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Public Member Functions | Private Member Functions | Private Attributes | Static Private Attributes

HcalRecHitsMaker Class Reference

#include <HcalRecHitsMaker.h>

List of all members.

Public Member Functions

 HcalRecHitsMaker (edm::ParameterSet const &p, int, const RandomEngine *random)
void init (const edm::EventSetup &es, bool dodigis, bool domiscalib)
void loadHcalRecHits (edm::Event &iEvent, HFRecHitCollection &hfHits, HFDigiCollection &hfDigis)
void loadHcalRecHits (edm::Event &iEvent, HORecHitCollection &ho, HODigiCollection &hoDigis)
void loadHcalRecHits (edm::Event &iEvent, HBHERecHitCollection &hbheHits, HBHEDigiCollection &hbheDigis)
 ~HcalRecHitsMaker ()

Private Member Functions

void clean ()
void cleanSubDet (std::vector< float > &hits, std::vector< int > &cells)
unsigned createVectorOfSubdetectorCells (const CaloGeometry &, int subdetn, std::vector< int > &)
unsigned createVectorsOfCells (const edm::EventSetup &es)
int fCtoAdc (double fc) const
void Fill (int id, float energy, std::vector< int > &myHits, float noise, float correctionfactor)
double fractionOOT (int time_slice)
void loadPCaloHits (const edm::Event &iEvent)
double noiseInfCfromDB (const HcalDbService *conditions, const HcalDetId &detId)
void noisify ()
unsigned noisifySubdet (std::vector< float > &theMap, std::vector< int > &theHits, const std::vector< int > &thecells, unsigned ncells, double hcalHotFraction_, const GaussianTail *, double sigma, double threshold, double correctionfactor)

Private Attributes

std::vector< double > corrfac_
unsigned det_
bool doDigis_
bool doMiscalib_
bool doSaturation_
std::vector< int > firedCells_
std::string hcalfileinpath_
std::vector< double > hcalHotFraction_
std::vector< float > hcalRecHits_
edm::InputTag inputCol_
std::vector< GaussianTail * > myGaussianTailGenerators_
const HcalRespCorrsmyRespCorr
unsigned nhbcells_
unsigned nhecells_
unsigned nhfcells_
unsigned nhocells_
unsigned nnoise_
std::vector< double > noise_
bool noiseFromDb_
const RandomEnginerandom_
double refactor_
double refactor_mean_
std::vector< double > threshold_

Static Private Attributes

static std::vector< int > fctoadc_
static std::vector< float > gains_
static std::vector< int > hbhi_
static std::vector< int > hehi_
static std::vector< int > hfhi_
static std::vector< int > hohi_
static bool initialized_ = false
static unsigned maxIndex_ = 0
static std::vector< float > miscalib_
static std::vector< float > noisesigma_
static std::vector< float > peds_
static std::vector< float > sat_
static std::vector< HcalDetIdtheDetIds_
static std::vector< float > TPGFactor_

Detailed Description

Definition at line 26 of file HcalRecHitsMaker.h.


Constructor & Destructor Documentation

HcalRecHitsMaker::HcalRecHitsMaker ( edm::ParameterSet const &  p,
int  det,
const RandomEngine random 
)

Definition at line 49 of file HcalRecHitsMaker.cc.

References corrfac_, det_, doSaturation_, edm::ParameterSet::getParameter(), hbhi_, hcalfileinpath_, hcalHotFraction_, hehi_, hfhi_, hohi_, inputCol_, myGaussianTailGenerators_, nhbcells_, nhecells_, nhfcells_, nhocells_, nnoise_, noise_, noiseFromDb_, random_, refactor_, refactor_mean_, mathSSE::sqrt(), and threshold_.

  :
  det_(det),
  doDigis_(false),
  noiseFromDb_(false),
  random_(myrandom)
  //,myHcalSimParameterMap_(0)
{
  edm::ParameterSet RecHitsParameters=p.getParameter<edm::ParameterSet>("HCAL");
  noise_ = RecHitsParameters.getParameter<std::vector<double> >("Noise");
  corrfac_ = RecHitsParameters.getParameter<std::vector<double> >("NoiseCorrectionFactor");
  threshold_ = RecHitsParameters.getParameter<std::vector<double> >("Threshold");
  doSaturation_ = RecHitsParameters.getParameter<bool>("EnableSaturation");
    
  refactor_ = RecHitsParameters.getParameter<double> ("Refactor");
  refactor_mean_ = RecHitsParameters.getParameter<double> ("Refactor_mean");
  hcalfileinpath_= RecHitsParameters.getParameter<std::string> ("fileNameHcal");  
  inputCol_=RecHitsParameters.getParameter<edm::InputTag>("MixedSimHits");
  nhbcells_=nhecells_=nhocells_=nhfcells_=0;

  if(det_==4)
    {
      hbhi_.reserve(2600);
      hehi_.reserve(2600);
    }
  else if (det_==5)
    hohi_.reserve(2200);
  else if (det_==6)
    hfhi_.reserve(1800);

  if(threshold_.size()!=noise_.size())
    {
      edm::LogWarning("CaloRecHitsProducer") << " WARNING : HCAL Noise simulation, the number of parameters should be the same for the noise and the thresholds. Disabling the noise simulation " << std::endl;
      noise_.clear();
      noise_.push_back(0.);
    }
  else 
    nnoise_=noise_.size(); 

  //  edm::ParameterSet hcalparam = p2.getParameter<edm::ParameterSet>("hcalSimParam"); 
  //  myHcalSimParameterMap_ = new HcalSimParameterMap(hcalparam);

  // Computes the fraction of HCAL above the threshold
  Genfun::Erf myErf;
  hcalHotFraction_.resize(nnoise_,0.);
  myGaussianTailGenerators_.resize(nnoise_,0);
  if(noise_.size()>0) 
    {
      for(unsigned inoise=0;inoise<nnoise_;++inoise)
        {
          if(noise_[inoise]==0) {
            hcalHotFraction_[inoise]=0.;
            continue;
          } else if(noise_[inoise]==-1) {
            noiseFromDb_=true;
            continue;
          } else {
            hcalHotFraction_.push_back(0.5-0.5*myErf(threshold_[inoise]/noise_[inoise]/sqrt(2.)));
            myGaussianTailGenerators_[inoise]=new GaussianTail(random_,noise_[inoise],threshold_[inoise]);
          }
        }   
    }  
}
HcalRecHitsMaker::~HcalRecHitsMaker ( )

Definition at line 114 of file HcalRecHitsMaker.cc.

References clean(), hbhi_, hehi_, hfhi_, hohi_, myGaussianTailGenerators_, and theDetIds_.

{
  clean();  
  if(myGaussianTailGenerators_.size()) 
    {
      for(unsigned igt=0; igt<myGaussianTailGenerators_.size();++igt)
        delete myGaussianTailGenerators_[igt];
    }
  myGaussianTailGenerators_.clear();
  theDetIds_.clear();
  hbhi_.clear();
  hehi_.clear();
  hohi_.clear();
  hfhi_.clear();
    
}

Member Function Documentation

void HcalRecHitsMaker::clean ( ) [private]
void HcalRecHitsMaker::cleanSubDet ( std::vector< float > &  hits,
std::vector< int > &  cells 
) [private]

Definition at line 674 of file HcalRecHitsMaker.cc.

References findQualityFiles::size.

Referenced by clean().

{
  unsigned size=cells.size();
  // Reset the energies
  for(unsigned ic=0;ic<size;++ic)
    {
      hits[cells[ic]] = 0.;
    }
  // Clear the list of fired cells 
  cells.clear();
}
unsigned HcalRecHitsMaker::createVectorOfSubdetectorCells ( const CaloGeometry cg,
int  subdetn,
std::vector< int > &  cellsvec 
) [private]

Definition at line 534 of file HcalRecHitsMaker.cc.

References relativeConstraints::geom, CaloGeometry::getSubdetectorGeometry(), CaloSubdetectorGeometry::getValidDetIds(), HcalDetId::hashed_index(), DetId::Hcal, i, maxIndex_, and theDetIds_.

Referenced by createVectorsOfCells().

{

  const CaloSubdetectorGeometry* geom=cg.getSubdetectorGeometry(DetId::Hcal,subdetn);  
  const std::vector<DetId>& ids=geom->getValidDetIds(DetId::Hcal,subdetn);  

  for (std::vector<DetId>::const_iterator i=ids.begin(); i!=ids.end(); i++) 
    {
      HcalDetId myDetId(*i);
      //      std::cout << myDetId << myHcalSimParameterMap_->simParameters(myDetId).simHitToPhotoelectrons() << std::endl;;
      //      std::cout << " hi " << hi << " " theDetIds_.size() << std::endl;
      unsigned hi=myDetId.hashed_index();
      theDetIds_[hi]=myDetId;
      //      std::cout << myDetId << " " << hi <<  std::endl;
      cellsvec.push_back(hi);      

      if(hi>maxIndex_)
        maxIndex_=hi;
    }
  return cellsvec.size();
}
unsigned HcalRecHitsMaker::createVectorsOfCells ( const edm::EventSetup es) [private]
int HcalRecHitsMaker::fCtoAdc ( double  fc) const [private]

Definition at line 687 of file HcalRecHitsMaker.cc.

References fctoadc_.

Referenced by loadHcalRecHits().

{
  if(fc<0.) return 0;
  if(fc>9985.) return 127;
  return fctoadc_[(unsigned)floor(fc)];
}
void HcalRecHitsMaker::Fill ( int  id,
float  energy,
std::vector< int > &  myHits,
float  noise,
float  correctionfactor 
) [private]

Definition at line 557 of file HcalRecHitsMaker.cc.

References doMiscalib_, relval_parameters_module::energy, RandomEngine::gaussShoot(), hcalRecHits_, errorMatrix2Lands_multiChannel::id, miscalib_, noiseFromDb_, noisesigma_, and random_.

Referenced by loadPCaloHits().

{
  if(doMiscalib_) 
    energy*=miscalib_[id];

  if(noiseFromDb_)
    noise=noisesigma_[id]*correctionfactor;

  // Check if the RecHit exists
  if(hcalRecHits_[id]>0.)
    hcalRecHits_[id]+=energy;
  else
    {
      // the noise is injected only the first time
      hcalRecHits_[id]=energy + random_->gaussShoot(0.,noise);
      theHits.push_back(id);
    }
}
double HcalRecHitsMaker::fractionOOT ( int  time_slice) [private]

Definition at line 743 of file HcalRecHitsMaker.cc.

Referenced by loadPCaloHits().

{
  double SF = 100./88.; // to normalize to in-time signal (88% is in the reco window)
  if (time_slice==-4) {
    return 0.02*SF;
  } else if (time_slice==-3) {
    return 0.06*SF;
  } else if (time_slice==-2) {
    return 0.19*SF;
  } else if (time_slice==-1) {
    return 0.24*SF;
  } else if (time_slice==0) {
    return 1.;
  } else if (time_slice==1) {
    return 0.70*SF;
  } else {
    return 0.;
  }

}
void HcalRecHitsMaker::init ( const edm::EventSetup es,
bool  dodigis,
bool  domiscalib 
)

Definition at line 131 of file HcalRecHitsMaker.cc.

References gather_cfg::cout, createVectorsOfCells(), doDigis_, doMiscalib_, doSaturation_, fctoadc_, edm::FileInPath::fullPath(), gains_, CaloMiscalibMapHcal::get(), edm::EventSetup::get(), HcalDbService::getGain(), HcalDbService::getPedestal(), HcalPedestal::getValue(), HcalGain::getValue(), HcalDetId::hashed_index(), hbhi_, hcalfileinpath_, hcalRecHits_, hehi_, hfhi_, hohi_, i, HcalDetId::ieta(), recoMuon::in, getHLTprescales::index, initialized_, maxIndex_, miscalib_, myRespCorr, nhbcells_, nhecells_, nhfcells_, nhocells_, noiseFromDb_, noiseInfCfromDB(), noisesigma_, MiscalibReaderFromXML::parseXMLMiscalibFile(), peds_, CaloMiscalibMapHcal::prefillMap(), edm::ESHandle< T >::product(), refactor_, refactor_mean_, sat_, findQualityFiles::size, theDetIds_, TPGFactor_, x, and detailsBasic3DVector::y.

Referenced by CaloRecHitsProducer::beginRun().

{
  doDigis_=doDigis;
  doMiscalib_=doMiscalib;
// needed for the noise simulation
  edm::ESHandle<HcalDbService> conditions;
  es.get<HcalDbRecord>().get(conditions);
  const HcalDbService * theDbService=conditions.product();

  // get the correction factors
  edm::ESHandle<HcalRespCorrs> rchandle;
  es.get<HcalRespCorrsRcd>().get(rchandle);
  myRespCorr= rchandle.product();
  

  if(!initialized_) 
    {     
      theDetIds_.resize(9201);
      unsigned ncells=createVectorsOfCells(es);
      edm::LogInfo("CaloRecHitsProducer") << "Total number of cells in HCAL " << ncells << std::endl;
      hcalRecHits_.resize(maxIndex_+1,0.);
      edm::LogInfo("CaloRecHitsProducer") << "Largest HCAL hashedindex" << maxIndex_ << std::endl;

      peds_.resize(9201);
      gains_.resize(9201);
      if(doSaturation_)
        sat_.resize(9201);
      if(noiseFromDb_) 
        noisesigma_.resize(9201);
      
      
      miscalib_.resize(maxIndex_+1,1.);
      // Read from file ( a la HcalRecHitsRecalib.cc)
      // here read them from xml (particular to HCAL)
      CaloMiscalibMapHcal mapHcal;
      mapHcal.prefillMap();
      

      edm::FileInPath hcalfiletmp("CalibCalorimetry/CaloMiscalibTools/data/"+hcalfileinpath_);      
      std::string hcalfile=hcalfiletmp.fullPath();            
      if(doMiscalib_ && !hcalfile.empty()) 
        {
          MiscalibReaderFromXMLHcal hcalreader_(mapHcal);

          hcalreader_.parseXMLMiscalibFile(hcalfile);
          //      mapHcal.print();
          std::map<uint32_t,float>::const_iterator it=mapHcal.get().begin();
          std::map<uint32_t,float>::const_iterator itend=mapHcal.get().end();
          for(;it!=itend;++it)
            {
              HcalDetId myDetId(it->first);
              float icalconst=it->second;
              miscalib_[myDetId.hashed_index()]=refactor_mean_+(icalconst-refactor_mean_)*refactor_;
            }
        }
      
      
      // Open the histogram for the fC to ADC conversion
      gROOT->cd();
      edm::FileInPath myDataFile("FastSimulation/CaloRecHitsProducer/data/adcvsfc.root");
      TFile * myFile = new TFile(myDataFile.fullPath().c_str(),"READ");
      TGraph * myGraf = (TGraph*)myFile->Get("adcvsfc");
      unsigned size=myGraf->GetN();
      fctoadc_.resize(10000);
      unsigned p_index=0;
      fctoadc_[0]=0;
      int prev_nadc=0;
      int nadc=0;
      for(unsigned ibin=0;ibin<size;++ibin)
        {
          double x,y;
          myGraf->GetPoint(ibin,x,y);
          int index=(int)floor(x);
          if(index<0||index>=10000) continue;
          prev_nadc=nadc;
          nadc=(int)y;
          // Now fills the vector
          for(unsigned ivec=p_index;ivec<(unsigned)index;++ivec)
            {
              fctoadc_[ivec] = prev_nadc;
            }
          p_index = index;
        }
      myFile->Close();
      gROOT->cd();
      edm::FileInPath myTPGFilePath("CalibCalorimetry/HcalTPGAlgos/data/RecHit-TPG-calib.dat");
      TPGFactor_.resize(87,1.2);
      std::ifstream  myTPGFile(myTPGFilePath.fullPath().c_str(),ifstream::in);
      if(myTPGFile)
        {
          float gain;
          myTPGFile >> gain;
          for(unsigned i=0;i<86;++i)
            {
              myTPGFile >> TPGFactor_[i] ;
              //          std::cout << TPGFactor_[i] << std::endl;
            }
        }
      else
        {
          std::cout << " Unable to open CalibCalorimetry/HcalTPGAlgos/data/RecHit-TPG-calib.dat" << std::endl;
          std::cout <<  " Using a constant 1.2 factor " << std::endl;
        }
      //HB
      for(unsigned ic=0;ic<nhbcells_;++ic)
        {
          float gain = theDbService->getGain(theDetIds_[hbhi_[ic]])->getValue(0);
          float mgain=0.;
          for(unsigned ig=0;ig<4;++ig)
            mgain+=theDbService->getGain(theDetIds_[hbhi_[ic]])->getValue(ig);
          if(noiseFromDb_)
            noisesigma_[hbhi_[ic]]=noiseInfCfromDB(theDbService,theDetIds_[hbhi_[ic]])*mgain*0.25;
          //      std::cout << " NOISEHB " << theDetIds_[hbhi_[ic]].ieta() << " " << noisesigma_[hbhi_[ic]] << "  "<< std::endl;
            // 10000 (ADC scale) / 4. (to compute the mean) / 0.92  ADC/fC
  // *1.25 (only ~80% in 1ts Digi, while saturation applied to 4ts RecHit) 
          int ieta=theDetIds_[hbhi_[ic]].ieta();
          float tpgfactor=TPGFactor_[(ieta>0)?ieta+43:-ieta];
          mgain*=2500./0.92*tpgfactor ;// 10000 (ADC scale) / 4. (to compute the mean)
          sat_[hbhi_[ic]]=(doSaturation_)?mgain:99999.;
      
          peds_[hbhi_[ic]]=theDbService->getPedestal(theDetIds_[hbhi_[ic]])->getValue(0);

          gain*=tpgfactor;
          gains_[hbhi_[ic]]=gain;
        }
      //HE

      for(unsigned ic=0;ic<nhecells_;++ic)
        {
          float gain= theDbService->getGain(theDetIds_[hehi_[ic]])->getValue(0);
          int ieta=theDetIds_[hehi_[ic]].ieta();
          float mgain=0.;
          for(unsigned ig=0;ig<4;++ig)
            mgain+=theDbService->getGain(theDetIds_[hehi_[ic]])->getValue(ig);
          if(noiseFromDb_)
            noisesigma_[hehi_[ic]]=noiseInfCfromDB(theDbService,theDetIds_[hehi_[ic]])*mgain*0.25;
      
          //      std::cout << " NOISEHE " << theDetIds_[hehi_[ic]].ieta() << " " << noisesigma_[hehi_[ic]] << "  "<< std::endl;
          float tpgfactor=TPGFactor_[(ieta>0)?ieta+44:-ieta+1];
          mgain*=2500./0.92*tpgfactor;
          sat_[hehi_[ic]]=(doSaturation_)?mgain:99999.;
      
          gain*=tpgfactor;
          peds_[hehi_[ic]]=theDbService->getPedestal(theDetIds_[hehi_[ic]])->getValue(0);
          gains_[hehi_[ic]]=gain;
        }
      //HO

      for(unsigned ic=0;ic<nhocells_;++ic)
        {
          float ped=theDbService->getPedestal(theDetIds_[hohi_[ic]])->getValue(0);
          float gain=theDbService->getGain(theDetIds_[hohi_[ic]])->getValue(0);
          float mgain=0.;
          for(unsigned ig=0;ig<4;++ig)
            mgain+=theDbService->getGain(theDetIds_[hohi_[ic]])->getValue(ig);
          if(noiseFromDb_)
            noisesigma_[hohi_[ic]]=noiseInfCfromDB(theDbService,theDetIds_[hohi_[ic]])*mgain*0.25;
          //      std::cout << " NOISEHO " << theDetIds_[hohi_[ic]].ieta() << " " << noisesigma_[hohi_[ic]] << "  "<< std::endl;
          int ieta=HcalDetId(hohi_[ic]).ieta();
          float tpgfactor=TPGFactor_[(ieta>0)?ieta+43:-ieta];
          mgain*=2500./0.92*tpgfactor;
          sat_[hohi_[ic]]=(doSaturation_)?mgain:99999.;

          gain*=tpgfactor;
          peds_[hohi_[ic]]=ped;
          gains_[hohi_[ic]]=gain;
        }
      //HF

      for(unsigned ic=0;ic<nhfcells_;++ic)
        {
          float ped=theDbService->getPedestal(theDetIds_[hfhi_[ic]])->getValue(0);
          float gain=theDbService->getGain(theDetIds_[hfhi_[ic]])->getValue(0);
          float mgain=0.;
          for(unsigned ig=0;ig<4;++ig)
            mgain+=theDbService->getGain(theDetIds_[hfhi_[ic]])->getValue(ig);
          // additional 1/2 factor for the HF (Salavat)
          if(noiseFromDb_)
            {
              // computation from when the noise was taken 
              noisesigma_[hfhi_[ic]]=noiseInfCfromDB(theDbService,theDetIds_[hfhi_[ic]])*mgain*0.25;
            }
          //      std::cout << " NOISEHF " << theDetIds_[hfhi_[ic]].ieta() << " " << noisesigma_[hfhi_[ic]] << "  "<< std::endl;
      
          mgain*=2500./0.36;
          sat_[hfhi_[ic]]=(doSaturation_)?mgain:99999.;
          int ieta=theDetIds_[hfhi_[ic]].ieta();
          gain*=TPGFactor_[(ieta>0)?ieta+45:-ieta+2];
          peds_[hfhi_[ic]]=ped;
          gains_[hfhi_[ic]]=gain;
        }
      initialized_=true; 
    }
  
  // clear the vector we don't need. It is a bit stupid 
  hcalRecHits_.resize(maxIndex_+1,0.);

}
void HcalRecHitsMaker::loadHcalRecHits ( edm::Event iEvent,
HORecHitCollection ho,
HODigiCollection hoDigis 
)
void HcalRecHitsMaker::loadHcalRecHits ( edm::Event iEvent,
HBHERecHitCollection hbheHits,
HBHEDigiCollection hbheDigis 
)

Definition at line 390 of file HcalRecHitsMaker.cc.

References cond::rpcobgas::detid, doDigis_, relval_parameters_module::energy, fCtoAdc(), firedCells_, gains_, HcalRespCorr::getValue(), HcalCondObjectContainer< Item >::getValues(), HcalBarrel, hcalRecHits_, loadPCaloHits(), myRespCorr, noisify(), peds_, edm::SortedCollection< T, SORT >::push_back(), edm::SortedCollection< T, SORT >::reserve(), sat_, HBHEDataFrame::setSample(), HBHEDataFrame::setSize(), HcalDetId::subdet(), theDetIds_, and threshold_.

Referenced by CaloRecHitsProducer::produce().

{
  loadPCaloHits(iEvent);
  noisify();
  hbheHits.reserve(firedCells_.size());
  if(doDigis_)
    {
      hbheDigis.reserve(firedCells_.size());
    }
  static HcalQIESample zeroSample(0,0,0,0);
  unsigned nhits=firedCells_.size();
  // HB and HE

  for(unsigned ihit=0;ihit<nhits;++ihit)
    {
      unsigned cellhashedindex=firedCells_[ihit];
      const HcalDetId& detid  = theDetIds_[cellhashedindex];
      unsigned subdet=(detid.subdet()==HcalBarrel) ? 0: 1;      

      float energy=hcalRecHits_[cellhashedindex];
      // Check if it is above the threshold
      if(energy<threshold_[subdet]) continue; 
      // apply RespCorr only to the RecHit
      energy *= myRespCorr->getValues(theDetIds_[cellhashedindex])->getValue();
      // poor man saturation
      if(energy>sat_[cellhashedindex]) 
        {
          //      std::cout << " Saturation " << energy << " " << sat_[cellhashedindex] << " HB " << std::endl;
          energy=sat_[cellhashedindex];
        }
      

      hbheHits.push_back(HBHERecHit(detid,energy,0.));      
      if(doDigis_)
        {
          HBHEDataFrame myDataFrame(detid);
          myDataFrame.setSize(2);
          double nfc=hcalRecHits_[cellhashedindex]/gains_[cellhashedindex]+peds_[cellhashedindex];
          int nadc=fCtoAdc(nfc);
          HcalQIESample qie(nadc, 0, 0, 0) ;
          myDataFrame.setSample(0,qie);
          myDataFrame.setSample(1,zeroSample);
          hbheDigis.push_back(myDataFrame);
        }
    }
}
void HcalRecHitsMaker::loadHcalRecHits ( edm::Event iEvent,
HFRecHitCollection hfHits,
HFDigiCollection hfDigis 
)
void HcalRecHitsMaker::loadPCaloHits ( const edm::Event iEvent) [private]

Definition at line 333 of file HcalRecHitsMaker.cc.

References clean(), corrfac_, det_, cond::rpcobgas::detid, Fill(), firedCells_, fractionOOT(), edm::Event::getByLabel(), HcalBarrel, HcalEndcap, HcalForward, HcalOuter, inputCol_, noise_, and edm::Handle< T >::product().

Referenced by loadHcalRecHits().

{
  clean();

  edm::Handle<CrossingFrame<PCaloHit> > cf;
  iEvent.getByLabel(inputCol_,cf);
  std::auto_ptr<MixCollection<PCaloHit> > colcalo(new MixCollection<PCaloHit>(cf.product(),std::pair<int,int>(0,0) ));

  MixCollection<PCaloHit>::iterator it=colcalo->begin();;
  MixCollection<PCaloHit>::iterator itend=colcalo->end();
  unsigned counter=0;
  for(;it!=itend;++it)
    {
      HcalDetId detid(it->id());
      int hashedindex=detid.hashed_index();

      // apply ToF correction
      int time_slice=0; // temporary
      double fTOF=1.;
      if (detid.subdet()==HcalForward) fTOF = (time_slice==0) ? 1. : 0.;        
      else fTOF = fractionOOT(time_slice);

      switch(detid.subdet())
        {
        case HcalBarrel: 
          {
            if(det_==4)
              Fill(hashedindex,fTOF*(it->energy()),firedCells_,noise_[0],corrfac_[0]);
          }
          break;
        case HcalEndcap: 
          {       
            if(det_==4)
              Fill(hashedindex,fTOF*(it->energy()),firedCells_,noise_[1],corrfac_[1]);
          }
          break;
        case HcalOuter: 
          {
            if(det_==5)
              Fill(hashedindex,fTOF*(it->energy()),firedCells_,noise_[0],corrfac_[0]);
          }
          break;                     
        case HcalForward: 
          {
            if(det_==6 && time_slice==0) // skip the HF hit if out-of-time
              Fill(hashedindex,it->energy(),firedCells_,noise_[0],corrfac_[0]);
          }
          break;
        default:
          edm::LogWarning("CaloRecHitsProducer") << "RecHit not registered\n";
          ;
        }
      ++counter;
    }
}
double HcalRecHitsMaker::noiseInfCfromDB ( const HcalDbService conditions,
const HcalDetId detId 
) [private]

Definition at line 694 of file HcalRecHitsMaker.cc.

References abs, alpha, beta, f, HcalPedestalWidth::getSigma(), HcalDetId::ieta(), mathSSE::sqrt(), and HcalDetId::subdet().

Referenced by init().

{
  // method from Salavat
  // fetch pedestal widths (noise sigmas for all 4 CapID)
  const HcalPedestalWidth* pedWidth =
    conditions-> getPedestalWidth(detId); 
  double ssqq_1 = pedWidth->getSigma(0,0);
  double ssqq_2 = pedWidth->getSigma(1,1);
  double ssqq_3 = pedWidth->getSigma(2,2);
  double ssqq_4 = pedWidth->getSigma(3,3);

  // correction factors (hb,he,ho,hf)
  //  static float corrfac[4]={1.39,1.32,1.17,3.76};
  //  static float corrfac[4]={0.93,0.88,1.17,2.51}; // divided HB, HE, HF by 1.5 (to take into account the halving of the number of time slices), HO did not change

  int sub   = detId.subdet();

  // HO: only Ring#0 matters 
  int ieta  = detId.ieta();
  if (sub == 3 && abs (ieta) > 4) return 0.;   

  // effective RecHits (for this particular detId) noise calculation :
  
  double sig_sq_mean =  0.25 * ( ssqq_1 + ssqq_2 + ssqq_3 + ssqq_4);
  
  // f - external parameter (currently set to 0.5 in the FullSim) !!!
  double f=0.5;

  double term  = sqrt (1. + sqrt(1. - 2.*f*f));
  double alpha = sqrt (0.5) * term;
  double beta  = sqrt (0.5) * f / term;

  //  double RMS1   = sqrt(sig_sq_mean) * sqrt (2.*beta*beta + alpha*alpha) ;
  double RMS4   = sqrt(sig_sq_mean) * sqrt (2.*beta*beta + 2.*(alpha-beta)*(alpha-beta) + 2.*(alpha-2.*beta)*(alpha-2.*beta)) ;

  double noise_rms_fC;

  //  if(sub == 4)  noise_rms_fC = RMS1;
  //  else          noise_rms_fC = RMS4;
  noise_rms_fC = RMS4;


  // to convert from above fC to GeV - multiply by gain (GeV/fC)        
  //  const HcalGain*  gain = conditions->getGain(detId); 
  //  double noise_rms_GeV = noise_rms_fC * gain->getValue(0); // Noise RMS (GeV) for detId channel
  return noise_rms_fC;
}
void HcalRecHitsMaker::noisify ( ) [private]

Definition at line 576 of file HcalRecHitsMaker.cc.

References corrfac_, det_, firedCells_, hbhi_, hcalHotFraction_, hcalRecHits_, hehi_, hfhi_, hohi_, myGaussianTailGenerators_, nhbcells_, nhecells_, nhfcells_, nhocells_, noise_, noisifySubdet(), threshold_, and pileupDistInMC::total.

Referenced by loadHcalRecHits().

{
  unsigned total=0;
  switch(det_)
    {
    case 4:
      {
        // do the HB
        if(noise_[0] != 0.) {
          total+=noisifySubdet(hcalRecHits_,firedCells_,hbhi_,nhbcells_,hcalHotFraction_[0],myGaussianTailGenerators_[0],noise_[0],threshold_[0],corrfac_[0]);
        }
        // do the HE
        if(noise_[1] != 0.) {    
          total+=noisifySubdet(hcalRecHits_,firedCells_,hehi_,nhecells_,hcalHotFraction_[1],myGaussianTailGenerators_[1],noise_[1],threshold_[1],corrfac_[1]);
        }
      }
      break;
    case 5:
      {
        // do the HO
        if(noise_[0] != 0.) {
          total+=noisifySubdet(hcalRecHits_,firedCells_,hohi_,nhocells_,hcalHotFraction_[0],myGaussianTailGenerators_[0],noise_[0],threshold_[0],corrfac_[0]);
        }
      }
      break;
    case 6:
      {
        // do the HF
        if(noise_[0] != 0.) {
          total+=noisifySubdet(hcalRecHits_,firedCells_,hfhi_,nhfcells_,hcalHotFraction_[0],myGaussianTailGenerators_[0],noise_[0],threshold_[0],corrfac_[0]);
        }
      }
      break;
    default:
      break;
    }
  edm::LogInfo("CaloRecHitsProducer") << "CaloRecHitsProducer : added noise in "<<  total << " HCAL cells "  << std::endl;
}
unsigned HcalRecHitsMaker::noisifySubdet ( std::vector< float > &  theMap,
std::vector< int > &  theHits,
const std::vector< int > &  thecells,
unsigned  ncells,
double  hcalHotFraction_,
const GaussianTail myGT,
double  sigma,
double  threshold,
double  correctionfactor 
) [private]

Definition at line 615 of file HcalRecHitsMaker.cc.

References RandomEngine::flatShoot(), RandomEngine::gaussShoot(), hcalRecHits_, timingPdfMaker::mean, noiseFromDb_, noisesigma_, RandomEngine::poissonShoot(), random_, and GaussianTail::shoot().

Referenced by noisify().

{
 // If the fraction of "hot " is small, use an optimized method to inject noise only in noisy cells. The 30% has not been tuned
  if(!noiseFromDb_ && hcalHotFraction==0.) return 0;
  if(hcalHotFraction<0.3 && !noiseFromDb_)
    {
      double mean = (double)(ncells-theHits.size())*hcalHotFraction;
      unsigned nhcal = random_->poissonShoot(mean);
  
      unsigned ncell=0;
      unsigned cellindex=0;
      uint32_t cellhashedindex=0;
      
      while(ncell < nhcal)
        {
          cellindex = (unsigned)(random_->flatShoot()*ncells);
          cellhashedindex = thecells[cellindex];

          if(hcalRecHits_[cellhashedindex]==0.) // new cell
            {
              hcalRecHits_[cellhashedindex]=myGT->shoot();
              theHits.push_back(cellhashedindex);
              ++ncell;
            }
        }
      return ncell;
    }
  else // otherwise, inject noise everywhere
    {
      uint32_t cellhashedindex=0;
      unsigned nhcal=thecells.size();


      for(unsigned ncell=0;ncell<nhcal;++ncell)
        {
          cellhashedindex = thecells[ncell];
          if(hcalRecHits_[cellhashedindex]==0.) // new cell
            {
              
              sigma=noisesigma_[cellhashedindex]*correctionfactor;

              double noise =random_->gaussShoot(0.,sigma);
              if(noise>threshold)
                {
                  hcalRecHits_[cellhashedindex]=noise;              
                  theHits.push_back(cellhashedindex);
                }
            }
        }
      return nhcal;
    }
  return 0;
}

Member Data Documentation

std::vector<double> HcalRecHitsMaker::corrfac_ [private]

Definition at line 58 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), loadPCaloHits(), and noisify().

unsigned HcalRecHitsMaker::det_ [private]

Definition at line 55 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), loadPCaloHits(), and noisify().

Definition at line 65 of file HcalRecHitsMaker.h.

Referenced by init(), and loadHcalRecHits().

Definition at line 66 of file HcalRecHitsMaker.h.

Referenced by Fill(), and init().

Definition at line 67 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), and init().

std::vector< int > HcalRecHitsMaker::fctoadc_ [static, private]

Definition at line 81 of file HcalRecHitsMaker.h.

Referenced by fCtoAdc(), and init().

std::vector<int> HcalRecHitsMaker::firedCells_ [private]

Definition at line 75 of file HcalRecHitsMaker.h.

Referenced by clean(), loadHcalRecHits(), loadPCaloHits(), and noisify().

std::vector< float > HcalRecHitsMaker::gains_ [static, private]

Definition at line 84 of file HcalRecHitsMaker.h.

Referenced by init(), and loadHcalRecHits().

std::vector< int > HcalRecHitsMaker::hbhi_ [static, private]
std::string HcalRecHitsMaker::hcalfileinpath_ [private]

Definition at line 71 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), and init().

std::vector<double> HcalRecHitsMaker::hcalHotFraction_ [private]

Definition at line 59 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), and noisify().

std::vector<float> HcalRecHitsMaker::hcalRecHits_ [private]

Definition at line 73 of file HcalRecHitsMaker.h.

Referenced by clean(), Fill(), init(), loadHcalRecHits(), noisify(), and noisifySubdet().

std::vector< int > HcalRecHitsMaker::hehi_ [static, private]
std::vector< int > HcalRecHitsMaker::hfhi_ [static, private]
std::vector< int > HcalRecHitsMaker::hohi_ [static, private]
bool HcalRecHitsMaker::initialized_ = false [static, private]

Definition at line 64 of file HcalRecHitsMaker.h.

Referenced by init().

Definition at line 63 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), and loadPCaloHits().

unsigned HcalRecHitsMaker::maxIndex_ = 0 [static, private]

Definition at line 90 of file HcalRecHitsMaker.h.

Referenced by createVectorOfSubdetectorCells(), and init().

std::vector< float > HcalRecHitsMaker::miscalib_ [static, private]

Definition at line 78 of file HcalRecHitsMaker.h.

Referenced by Fill(), and init().

Definition at line 98 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), noisify(), and ~HcalRecHitsMaker().

Definition at line 104 of file HcalRecHitsMaker.h.

Referenced by init(), and loadHcalRecHits().

unsigned HcalRecHitsMaker::nhbcells_ [private]

Definition at line 95 of file HcalRecHitsMaker.h.

Referenced by createVectorsOfCells(), HcalRecHitsMaker(), init(), and noisify().

unsigned HcalRecHitsMaker::nhecells_ [private]

Definition at line 95 of file HcalRecHitsMaker.h.

Referenced by createVectorsOfCells(), HcalRecHitsMaker(), init(), and noisify().

unsigned HcalRecHitsMaker::nhfcells_ [private]

Definition at line 95 of file HcalRecHitsMaker.h.

Referenced by createVectorsOfCells(), HcalRecHitsMaker(), init(), and noisify().

unsigned HcalRecHitsMaker::nhocells_ [private]

Definition at line 95 of file HcalRecHitsMaker.h.

Referenced by createVectorsOfCells(), HcalRecHitsMaker(), init(), and noisify().

unsigned HcalRecHitsMaker::nnoise_ [private]

Definition at line 60 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker().

std::vector<double> HcalRecHitsMaker::noise_ [private]

Definition at line 57 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), loadPCaloHits(), and noisify().

Definition at line 68 of file HcalRecHitsMaker.h.

Referenced by Fill(), HcalRecHitsMaker(), init(), and noisifySubdet().

std::vector< float > HcalRecHitsMaker::noisesigma_ [static, private]

Definition at line 86 of file HcalRecHitsMaker.h.

Referenced by Fill(), init(), and noisifySubdet().

std::vector< float > HcalRecHitsMaker::peds_ [static, private]

Definition at line 83 of file HcalRecHitsMaker.h.

Referenced by init(), and loadHcalRecHits().

Definition at line 97 of file HcalRecHitsMaker.h.

Referenced by Fill(), HcalRecHitsMaker(), and noisifySubdet().

double HcalRecHitsMaker::refactor_ [private]

Definition at line 69 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), and init().

Definition at line 70 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), and init().

std::vector< float > HcalRecHitsMaker::sat_ [static, private]

Definition at line 85 of file HcalRecHitsMaker.h.

Referenced by init(), and loadHcalRecHits().

std::vector< HcalDetId > HcalRecHitsMaker::theDetIds_ [static, private]
std::vector<double> HcalRecHitsMaker::threshold_ [private]

Definition at line 56 of file HcalRecHitsMaker.h.

Referenced by HcalRecHitsMaker(), loadHcalRecHits(), and noisify().

std::vector< float > HcalRecHitsMaker::TPGFactor_ [static, private]

Definition at line 87 of file HcalRecHitsMaker.h.

Referenced by init().