
InitParameters() ;
}
AliEMCALDigitizer::~AliEMCALDigitizer()
{
//dtor
- if (AliRunLoader::Instance()) {
- AliLoader *emcalLoader=0;
- if ((emcalLoader = AliRunLoader::Instance()->GetDetectorLoader("EMCAL")))
- emcalLoader->CleanDigitizer();
- }
- else
- AliDebug(1," no runloader present");
-
delete [] fInputFileNames ;
delete [] fEventNames ;
-
+ if (fSDigitizer) delete fSDigitizer;
}
//____________________________________________________________________________
// back to an energy in GeV before adding it to the Digit
//
static int nEMC=0; //max number of digits possible
-
AliRunLoader *rl = AliRunLoader::Instance();
AliEMCALLoader *emcalLoader = dynamic_cast<AliEMCALLoader*>(rl->GetDetectorLoader("EMCAL"));
if(emcalLoader){
- Int_t readEvent = event ;
- // fManager is data member from AliDigitizer
- if (fManager)
- readEvent = dynamic_cast<AliStream*>(fManager->GetInputStream(0))->GetCurrentEventNumber() ;
- AliDebug(1,Form("Adding event %d from input stream 0 %s %s",
- readEvent, GetTitle(), fEventFolderName.Data())) ;
- rl->GetEvent(readEvent);
+ Int_t readEvent = event ;
+ // fDigInput is data member from AliDigitizer
+ if (fDigInput)
+ readEvent = dynamic_cast<AliStream*>(fDigInput->GetInputStream(0))->GetCurrentEventNumber() ;
+ AliDebug(1,Form("Adding event %d from input stream 0 %s %s",
+ readEvent, GetTitle(), fEventFolderName.Data())) ;
+ rl->GetEvent(readEvent);
- TClonesArray * digits = emcalLoader->Digits() ;
- digits->Delete() ; //correct way to clear array when memory is
- //allocated by objects stored in array
-
- // Load Geometry
- AliEMCALGeometry *geom = 0;
- if (!rl->GetAliRun()) {
- AliFatal("Could not get AliRun from runLoader");
- }
- else{
- AliEMCAL * emcal = (AliEMCAL*)rl->GetAliRun()->GetDetector("EMCAL");
- geom = emcal->GetGeometry();
- nEMC = geom->GetNCells();
- AliDebug(1,Form("nEMC %i (number cells in EMCAL) | %s \n", nEMC, geom->GetName()));
- }
-
- Int_t absID = -1 ;
-
- digits->Expand(nEMC) ;
-
- // get first the sdigitizer from the tasks list (must have same name as the digitizer)
- if ( !emcalLoader->SDigitizer() )
- emcalLoader->LoadSDigitizer();
- AliEMCALSDigitizer * sDigitizer = dynamic_cast<AliEMCALSDigitizer*>(emcalLoader->SDigitizer());
-
- if (!sDigitizer )
- {
- Fatal("Digitize", "SDigitizer with name %s %s not found", fEventFolderName.Data(), GetTitle() ) ;
- }
- else
- {
+ TClonesArray * digits = emcalLoader->Digits() ;
+ digits->Delete() ; //correct way to clear array when memory is
+ //allocated by objects stored in array
+
+ // Load Geometry
+ AliEMCALGeometry *geom = 0;
+ if (!rl->GetAliRun()) {
+ AliFatal("Could not get AliRun from runLoader");
+ }
+ else{
+ AliEMCAL * emcal = (AliEMCAL*)rl->GetAliRun()->GetDetector("EMCAL");
+ geom = emcal->GetGeometry();
+ nEMC = geom->GetNCells();
+ AliDebug(1,Form("nEMC %i (number cells in EMCAL) | %s \n", nEMC, geom->GetName()));
+ }
+
+ Int_t absID = -1 ;
+
+ digits->Expand(nEMC) ;
+
+ // RS create a digitizer on the fly
+ if (!fSDigitizer) fSDigitizer = new AliEMCALSDigitizer(rl->GetFileName().Data());
+ fSDigitizer->SetEventRange(0, -1) ;
+ //
//take all the inputs to add together and load the SDigits
TObjArray * sdigArray = new TObjArray(fInput) ;
sdigArray->AddAt(emcalLoader->SDigits(), 0) ;
-
Int_t i ;
+ Int_t embed = kFALSE;
for(i = 1 ; i < fInput ; i++){
TString tempo(fEventNames[i]) ;
tempo += i ;
-
+
AliRunLoader * rl2 = AliRunLoader::GetRunLoader(tempo) ;
-
+
if (rl2==0)
- rl2 = AliRunLoader::Open(fInputFileNames[i], tempo) ;
-
- if (fManager)
- readEvent = dynamic_cast<AliStream*>(fManager->GetInputStream(i))->GetCurrentEventNumber() ;
+ rl2 = AliRunLoader::Open(fInputFileNames[i], tempo) ;
+
+ if (fDigInput)
+ readEvent = dynamic_cast<AliStream*>(fDigInput->GetInputStream(i))->GetCurrentEventNumber() ;
Info("Digitize", "Adding event %d from input stream %d %s %s", readEvent, i, fInputFileNames[i].Data(), tempo.Data()) ;
rl2->LoadSDigits();
+ // rl2->LoadDigits();
rl2->GetEvent(readEvent);
if(rl2->GetDetectorLoader("EMCAL"))
- {
- AliEMCALLoader *emcalLoader2 = dynamic_cast<AliEMCALLoader*>(rl2->GetDetectorLoader("EMCAL"));
- if(emcalLoader2) sdigArray->AddAt(emcalLoader2->SDigits(), i) ;
- else AliFatal("EMCAL Loader of second event not available!");
- }
+ {
+ AliEMCALLoader *emcalLoader2 = dynamic_cast<AliEMCALLoader*>(rl2->GetDetectorLoader("EMCAL"));
+
+ if(emcalLoader2) {
+ //Merge 2 simulated sdigits
+ if(emcalLoader2->SDigits()){
+ TClonesArray* sdigits2 = emcalLoader2->SDigits();
+ sdigArray->AddAt(sdigits2, i) ;
+ // Check if first sdigit is of embedded type, if so, handle the sdigits differently:
+ // do not smear energy of embedded, do not add noise to any sdigits
+ if(sdigits2->GetEntriesFast()>0){
+ //printf("Merged digit type: %d\n",dynamic_cast<AliEMCALDigit*> (sdigits2->At(0))->GetType());
+ AliEMCALDigit * digit2 = dynamic_cast<AliEMCALDigit*> (sdigits2->At(0));
+ if(digit2 && digit2->GetType()==AliEMCALDigit::kEmbedded){
+ embed = kTRUE;
+ }
+ }
+ }
+
+ }//loader2
+ else AliFatal("EMCAL Loader of second event not available!");
+
+ }
else Fatal("Digitize", "Loader of second input not found");
- }
-
+ }// input loop
+
//Find the first tower with signal
Int_t nextSig = nEMC + 1 ;
TClonesArray * sdigits ;
for(i = 0 ; i < fInput ; i++){
-
+ if(i > 0 && embed) continue;
sdigits = dynamic_cast<TClonesArray *>(sdigArray->At(i)) ;
if(sdigits){
- if (sdigits->GetEntriesFast() ){
- AliEMCALDigit *sd = dynamic_cast<AliEMCALDigit *>(sdigits->At(0));
- if(sd){
- Int_t curNext = sd->GetId() ;
- if(curNext < nextSig)
- nextSig = curNext ;
- AliDebug(1,Form("input %i : #sdigits %i \n",
- i, sdigits->GetEntriesFast()));
-
- }//First entry is not NULL
- else {
- Info("Digitize", "NULL sdigit pointer");
- continue;
- }
- }//There is at least one entry
- else {
- Info("Digitize", "NULL sdigits array");
- continue;
- }
+ if (sdigits->GetEntriesFast() ){
+ AliEMCALDigit *sd = dynamic_cast<AliEMCALDigit *>(sdigits->At(0));
+ if(sd){
+ Int_t curNext = sd->GetId() ;
+ if(curNext < nextSig)
+ nextSig = curNext ;
+ AliDebug(1,Form("input %i : #sdigits %i \n",
+ i, sdigits->GetEntriesFast()));
+
+ }//First entry is not NULL
+ else {
+ Info("Digitize", "NULL sdigit pointer");
+ continue;
+ }
+ }//There is at least one entry
+ else {
+ Info("Digitize", "NULL sdigits array");
+ continue;
+ }
}// SDigits array exists
else {
- Info("Digitizer","Null sdigit pointer");
- continue;
+ Info("Digitizer","Null sdigit pointer");
+ continue;
}
}// input loop
AliDebug(1,Form("FIRST tower with signal %i \n", nextSig));
-
+
TArrayI index(fInput) ;
index.Reset() ; //Set all indexes to zero
-
+
AliEMCALDigit * digit ;
AliEMCALDigit * curSDigit ;
-
- // TClonesArray * ticks = new TClonesArray("AliEMCALTick",1000) ;
-
- //Put Noise contribution
+
+ //Put Noise contribution, smear time and energy
+ Float_t timeResolution = 0;
for(absID = 0; absID < nEMC; absID++){ // Nov 30, 2006 by PAI; was from 1 to nEMC
- Float_t energy = 0 ;
+ Float_t energy = 0 ;
+
// amplitude set to zero, noise will be added later
- new((*digits)[absID]) AliEMCALDigit( -1, -1, absID, 0., TimeOfNoise(),kFALSE); // absID-1->absID
+ Float_t noiseTime = 0.;
+ if(!embed) noiseTime = TimeOfNoise(); //No need for embedded events?
+ new((*digits)[absID]) AliEMCALDigit( -1, -1, absID, 0., noiseTime,kFALSE); // absID-1->absID
//look if we have to add signal?
-
digit = dynamic_cast<AliEMCALDigit *>(digits->At(absID)); // absID-1->absID
-
- if (digit) {
- if(absID==nextSig){
- //Add SDigits from all inputs
- // ticks->Clear() ;
- //Int_t contrib = 0 ;
-
- //Follow PHOS and comment out this timing model til a better one
- //can be developed - JLK 28-Apr-2008
-
- //Float_t a = digit->GetAmplitude() ;
- //Float_t b = TMath::Abs( a /fTimeSignalLength) ;
- //Mark the beginning of the signal
- //new((*ticks)[contrib++]) AliEMCALTick(digit->GetTime(),0, b);
- //Mark the end of the signal
- //new((*ticks)[contrib++]) AliEMCALTick(digit->GetTime()+fTimeSignalLength, -a, -b);
-
- // Calculate time as time of the largest digit
- Float_t time = digit->GetTime() ;
- Float_t aTime= digit->GetAmplitude() ;
+ if (digit) {
- // loop over input
- for(i = 0; i< fInput ; i++){ //loop over (possible) merge sources
- TClonesArray* sdtclarr = dynamic_cast<TClonesArray *>(sdigArray->At(i));
- if(sdtclarr) {
- Int_t sDigitEntries = sdtclarr->GetEntriesFast();
-
- if(sDigitEntries > index[i] )
- curSDigit = dynamic_cast<AliEMCALDigit*>(sdtclarr->At(index[i])) ;
- else
- curSDigit = 0 ;
-
- //May be several digits will contribute from the same input
- while(curSDigit && (curSDigit->GetId() == absID)){
- //Shift primary to separate primaries belonging different inputs
- Int_t primaryoffset ;
- if(fManager)
- primaryoffset = fManager->GetMask(i) ;
- else
- primaryoffset = i ;
- curSDigit->ShiftPrimary(primaryoffset) ;
-
- //Remove old timing model - JLK 28-April-2008
- //a = curSDigit->GetAmplitude() ;
- //b = a /fTimeSignalLength ;
- //new((*ticks)[contrib++]) AliEMCALTick(curSDigit->GetTime(),0, b);
- //new((*ticks)[contrib++]) AliEMCALTick(curSDigit->GetTime()+fTimeSignalLength, -a, -b);
- if(curSDigit->GetAmplitude()>aTime) {
- aTime = curSDigit->GetAmplitude();
- time = curSDigit->GetTime();
- }
+ if(absID==nextSig){
+
+ // Calculate time as time of the largest digit
+ Float_t time = digit->GetTime() ;
+ Float_t aTime= digit->GetAmplitude() ;
+
+ // loop over input
+ Int_t nInputs = fInput;
+ if(embed) nInputs = 1; // In case of embedding, merge later real digits, do not smear energy and time of data
+ for(i = 0; i< nInputs ; i++){ //loop over (possible) merge sources
+ TClonesArray* sdtclarr = dynamic_cast<TClonesArray *>(sdigArray->At(i));
+ if(sdtclarr) {
+ Int_t sDigitEntries = sdtclarr->GetEntriesFast();
- *digit = *digit + *curSDigit ; //adds amplitudes of each digit
+ if(sDigitEntries > index[i] )
+ curSDigit = dynamic_cast<AliEMCALDigit*>(sdtclarr->At(index[i])) ;
+ else
+ curSDigit = 0 ;
- index[i]++ ;
- if( sDigitEntries > index[i] )
- curSDigit = dynamic_cast<AliEMCALDigit*>(sdtclarr->At(index[i])) ;
- else
- curSDigit = 0 ;
- }// while
- }// source exists
- }// loop over merging sources
+ //May be several digits will contribute from the same input
+ while(curSDigit && (curSDigit->GetId() == absID)){
+ //Shift primary to separate primaries belonging different inputs
+ Int_t primaryoffset ;
+ if(fDigInput)
+ primaryoffset = fDigInput->GetMask(i) ;
+ else
+ primaryoffset = i ;
+ curSDigit->ShiftPrimary(primaryoffset) ;
+
+ if(curSDigit->GetAmplitude()>aTime) {
+ aTime = curSDigit->GetAmplitude();
+ time = curSDigit->GetTime();
+ }
+
+ *digit = *digit + *curSDigit ; //adds amplitudes of each digit
+
+ index[i]++ ;
+
+ if( sDigitEntries > index[i] )
+ curSDigit = dynamic_cast<AliEMCALDigit*>(sdtclarr->At(index[i])) ;
+ else
+ curSDigit = 0 ;
+ }// while
+ }// source exists
+ }// loop over merging sources
+
+
+ //Here we convert the summed amplitude to an energy in GeV only for simulation or mixing of simulations
+ energy = fSDigitizer->Calibrate(digit->GetAmplitude()) ; // GeV
+
+ // add fluctuations for photo-electron creation
+ energy *= static_cast<Float_t>(gRandom->Poisson(fMeanPhotonElectron)) / static_cast<Float_t>(fMeanPhotonElectron) ;
+
+ //calculate and set time
+ digit->SetTime(time) ;
+
+ //Find next signal module
+ nextSig = nEMC + 1 ;
+ for(i = 0 ; i < nInputs ; i++){
+ sdigits = dynamic_cast<TClonesArray *>(sdigArray->At(i)) ;
+
+ if(sdigits){
+ Int_t curNext = nextSig ;
+ if(sdigits->GetEntriesFast() > index[i])
+ {
+ AliEMCALDigit * tmpdigit = dynamic_cast<AliEMCALDigit *>(sdigits->At(index[i]));
+ if(tmpdigit)
+ {
+ curNext = tmpdigit->GetId() ;
+ }
+ }
+ if(curNext < nextSig) nextSig = curNext ;
+ }// sdigits exist
+ } // input loop
+
+ }//absID==nextSig
- //Here we convert the summed amplitude to an energy in GeV
- energy = sDigitizer->Calibrate(digit->GetAmplitude()) ; // GeV
- // add fluctuations for photo-electron creation
- energy *= static_cast<Float_t>(gRandom->Poisson(fMeanPhotonElectron)) / static_cast<Float_t>(fMeanPhotonElectron) ;
+ // add the noise now, no need for embedded events with real data
+ if(!embed)
+ energy += TMath::Abs(gRandom->Gaus(0., fPinNoise)) ;
- //calculate and set time
- //New timing model needed - JLK 28-April-2008
- //Float_t time = FrontEdgeTime(ticks) ;
- digit->SetTime(time) ;
+
+ // JLK 26-June-2008
+ //Now digitize the energy according to the fSDigitizer method,
+ //which merely converts the energy to an integer. Later we will
+ //check that the stored value matches our allowed dynamic ranges
+ digit->SetAmplitude(fSDigitizer->Digitize(energy)) ;
- //Find next signal module
- nextSig = nEMC + 1 ;
- for(i = 0 ; i < fInput ; i++){
- sdigits = dynamic_cast<TClonesArray *>(sdigArray->At(i)) ;
- if(sdigits){
- Int_t curNext = nextSig ;
- AliEMCALDigit * tmpdigit = dynamic_cast<AliEMCALDigit *>(sdigits->At(index[i]));
- if(sdigits->GetEntriesFast() > index[i] && tmpdigit){
- curNext = tmpdigit->GetId() ;
- }
- if(curNext < nextSig) nextSig = curNext ;
- }// sdigits exist
- } // input loop
+ //Set time resolution with final energy
+ timeResolution = GetTimeResolution(energy);
+ digit->SetTime(gRandom->Gaus(digit->GetTime(),timeResolution) ) ;
+ AliDebug(10,Form(" absID %5i energy %f nextSig %5i\n",
+ absID, energy, nextSig));
+ //Add delay to time
+ digit->SetTime(digit->GetTime()+fTimeDelay) ;
- }//absID==nextSig
-
- // add the noise now
- energy += TMath::Abs(gRandom->Gaus(0., fPinNoise)) ;
- // JLK 26-June-2008
- //Now digitize the energy according to the sDigitizer method,
- //which merely converts the energy to an integer. Later we will
- //check that the stored value matches our allowed dynamic ranges
- digit->SetAmplitude(sDigitizer->Digitize(energy)) ;
- AliDebug(10,Form(" absID %5i energy %f nextSig %5i\n",
- absID, energy, nextSig));
}// Digit pointer exists
else{
- Info("Digitizer","Digit pointer is null");
+ Info("Digitizer","Digit pointer is null");
}
} // for(absID = 0; absID < nEMC; absID++)
-
- //ticks->Delete() ;
- //delete ticks ;
-
+
+ //ticks->Delete() ;
+ //delete ticks ;
+
+ //Embed simulated amplitude (and time?) to real data digits
+ if(embed){
+ for(Int_t input = 1; input<fInput; input++){
+ TClonesArray *realDigits = dynamic_cast<TClonesArray*> (sdigArray->At(input));
+ if(!realDigits){
+ AliDebug(1,"No sdigits to merge\n");
+ continue;
+ }
+ for(Int_t i2 = 0 ; i2 < realDigits->GetEntriesFast() ; i2++){
+ AliEMCALDigit * digit2 = dynamic_cast<AliEMCALDigit*>( realDigits->At(i2) ) ;
+ if(digit2){
+ digit = dynamic_cast<AliEMCALDigit*>( digits->At(digit2->GetId()) ) ;
+ if(digit){
+
+ // Put the embedded cell energy in same units as simulated sdigits -> transform to energy units
+ // and multiply to get a big int.
+ Float_t time2 = digit2->GetTime();
+ Float_t e2 = digit2->GetAmplitude();
+ CalibrateADCTime(e2,time2,digit2->GetId());
+ Float_t amp2 = fSDigitizer->Digitize(e2);
+
+ Float_t e0 = digit ->GetAmplitude();
+ if(e0>0.01)
+ AliDebug(1,Form("digit 1: Abs ID %d, amp %f, type %d, time %e; digit2: Abs ID %d, amp %f, type %d, time %e\n",
+ digit ->GetId(),digit ->GetAmplitude(), digit ->GetType(), digit->GetTime(),
+ digit2->GetId(),amp2, digit2->GetType(), time2 ));
+
+ // Sum amplitudes, change digit amplitude
+ digit->SetAmplitude( digit->GetAmplitude() + amp2);
+ // Rough assumption, assign time of the largest of the 2 digits,
+ // data or signal to the final digit.
+ if(amp2 > digit->GetAmplitude()) digit->SetTime(time2);
+ //Mark the new digit as embedded
+ digit->SetType(AliEMCALDigit::kEmbedded);
+
+ if(digit2->GetAmplitude()>0.01 && e0> 0.01 )
+ AliDebug(1,Form("Embedded digit: Abs ID %d, amp %f, type %d\n",
+ digit->GetId(), digit->GetAmplitude(), digit->GetType()));
+ }//digit2
+ }//digit2
+ }//loop digit 2
+ }//input loop
+ }//embed
+
//JLK is it better to call Clear() here?
delete sdigArray ; //We should not delete its contents
-
+
//remove digits below thresholds
// until 10-02-2010 remove digits with energy smaller than fDigitThreshold 3*fPinNoise
- // now, remove digits with Digitized ADC smaller than fDigitThreshold = 3
- Float_t energy=0;
+ // now, remove digits with Digitized ADC smaller than fDigitThreshold = 3,
+ // before merge in the same loop real data digits if available
+ Float_t energy = 0;
+ Float_t time = 0;
for(i = 0 ; i < nEMC ; i++){
digit = dynamic_cast<AliEMCALDigit*>( digits->At(i) ) ;
if(digit){
- //First get the energy in GeV units.
- energy = sDigitizer->Calibrate(digit->GetAmplitude()) ;
- //Then digitize using the calibration constants of the ocdb
- Float_t ampADC = DigitizeEnergy(energy, digit->GetId()) ;
- //if(ampADC>2)printf("Digit energy %f, amp %d, amp cal %d, threshold %d\n",energy,digit->GetAmplitude(),ampADC,fDigitThreshold);
- if(ampADC < fDigitThreshold)
- digits->RemoveAt(i) ;
- else
- digit->SetTime(gRandom->Gaus(digit->GetTime(),fTimeResolution) ) ;
+
+ //Then get the energy in GeV units.
+ energy = fSDigitizer->Calibrate(digit->GetAmplitude()) ;
+ //Then digitize using the calibration constants of the ocdb
+ Float_t ampADC = energy;
+ DigitizeEnergyTime(ampADC, time, digit->GetId()) ;
+ if(ampADC < fDigitThreshold)
+ digits->RemoveAt(i) ;
+
}// digit exists
} // digit loop
-
+
digits->Compress() ;
-
+
Int_t ndigits = digits->GetEntriesFast() ;
-
+
//JLK 26-June-2008
//After we have done the summing and digitizing to create the
//digits, now we want to calibrate the resulting amplitude to match
for (i = 0 ; i < ndigits ; i++) {
digit = dynamic_cast<AliEMCALDigit *>( digits->At(i) ) ;
if(digit){
- digit->SetIndexInList(i) ;
- energy = sDigitizer->Calibrate(digit->GetAmplitude()) ;
- digit->SetAmplitude(DigitizeEnergy(energy, digit->GetId()) ) ;
- //Add delay to time
- digit->SetTime(digit->GetTime()+fTimeDelay) ;
- // printf("digit amplitude set at end: i %d, amp %f\n",i,digit->GetAmplitude());
+ digit->SetIndexInList(i) ;
+ energy = fSDigitizer->Calibrate(digit->GetAmplitude()) ;
+ time = digit->GetTime();
+ Float_t ampADC = energy;
+ DigitizeEnergyTime(ampADC, time, digit->GetId());
+ digit->SetAmplitude(ampADC) ;
+ digit->SetTime(time);
+ // printf("digit amplitude set at end: i %d, amp %f\n",i,digit->GetAmplitude());
}// digit exists
}//Digit loop
-
- }//SDigitizer not null
+
}
else AliFatal("EMCALLoader is NULL!") ;
-
+
}
-// //_____________________________________________________________________
-Float_t AliEMCALDigitizer::DigitizeEnergy(Float_t energy, Int_t AbsId)
+//_____________________________________________________________________
+void AliEMCALDigitizer::DigitizeEnergyTime(Float_t & energy, Float_t & time, const Int_t absId)
{
// JLK 26-June-2008
// Returns digitized value of the energy in a cell absId
//
// Load Geometry
const AliEMCALGeometry * geom = AliEMCALGeometry::GetInstance();
-
- Float_t channel = -999;
if (geom==0){
AliFatal("Did not get geometry from EMCALLoader");
+ return;
}
- else {
- Int_t iSupMod = -1;
- Int_t nModule = -1;
- Int_t nIphi = -1;
- Int_t nIeta = -1;
- Int_t iphi = -1;
- Int_t ieta = -1;
- Bool_t bCell = geom->GetCellIndex(AbsId, iSupMod, nModule, nIphi, nIeta) ;
- if(!bCell)
- Error("DigitizeEnergy","Wrong cell id number : AbsId %i ", AbsId) ;
- geom->GetCellPhiEtaIndexInSModule(iSupMod,nModule,nIphi, nIeta,iphi,ieta);
- if(fCalibData) {
- fADCpedestalEC = fCalibData->GetADCpedestal(iSupMod,ieta,iphi);
- fADCchannelEC = fCalibData->GetADCchannel(iSupMod,ieta,iphi);
- }
+ Int_t iSupMod = -1;
+ Int_t nModule = -1;
+ Int_t nIphi = -1;
+ Int_t nIeta = -1;
+ Int_t iphi = -1;
+ Int_t ieta = -1;
+ Bool_t bCell = geom->GetCellIndex(absId, iSupMod, nModule, nIphi, nIeta) ;
+ if(!bCell)
+ Error("DigitizeEnergyTime","Wrong cell id number : absId %i ", absId) ;
+ geom->GetCellPhiEtaIndexInSModule(iSupMod,nModule,nIphi, nIeta,iphi,ieta);
- //channel = static_cast<Int_t> (TMath::Floor( (energy + fADCpedestalEC)/fADCchannelEC )) ;
- channel = (energy + fADCpedestalEC)/fADCchannelEC ;
+ if(fCalibData) {
+ fADCpedestalEC = fCalibData->GetADCpedestal (iSupMod,ieta,iphi);
+ fADCchannelEC = fCalibData->GetADCchannel (iSupMod,ieta,iphi);
+ fADCchannelECDecal = fCalibData->GetADCchannelDecal (iSupMod,ieta,iphi);
+ fTimeChannel = fCalibData->GetTimeChannel (iSupMod,ieta,iphi);
+ fTimeChannelDecal = fCalibData->GetTimeChannelDecal(iSupMod,ieta,iphi);
+ }
+
+ //Apply calibration to get ADC counts and partial decalibration as especified in OCDB
+ energy = (energy + fADCpedestalEC)/fADCchannelEC/fADCchannelECDecal ;
+ time += fTimeChannel-fTimeChannelDecal;
+
+ if(energy > fNADCEC )
+ energy = fNADCEC ;
+}
- if(channel > fNADCEC )
- channel = fNADCEC ;
- }// geometry exists
+//_____________________________________________________________________
+void AliEMCALDigitizer::CalibrateADCTime(Float_t & adc, Float_t & time, const Int_t absId)
+{
+ // Returns the energy in a cell absId with a given adc value
+ // using the calibration constants stored in the OCDB. Time also corrected from parameter in OCDB
+ // Used in case of embedding, transform ADC counts from real event into energy
+ // so that we can add the energy of the simulated sdigits which are in energy
+ // units.
+ // Same as in AliEMCALClusterizer::Calibrate() but here we do not reject channels being marked as hot
+ // or with time out of window
+
+ // Load Geometry
+ const AliEMCALGeometry * geom = AliEMCALGeometry::GetInstance();
+
+ if (!geom){
+ AliFatal("Did not get geometry from EMCALLoader");
+ return;
+ }
+
+ Int_t iSupMod = -1;
+ Int_t nModule = -1;
+ Int_t nIphi = -1;
+ Int_t nIeta = -1;
+ Int_t iphi = -1;
+ Int_t ieta = -1;
+ Bool_t bCell = geom->GetCellIndex(absId, iSupMod, nModule, nIphi, nIeta) ;
+ if(!bCell)
+ Error("CalibrateADCTime","Wrong cell id number : absId %i ", absId) ;
+ geom->GetCellPhiEtaIndexInSModule(iSupMod,nModule,nIphi, nIeta,iphi,ieta);
+
+ if(fCalibData) {
+ fADCpedestalEC = fCalibData->GetADCpedestal(iSupMod,ieta,iphi);
+ fADCchannelEC = fCalibData->GetADCchannel (iSupMod,ieta,iphi);
+ fTimeChannel = fCalibData->GetTimeChannel(iSupMod,ieta,iphi);
+ }
+
+ adc = adc * fADCchannelEC - fADCpedestalEC;
+ time -= fTimeChannel;
- return channel ;
}
+
//____________________________________________________________________________
-void AliEMCALDigitizer::Exec(Option_t *option)
+void AliEMCALDigitizer::Digitize(Option_t *option)
{
// Steering method to process digitization for events
// in the range from fFirstEvent to fLastEvent.
// by default fLastEvent = fFirstEvent (process only one event)
if (!fInit) { // to prevent overwrite existing file
- Error( "Exec", "Give a version name different from %s", fEventFolderName.Data() ) ;
+ Error( "Digitize", "Give a version name different from %s", fEventFolderName.Data() ) ;
return ;
}
AliFatal("Did not get the Loader");
}
else{
- // Post Digitizer to the white board
- emcalLoader->PostDigitizer(this) ;
if (fLastEvent == -1) {
fLastEvent = rl->GetNumberOfEvents() - 1 ;
}
- else if (fManager)
+ else if (fDigInput)
fLastEvent = fFirstEvent ; // what is this ??
nEvents = fLastEvent - fFirstEvent + 1;
(emcalLoader->TreeD())->Fill();
emcalLoader->WriteDigits( "OVERWRITE");
- emcalLoader->WriteDigitizer("OVERWRITE");
Unload();
//increment the total number of Digits per run
fDigitsInRun += emcalLoader->Digits()->GetEntriesFast() ;
}//loop
-
- emcalLoader->CleanDigitizer() ;
-
+
}//loader exists
if(strstr(option,"tim")){
gBenchmark->Stop("EMCALDigitizer");
- AliInfo(Form("Exec: took %f seconds for Digitizing %f seconds per event",
+ AliInfo(Form("Digitize: took %f seconds for Digitizing %f seconds per event",
gBenchmark->GetCpuTime("EMCALDigitizer"), gBenchmark->GetCpuTime("EMCALDigitizer")/nEvents )) ;
}
}
+//__________________________________________________________________
+Float_t AliEMCALDigitizer::GetTimeResolution(Float_t energy) const
+{
+ // From F. Blanco
+ Float_t res = -1;
+ if (energy > 0) {
+ res = TMath::Sqrt(fTimeResolutionPar0 +
+ fTimeResolutionPar1/(energy*energy) );
+ }
+ // parametrization above is for ns. Convert to seconds:
+ return res*1e-9;
+}
+
//____________________________________________________________________________
void AliEMCALDigitizer::Digits2FastOR(TClonesArray* digitsTMP, TClonesArray* digitsTRG)
{
// id: 0..95
const Int_t reso = 11; // 11-bit resolution ADC
const Double_t vFSR = 1; // Full scale input voltage range
- const Double_t Ne = 125; // signal of the APD per MeV of energy deposit in a tower: 125 photo-e-/MeV @ M=30
+ const Double_t dNe = 125; // signal of the APD per MeV of energy deposit in a tower: 125 photo-e-/MeV @ M=30
const Double_t vA = .136e-6; // CSP output range: 0.136uV/e-
const Double_t rise = 40e-9; // rise time (10-90%) of the FastOR signal before shaping
const Double_t kTimeBinWidth = 25E-9; // sampling frequency (40MHz)
- Double_t vV = 1000. * dE * Ne * vA; // GeV 2 MeV
+ Double_t vV = 1000. * dE * dNe * vA; // GeV 2 MeV
TF1 signalF("signal", AnalogFastORFunction, 0, nSamples * kTimeBinWidth, 3);
signalF.SetParameter( 0, vV );
}
}
-
-//____________________________________________________________________________
-//Float_t AliEMCALDigitizer::FrontEdgeTime(TClonesArray * ticks)
-//{
-// // Returns the shortest time among all time ticks
-//
-// ticks->Sort() ; //Sort in accordance with times of ticks
-// TIter it(ticks) ;
-// AliEMCALTick * ctick = (AliEMCALTick *) it.Next() ;
-// Float_t time = ctick->CrossingTime(fTimeThreshold) ;
-//
-// AliEMCALTick * t ;
-// while((t=(AliEMCALTick*) it.Next())){
-// if(t->GetTime() < time) //This tick starts before crossing
-// *ctick+=*t ;
-// else
-// return time ;
-//
-// time = ctick->CrossingTime(fTimeThreshold) ;
-// }
-// return time ;
-//}
-//
-
//____________________________________________________________________________
Bool_t AliEMCALDigitizer::Init()
{
// Makes all memory allocations
fInit = kTRUE ;
AliEMCALLoader *emcalLoader = dynamic_cast<AliEMCALLoader*>(AliRunLoader::Instance()->GetDetectorLoader("EMCAL"));
-
+
if ( emcalLoader == 0 ) {
Fatal("Init", "Could not obtain the AliEMCALLoader");
return kFALSE;
}
-
+
fFirstEvent = 0 ;
fLastEvent = fFirstEvent ;
- if(fManager)
- fInput = fManager->GetNinputs() ;
+ if(fDigInput)
+ fInput = fDigInput->GetNinputs() ;
else
fInput = 1 ;
fEventNames[0] = fEventFolderName.Data() ;
Int_t index ;
for (index = 1 ; index < fInput ; index++) {
- fInputFileNames[index] = dynamic_cast<AliStream*>(fManager->GetInputStream(index))->GetFileName(0);
- TString tempo = fManager->GetInputFolderName(index) ;
- fEventNames[index] = tempo.Remove(tempo.Length()-1) ; // strip of the stream number added bt fManager
+ fInputFileNames[index] = dynamic_cast<AliStream*>(fDigInput->GetInputStream(index))->GetFileName(0);
+ TString tempo = fDigInput->GetInputFolderName(index) ;
+ fEventNames[index] = tempo.Remove(tempo.Length()-1) ; // strip of the stream number added bt fDigInput
}
-
- //to prevent cleaning of this object while GetEvent is called
- emcalLoader->GetDigitsDataLoader()->GetBaseTaskLoader()->SetDoNotReload(kTRUE);
-
+
//Calibration instance
fCalibData = emcalLoader->CalibData();
return fInit ;
if(emcalLoader) simParam = emcalLoader->SimulationParameters();
if(!simParam){
- simParam = AliEMCALSimParam::GetInstance();
- AliWarning("Simulation Parameters not available in OCDB?");
+ simParam = AliEMCALSimParam::GetInstance();
+ AliWarning("Simulation Parameters not available in OCDB?");
}
-
+
fMeanPhotonElectron = simParam->GetMeanPhotonElectron();//4400; // electrons per GeV
fPinNoise = simParam->GetPinNoise();//0.012; // pin noise in GeV from analysis test beam data
if (fPinNoise < 0.0001 )
Warning("InitParameters", "No noise added\n") ;
+ fTimeNoise = simParam->GetTimeNoise(); // 1.28E-5 s
fDigitThreshold = simParam->GetDigitThreshold(); //fPinNoise * 3; // 3 * sigma
- fTimeResolution = simParam->GetTimeResolution(); //0.6e-9 ; // 600 pc
+ fTimeResolutionPar0 = simParam->GetTimeResolutionPar0();
+ fTimeResolutionPar1 = simParam->GetTimeResolutionPar1();
fTimeDelay = simParam->GetTimeDelay(); //600e-9 ; // 600 ns
-
+
// These defaults are normally not used.
// Values are read from calibration database instead
fADCchannelEC = 0.0153; // Update 24 Apr 2007: 250./16/1024 - width of one ADC channel in GeV
- fADCpedestalEC = 0.0 ; // GeV
+ fADCpedestalEC = 0.0 ; // GeV
+ fADCchannelECDecal = 1.0; // No decalibration by default
+ fTimeChannel = 0.0; // No time calibration by default
+ fTimeChannelDecal = 0.0; // No time decalibration by default
- fNADCEC = simParam->GetNADCEC();//(Int_t) TMath::Power(2,16) ; // number of channels in Tower ADC - 65536
-
- AliDebug(2,Form("Mean Photon Electron %d, Noise %f, Digit Threshold %d,Time Resolution %g,NADCEC %d",
- fMeanPhotonElectron,fPinNoise,fDigitThreshold,fTimeResolution,fNADCEC));
-
- // Not used anymore, remove?
- // fTimeSignalLength = 1.0e-9 ;
- // fTimeThreshold = 0.001*10000000 ; // Means 1 MeV in terms of SDigits amplitude ??
-
-}
-
-//__________________________________________________________________
-void AliEMCALDigitizer::MixWith(TString alirunFileName, TString eventFolderName)
-{
- // Allows to produce digits by superimposing background and signal event.
- // It is assumed, that headers file with SIGNAL events is opened in
- // the constructor.
- // Sets the BACKGROUND event, with which the SIGNAL event is to be mixed
- // Thus we avoid writing (changing) huge and expensive
- // backgound files: all output will be writen into SIGNAL, i.e.
- // opened in constructor file.
- //
- // One can open as many files to mix with as one needs.
- // However only Sdigits with the same name (i.e. constructed with the same SDigitizer)
- // can be mixed.
-
- if( strcmp(GetName(), "") == 0 )
- Init() ;
-
- if(fManager){
- Error("MixWith", "Cannot use this method under AliRunDigitizer") ;
- return ;
- }
- // looking for file which contains AliRun
- if (gSystem->AccessPathName(alirunFileName)) {// file does not exist
- Error("MixWith", "File %s does not exist!", alirunFileName.Data()) ;
- return ;
- }
- // looking for the file which contains SDigits
- AliEMCALLoader *emcalLoader = dynamic_cast<AliEMCALLoader*>(AliRunLoader::Instance()->GetDetectorLoader("EMCAL"));
+ fNADCEC = simParam->GetNADCEC();//(Int_t) TMath::Power(2,16) ; // number of channels in Tower ADC - 65536
- if(!emcalLoader){
- AliFatal("Did not get the Loader");
- }
- else{
- TString fileName( emcalLoader->GetSDigitsFileName() ) ;
- if ( eventFolderName != AliConfig::GetDefaultEventFolderName()) // only if not the default folder name
- fileName = fileName.ReplaceAll(".root", "") + "_" + eventFolderName + ".root" ;
- if ( (gSystem->AccessPathName(fileName)) ) {
- Error("MixWith", "The file %s does not exist!", fileName.Data()) ;
- return ;
- }
- // need to increase the arrays
- // MvL: This code only works when fInput == 1, I think.
- TString tempo = fInputFileNames[fInput-1] ;
- delete [] fInputFileNames ;
- fInputFileNames = new TString[fInput+1] ;
- fInputFileNames[fInput-1] = tempo ;
-
- tempo = fEventNames[fInput-1] ;
- delete [] fEventNames ;
- fEventNames = new TString[fInput+1] ;
- fEventNames[fInput-1] = tempo ;
-
- fInputFileNames[fInput] = alirunFileName ;
- fEventNames[fInput] = eventFolderName ;
- fInput++ ;
-
- }// Loader exits
-
-}
+ AliDebug(2,Form("Mean Photon Electron %d, Noise: APD %f, Time %f; Digit Threshold %d,Time Resolution Par0 %g Par1 %g,NADCEC %d",
+ fMeanPhotonElectron,fPinNoise,fTimeNoise, fDigitThreshold,fTimeResolutionPar0,fTimeResolutionPar1,fNADCEC));
+
+}
//__________________________________________________________________
void AliEMCALDigitizer::Print1(Option_t * option)
-{ // 19-nov-04 - just for convinience
+{ // 19-nov-04 - just for convenience
Print();
PrintDigits(option);
}
//__________________________________________________________________
-void AliEMCALDigitizer::Print(Option_t*)const
+void AliEMCALDigitizer::Print (Option_t * ) const
{
// Print Digitizer's parameters
printf("Print: \n------------------- %s -------------", GetName() ) ;
printf(" Writing Digits to branch with title %s\n", fEventFolderName.Data()) ;
Int_t nStreams ;
- if (fManager)
+ if (fDigInput)
nStreams = GetNInputStreams() ;
else
nStreams = fInput ;
-
+
AliRunLoader *rl=0;
Int_t index = 0 ;
printf ("Adding SDigits from %s %s\n", fInputFileNames[index].Data(), fileName.Data()) ;
}//loader
}
-
+
AliEMCALLoader *emcalLoader = dynamic_cast<AliEMCALLoader*>(AliRunLoader::Instance()->GetDetectorLoader("EMCAL"));
-
+
if(emcalLoader) printf("\nWriting digits to %s", emcalLoader->GetDigitsFileName().Data()) ;
else printf("\nNULL LOADER");
-
- printf("\nWith following parameters:\n") ;
- printf(" Electronics noise in EMC (fPinNoise) = %f\n", fPinNoise) ;
+ printf("\nWith following parameters:\n") ;
+ printf(" Electronics noise in EMC, APD (fPinNoise) = %f, Time = %f \n", fPinNoise, fTimeNoise) ;
printf(" Threshold in Tower (fDigitThreshold) = %d\n", fDigitThreshold) ;
printf("---------------------------------------------------\n") ;
}
void AliEMCALDigitizer::PrintDigits(Option_t * option)
{
//utility method for printing digit information
-
+
AliEMCALLoader *emcalLoader = dynamic_cast<AliEMCALLoader*>(AliRunLoader::Instance()->GetDetectorLoader("EMCAL"));
if(emcalLoader){
TClonesArray * digits = emcalLoader->Digits() ;
Float_t AliEMCALDigitizer::TimeOfNoise(void)
{
// Calculates the time signal generated by noise
- //PH Info("TimeOfNoise", "Change me") ;
- return gRandom->Rndm() * 1.28E-5;
+ //printf("Time noise %e\n",fTimeNoise);
+ return gRandom->Rndm() * fTimeNoise;
}
//__________________________________________________________________
//_________________________________________________________________________________________
void AliEMCALDigitizer::WriteDigits()
-{
-
- // Makes TreeD in the output file.
+{ // Makes TreeD in the output file.
// Check if branch already exists:
// if yes, exit without writing: ROOT TTree does not support overwriting/updating of
// already existing branches.
//__________________________________________________________________
void AliEMCALDigitizer::WriteDigits(TClonesArray* digits, const char* branchName)
-{
- //
- AliEMCALLoader *emcalLoader = dynamic_cast<AliEMCALLoader*>(AliRunLoader::Instance()->GetDetectorLoader("EMCAL"));
- if(emcalLoader){
+{ // overloaded method
+ AliEMCALLoader *emcalLoader = dynamic_cast<AliEMCALLoader*>(AliRunLoader::Instance()->GetDetectorLoader("EMCAL"));
+ if(emcalLoader){
TTree* treeD = emcalLoader->TreeD();
if (!treeD)
- {
- emcalLoader->MakeDigitsContainer();
- treeD = emcalLoader->TreeD();
- }
+ {
+ emcalLoader->MakeDigitsContainer();
+ treeD = emcalLoader->TreeD();
+ }
// -- create Digits branch
Int_t bufferSize = 32000;
if (TBranch* triggerBranch = treeD->GetBranch(branchName))
- {
- triggerBranch->SetAddress(&digits);
- }
+ {
+ triggerBranch->SetAddress(&digits);
+ }
else
- {
- treeD->Branch(branchName,"TClonesArray",&digits,bufferSize);
- }
+ {
+ treeD->Branch(branchName,"TClonesArray",&digits,bufferSize);
+ }
// treeD->Fill();
}// loader exists
else AliFatal("Loader not available");
}
-//__________________________________________________________________
-void AliEMCALDigitizer::Browse(TBrowser* b)
-{
- TTask::Browse(b);
-}