ZdcSimHitStudy Class Reference

#include <ZdcSimHitStudy.h>

Inheritance diagram for ZdcSimHitStudy:

Public Member Functions
	ZdcSimHitStudy (const edm::ParameterSet &ps)
	~ZdcSimHitStudy () override
Public Member Functions inherited from one::DQMEDAnalyzer< T >
	DQMEDAnalyzer ()=default
	DQMEDAnalyzer (DQMEDAnalyzer< T... > const &)=delete
	DQMEDAnalyzer (DQMEDAnalyzer< T... > &&)=delete
	~DQMEDAnalyzer () override=default

Protected Member Functions
void	analyze (const edm::Event &e, const edm::EventSetup &c) override
void	analyzeHits (std::vector< PCaloHit > &)
void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
void	endRun (const edm::Run &run, const edm::EventSetup &c) override
int	FillHitValHist (int side, int section, int channel, double energy, double time)

Private Attributes
bool	checkHit_
double	enetot
double	enetotEmN
double	enetotEmP
double	enetotHadN
double	enetotHadP
double	enetotN
double	enetotP
std::string	g4Label
MonitorElement *	genpart_GammaB
MonitorElement *	genpart_GammaB_counts
MonitorElement *	genpart_GammaB_energydist
MonitorElement *	genpart_GammaF
MonitorElement *	genpart_GammaF_counts
MonitorElement *	genpart_GammaF_energydist
MonitorElement *	genpart_NeutB
MonitorElement *	genpart_NeutB_counts
MonitorElement *	genpart_NeutB_energydist
MonitorElement *	genpart_NeutF
MonitorElement *	genpart_NeutF_counts
MonitorElement *	genpart_NeutF_energydist
MonitorElement *	genpart_Pi0B
MonitorElement *	genpart_Pi0B_counts
MonitorElement *	genpart_Pi0B_energydist
MonitorElement *	genpart_Pi0F
MonitorElement *	genpart_Pi0F_counts
MonitorElement *	genpart_Pi0F_energydist
MonitorElement *	meAllZdcNHit_
MonitorElement *	meBadZdcDetHit_
MonitorElement *	meBadZdcIdHit_
MonitorElement *	meBadZdcSecHit_
MonitorElement *	meZdc10Ene_
MonitorElement *	meZdc10EneP_
MonitorElement *	meZdcChannelHit_
MonitorElement *	meZdcCorEEmNEHadN_
MonitorElement *	meZdcCorEEmPEHadP_
MonitorElement *	meZdcCorEtotNEtotP_
MonitorElement *	meZdcDetectHit_
MonitorElement *	meZdcEEMCh_
MonitorElement *	meZdcEHadCh_
MonitorElement *	meZdcEMEnergyHit_
MonitorElement *	meZdcEML10EneP_
MonitorElement *	meZdcEneEmN1_
MonitorElement *	meZdcEneEmN2_
MonitorElement *	meZdcEneEmN3_
MonitorElement *	meZdcEneEmN4_
MonitorElement *	meZdcEneEmN5_
MonitorElement *	meZdcEneEmNTot_
MonitorElement *	meZdcEneEmP1_
MonitorElement *	meZdcEneEmP2_
MonitorElement *	meZdcEneEmP3_
MonitorElement *	meZdcEneEmP4_
MonitorElement *	meZdcEneEmP5_
MonitorElement *	meZdcEneEmPTot_
MonitorElement *	meZdcEneHadN1_
MonitorElement *	meZdcEneHadN2_
MonitorElement *	meZdcEneHadN3_
MonitorElement *	meZdcEneHadN4_
MonitorElement *	meZdcEneHadNTot_
MonitorElement *	meZdcEneHadP1_
MonitorElement *	meZdcEneHadP2_
MonitorElement *	meZdcEneHadP3_
MonitorElement *	meZdcEneHadP4_
MonitorElement *	meZdcEneHadPTot_
MonitorElement *	meZdcEneNTot_
MonitorElement *	meZdcEnePTot_
MonitorElement *	meZdcEnergyHit_
MonitorElement *	meZdcEneTEmN1_
MonitorElement *	meZdcEneTEmN2_
MonitorElement *	meZdcEneTEmN3_
MonitorElement *	meZdcEneTEmN4_
MonitorElement *	meZdcEneTEmN5_
MonitorElement *	meZdcEneTEmP1_
MonitorElement *	meZdcEneTEmP2_
MonitorElement *	meZdcEneTEmP3_
MonitorElement *	meZdcEneTEmP4_
MonitorElement *	meZdcEneTEmP5_
MonitorElement *	meZdcEneTHadN1_
MonitorElement *	meZdcEneTHadN2_
MonitorElement *	meZdcEneTHadN3_
MonitorElement *	meZdcEneTHadN4_
MonitorElement *	meZdcEneTHadP1_
MonitorElement *	meZdcEneTHadP2_
MonitorElement *	meZdcEneTHadP3_
MonitorElement *	meZdcEneTHadP4_
MonitorElement *	meZdcEneTot_
MonitorElement *	meZdcETime_
MonitorElement *	meZdcHadEnergyHit_
MonitorElement *	meZdcHadL10EneP_
MonitorElement *	meZdcNHit_
MonitorElement *	meZdcNHitEM_
MonitorElement *	meZdcNHitHad_
MonitorElement *	meZdcNHitLum_
MonitorElement *	meZdcSectionHit_
MonitorElement *	meZdcSideHit_
MonitorElement *	meZdcTimeHit_
MonitorElement *	meZdcTimeWHit_
std::string	outFile_
edm::EDGetTokenT< reco::GenParticleCollection >	tok_gen_
edm::EDGetTokenT< edm::PCaloHitContainer >	tok_hits_
bool	verbose_
std::string	zdcHits

Detailed Description

Definition at line 58 of file ZdcSimHitStudy.h.

Constructor & Destructor Documentation

ZdcSimHitStudy::ZdcSimHitStudy

(

const edm::ParameterSet &

ps

)

Definition at line 34 of file ZdcSimHitStudy.cc.

References checkHit_, g4Label, edm::ParameterSet::getUntrackedParameter(), outFile_, AlCaHLTBitMon_QueryRunRegistry::string, tok_gen_, tok_hits_, verbose_, and zdcHits.

                                                        {
  g4Label = ps.getUntrackedParameter<std::string>("moduleLabel", "g4SimHits");
  zdcHits = ps.getUntrackedParameter<std::string>("HitCollection", "ZdcHits");
  outFile_ = ps.getUntrackedParameter<std::string>("outputFile", "zdcHitStudy.root");
  verbose_ = ps.getUntrackedParameter<bool>("Verbose", false);
  checkHit_ = true;

  tok_gen_ = consumes<reco::GenParticleCollection>(edm::InputTag("genParticles"));
  tok_hits_ = consumes<edm::PCaloHitContainer>(edm::InputTag(g4Label, zdcHits));

  edm::LogInfo("ZdcSimHitStudy")
      // std::cout
      << "Module Label: " << g4Label << "   Hits: " << zdcHits << " / " << checkHit_ << "   Output: " << outFile_;
}

ZdcSimHitStudy::~ZdcSimHitStudy ( )

override

Definition at line 49 of file ZdcSimHitStudy.cc.

{}

Member Function Documentation

void ZdcSimHitStudy::analyze ( const edm::Event &  e, const edm::EventSetup &  c  )

overrideprotected

GEN PARTICLE HISTOS///////////////////////////////////

Definition at line 528 of file ZdcSimHitStudy.cc.

References analyzeHits(), checkHit_, reco::LeafCandidate::energy(), reco::LeafCandidate::eta(), edm::EventID::event(), MonitorElement::Fill(), relval_steps::gen(), genpart_GammaB, genpart_GammaB_counts, genpart_GammaB_energydist, genpart_GammaF, genpart_GammaF_counts, genpart_GammaF_energydist, genpart_NeutB, genpart_NeutB_counts, genpart_NeutB_energydist, genpart_NeutF, genpart_NeutF_counts, genpart_NeutF_energydist, genpart_Pi0B, genpart_Pi0B_counts, genpart_Pi0B_energydist, genpart_Pi0F, genpart_Pi0F_counts, genpart_Pi0F_energydist, GenParticle::GenParticle, edm::Event::getByToken(), edm::EventBase::id(), edm::HandleBase::isValid(), LogDebug, reco::LeafCandidate::pdgId(), reco::LeafCandidate::phi(), edm::EventID::run(), tok_gen_, and tok_hits_.

                                                                                {

  using namespace edm;
  bool gotGenParticles = true;

  Handle<reco::GenParticleCollection> genhandle;

  if (!(iEvent.getByToken(tok_gen_, genhandle))) {
    gotGenParticles = false;  // this is the same kind of boolean except for the
                              // genparticles collection
  }
  if (!(genhandle.isValid())) {
    gotGenParticles = false;
  }

  // Handle<edm::PCaloHitContainer> zdcsimhandle;


  if (gotGenParticles == true) {  // if the boolean was able to find the leaf
                                  // "genparticles" then do this
    for (reco::GenParticleCollection::const_iterator gen = genhandle->begin(); gen != genhandle->end();
         ++gen)  // here we iterate over all generated particles
    {
      //         double energy=gen->energy();
      reco::GenParticle thisParticle = (reco::GenParticle)(*gen);  // get the particle "gen" points to
      double energy_2 = thisParticle.energy();  // here I grab some of the attributes of the generated
                                                // particle....like its energy, its phi and its eta and
                                                // what kind of particle it is
      double gen_phi = thisParticle.phi();
      double gen_eta = thisParticle.eta();
      int gen_id = thisParticle.pdgId();

      if (gen_id == 111) {    // here i require a pi0
        if (gen_eta > 8.3) {  // eta requirement

          //# IMPORTANT     IMPORTANT         IMPORTANT            IMPORTANT #
          //# The real eta of the ZDC is |eta| > 8.3, I have only changed it
          // here to 3 because# # in the PG simulation the ZDC is at an eta of
          // about 4.5-7, in the real GEANT the # # ZDC is in its appropriate
          // place at the very foward region...please edit this if # # looking
          // at MinBias data or the like # # # # IMPORTANT     IMPORTANT
          // IMPORTANT IMPORTANT                          #

          genpart_Pi0F->Fill(gen_eta, gen_phi, energy_2);  // fill the lego plot
          genpart_Pi0F_counts->Fill(gen_eta, gen_phi, 1);
          // genpart_Pi0F_profile->Fill(gen_eta,gen_phi,energy_2);
          genpart_Pi0F_energydist->Fill(energy_2);  // fill the 1D distribution
        }
        if (gen_eta < -8.3) {  // neg eta requirement
          genpart_Pi0B->Fill(gen_eta, gen_phi, energy_2);
          // genpart_Pi0B_profile->Fill(gen_eta,gen_phi,energy_2);
          genpart_Pi0B_counts->Fill(gen_eta, gen_phi, 1);
          genpart_Pi0B_energydist->Fill(energy_2);
        }
      }
      if (gen_id == 2112) {  // require neutron
        if (gen_eta > 8.3) {
          genpart_NeutF->Fill(gen_eta, gen_phi, energy_2);
          // genpart_NeutF_profile->Fill(gen_eta,gen_phi,energy_2);
          genpart_NeutF_counts->Fill(gen_eta, gen_phi, 1);
          genpart_NeutF_energydist->Fill(energy_2);
        }
        if (gen_eta < -8.3) {
          genpart_NeutB->Fill(gen_eta, gen_phi, energy_2);
          // genpart_NeutB_profile->Fill(gen_eta,gen_phi,energy_2);
          genpart_NeutB_counts->Fill(gen_eta, gen_phi, 1);
          genpart_NeutB_energydist->Fill(energy_2);
        }
      }

      if (gen_id == 22) {  // require gamma
        if (gen_eta > 8.3) {
          genpart_GammaF->Fill(gen_eta, gen_phi, energy_2);
          // genpart_GammaF_profile->Fill(gen_eta,gen_phi,energy_2);
          genpart_GammaF_counts->Fill(gen_eta, gen_phi, 1);
          genpart_GammaF_energydist->Fill(energy_2);
        }
        if (gen_eta < -8.3) {
          genpart_GammaB->Fill(gen_eta, gen_phi, energy_2);
          // genpart_GammaB_profile->Fill(gen_eta,gen_phi,energy_2);
          genpart_GammaB_counts->Fill(gen_eta, gen_phi, 1);
          genpart_GammaB_energydist->Fill(energy_2);
        }
      }

    }  // end of GEN loop
  }


  // Below is the old script which I will comment later

  LogDebug("ZdcSimHitStudy")
      // std::cout
      // std::cout
      << "Run = " << iEvent.id().run() << " Event = " << iEvent.id().event();
  /*    << "Run = " << e.id().run() << " Event = "
        << e.id().event();*/
  // std::cout<<std::endl;

  std::vector<PCaloHit> caloHits;
  edm::Handle<edm::PCaloHitContainer> hitsZdc;

  bool getHits = false;
  if (checkHit_) {
    iEvent.getByToken(tok_hits_, hitsZdc);
    if (hitsZdc.isValid())
      getHits = true;
  }

  LogDebug("ZdcSim") << "ZdcValidation: Input flags Hits " << getHits;

  if (getHits) {
    caloHits.insert(caloHits.end(), hitsZdc->begin(), hitsZdc->end());
    LogDebug("ZdcSimHitStudy")
        // std::cout
        << "ZdcValidation: Hit buffer " << caloHits.size();
    //<< std::endl;
    analyzeHits(caloHits);
  }
}

void ZdcSimHitStudy::analyzeHits ( std::vector< PCaloHit > &  hits )

protected

Definition at line 655 of file ZdcSimHitStudy.cc.

References TauDecayModes::dec, HcalZDCDetId::EM, enetot, enetotEmN, enetotEmP, enetotHadN, enetotHadP, enetotN, enetotP, MonitorElement::Fill(), FillHitValHist(), HcalZDCDetId::HAD, mps_fire::i, createfilelist::int, LogDebug, HcalZDCDetId::LUM, meAllZdcNHit_, meBadZdcDetHit_, meBadZdcIdHit_, meBadZdcSecHit_, meZdc10Ene_, meZdcChannelHit_, meZdcCorEEmNEHadN_, meZdcCorEEmPEHadP_, meZdcCorEtotNEtotP_, meZdcDetectHit_, meZdcEEMCh_, meZdcEHadCh_, meZdcEMEnergyHit_, meZdcEML10EneP_, meZdcEneEmNTot_, meZdcEneEmPTot_, meZdcEneHadNTot_, meZdcEneHadPTot_, meZdcEneNTot_, meZdcEnePTot_, meZdcEnergyHit_, meZdcEneTot_, meZdcETime_, meZdcHadEnergyHit_, meZdcHadL10EneP_, meZdcNHitEM_, meZdcNHitHad_, meZdcNHitLum_, meZdcSectionHit_, meZdcSideHit_, meZdcTimeHit_, meZdcTimeWHit_, trackingPlots::section, and ntuplemaker::time.

Referenced by analyze().

                                                          {
  int nHit = hits.size();
  int nZdcEM = 0, nZdcHad = 0, nZdcLum = 0;
  int nBad1 = 0, nBad2 = 0, nBad = 0;
  std::vector<double> encontZdcEM(140, 0.);
  std::vector<double> encontZdcHad(140, 0.);
  double entotZdcEM = 0;
  double entotZdcHad = 0;

  enetotEmN = 0;
  enetotHadN = 0.;
  enetotN = 0;
  enetotEmP = 0;
  enetotHadP = 0;
  enetotP = 0;
  enetot = 0;

  for (int i = 0; i < nHit; i++) {
    double energy = hits[i].energy();
    double log10en = log10(energy);
    int log10i = int((log10en + 10.) * 10.);
    double time = hits[i].time();
    unsigned int id_ = hits[i].id();
    HcalZDCDetId id = HcalZDCDetId(id_);
    int det = id.det();
    int side = id.zside();
    int section = id.section();
    int channel = id.channel();

    FillHitValHist(side, section, channel, energy, time);

    LogDebug("ZdcSimHitStudy")
        // std::cout
        << "Hit[" << i << "] ID " << std::hex << id_ << std::dec << " DetID " << id << " Det " << det << " side "
        << side << " Section " << section << " channel " << channel << " E " << energy << " time \n"
        << time;
    //<<std::endl;

    if (det == 5) {  // Check DetId.h
      if (section == HcalZDCDetId::EM)
        nZdcEM++;
      else if (section == HcalZDCDetId::HAD)
        nZdcHad++;
      else if (section == HcalZDCDetId::LUM)
        nZdcLum++;
      else {
        nBad++;
        nBad2++;
      }
    } else {
      nBad++;
      nBad1++;
    }

    meZdcDetectHit_->Fill(double(det));
    if (det == 5) {
      meZdcSideHit_->Fill(double(side));
      meZdcSectionHit_->Fill(double(section));
      meZdcChannelHit_->Fill(double(channel));
      meZdcEnergyHit_->Fill(energy);
      if (section == HcalZDCDetId::EM) {
        meZdcEMEnergyHit_->Fill(energy);
        meZdcEEMCh_->Fill(energy, channel);
        if (log10i >= 0 && log10i < 140)
          encontZdcEM[log10i] += energy;
        entotZdcEM += energy;
      }
      if (section == HcalZDCDetId::HAD) {
        meZdcHadEnergyHit_->Fill(energy);
        meZdcEHadCh_->Fill(energy, channel);
        if (log10i >= 0 && log10i < 140)
          encontZdcHad[log10i] += energy;
        entotZdcHad += energy;
      }
      meZdcTimeHit_->Fill(time);
      meZdcTimeWHit_->Fill(double(time), energy);
      meZdc10Ene_->Fill(log10en);
      meZdcETime_->Fill(energy, double(time));
    }
  }

  if (entotZdcEM != 0)
    for (int i = 0; i < 140; i++)
      meZdcEML10EneP_->Fill(-10. + (float(i) + 0.5) / 10., encontZdcEM[i] / entotZdcEM);
  if (entotZdcHad != 0)
    for (int i = 0; i < 140; i++)
      meZdcHadL10EneP_->Fill(-10. + (float(i) + 0.5) / 10., encontZdcHad[i] / entotZdcHad);

  if (nHit > 0) {
    meAllZdcNHit_->Fill(double(nHit));
    meBadZdcDetHit_->Fill(double(nBad1));
    meBadZdcSecHit_->Fill(double(nBad2));
    meBadZdcIdHit_->Fill(double(nBad));
    meZdcNHitEM_->Fill(double(nZdcEM));
    meZdcNHitHad_->Fill(double(nZdcHad));
    meZdcNHitLum_->Fill(double(nZdcLum));
    meZdcEnePTot_->Fill(enetotP);
    meZdcEneNTot_->Fill(enetotN);
    meZdcEneHadNTot_->Fill(enetotHadN);
    meZdcEneHadPTot_->Fill(enetotHadP);
    meZdcEneEmNTot_->Fill(enetotEmN);
    meZdcEneEmPTot_->Fill(enetotEmP);
    meZdcCorEEmNEHadN_->Fill(enetotEmN, enetotHadN);
    meZdcCorEEmPEHadP_->Fill(enetotEmP, enetotHadP);
    meZdcCorEtotNEtotP_->Fill(enetotN, enetotP);
    meZdcEneTot_->Fill(enetot);
  }
  LogDebug("HcalSimHitStudy")
      // std::cout
      << "HcalSimHitStudy::analyzeHits: Had " << nZdcHad << " EM " << nZdcEM << " Bad " << nBad << " All " << nHit;
  //<<std::endl;
}

void ZdcSimHitStudy::bookHistograms ( DQMStore::IBooker &  ib, edm::Run const &  run, edm::EventSetup const &  es  )

overrideprotected

GenParticle Plots///////////////////////////////////////

GEN Particle Energy Distributions/////////////////////

Definition at line 51 of file ZdcSimHitStudy.cc.

References DQMStore::IBooker::book1D(), DQMStore::IBooker::book2D(), DQMStore::IBooker::bookProfile(), checkHit_, genpart_GammaB, genpart_GammaB_counts, genpart_GammaB_energydist, genpart_GammaF, genpart_GammaF_counts, genpart_GammaF_energydist, genpart_NeutB, genpart_NeutB_counts, genpart_NeutB_energydist, genpart_NeutF, genpart_NeutF_counts, genpart_NeutF_energydist, genpart_Pi0B, genpart_Pi0B_counts, genpart_Pi0B_energydist, genpart_Pi0F, genpart_Pi0F_counts, genpart_Pi0F_energydist, MonitorElement::getTH2F(), meAllZdcNHit_, meBadZdcDetHit_, meBadZdcIdHit_, meBadZdcSecHit_, meZdc10Ene_, meZdcChannelHit_, meZdcCorEEmNEHadN_, meZdcCorEEmPEHadP_, meZdcCorEtotNEtotP_, meZdcDetectHit_, meZdcEEMCh_, meZdcEHadCh_, meZdcEMEnergyHit_, meZdcEML10EneP_, meZdcEneEmN1_, meZdcEneEmN2_, meZdcEneEmN3_, meZdcEneEmN4_, meZdcEneEmN5_, meZdcEneEmNTot_, meZdcEneEmP1_, meZdcEneEmP2_, meZdcEneEmP3_, meZdcEneEmP4_, meZdcEneEmP5_, meZdcEneEmPTot_, meZdcEneHadN1_, meZdcEneHadN2_, meZdcEneHadN3_, meZdcEneHadN4_, meZdcEneHadNTot_, meZdcEneHadP1_, meZdcEneHadP2_, meZdcEneHadP3_, meZdcEneHadP4_, meZdcEneHadPTot_, meZdcEneNTot_, meZdcEnePTot_, meZdcEnergyHit_, meZdcEneTEmN1_, meZdcEneTEmN2_, meZdcEneTEmN3_, meZdcEneTEmN4_, meZdcEneTEmN5_, meZdcEneTEmP1_, meZdcEneTEmP2_, meZdcEneTEmP3_, meZdcEneTEmP4_, meZdcEneTEmP5_, meZdcEneTHadN1_, meZdcEneTHadN2_, meZdcEneTHadN3_, meZdcEneTHadN4_, meZdcEneTHadP1_, meZdcEneTHadP2_, meZdcEneTHadP3_, meZdcEneTHadP4_, meZdcEneTot_, meZdcETime_, meZdcHadEnergyHit_, meZdcHadL10EneP_, meZdcNHitEM_, meZdcNHitHad_, meZdcNHitLum_, meZdcSectionHit_, meZdcSideHit_, meZdcTimeHit_, meZdcTimeWHit_, MonitorElement::setAxisTitle(), and DQMStore::IBooker::setCurrentFolder().

                                                                                                   {
  ib.setCurrentFolder("ZDCValidation");
  // Histograms for Hits
  //# Below we are filling the histograms made in the .h file. The syntax is as
  // follows:                                      # # plot_code_name =
  // ib.TypeofPlot[(1,2,3)-D,(F,I,D)]("Name as it will appear","Title",axis
  // options);                    # # They will be stored in the TFile
  // subdirectory set by :    ib.setCurrentFolder("FolderIwant") # # axis
  // options are like (#ofbins,min,max) #

  if (checkHit_) {
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits");
    meAllZdcNHit_ = ib.book1D("ZDC Hits", "Number of All Hits in ZDC", 100, 0., 100.);
    meAllZdcNHit_->setAxisTitle("Total Hits", 1);
    meAllZdcNHit_->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/Excess_Info/Debug_Helper");
    meBadZdcDetHit_ = ib.book1D("Hiits with the wrong Det", "Hits with wrong Det in ZDC", 100, 0., 100.);
    meBadZdcDetHit_->setAxisTitle("Wrong Hits", 1);
    meBadZdcDetHit_->setAxisTitle("Counts", 2);
    meBadZdcSecHit_ = ib.book1D("Wrong Section Hits", "Hits with wrong Section in ZDC", 100, 0., 100.);
    meBadZdcSecHit_->setAxisTitle("Hits in wrong section", 1);
    meBadZdcSecHit_->setAxisTitle("Counts", 2);
    meBadZdcIdHit_ = ib.book1D("Wrong_ID_Hits", "Hits with wrong ID in ZDC", 100, 0., 100.);
    meBadZdcIdHit_->setAxisTitle("Hits with wrong ID", 1);
    meBadZdcIdHit_->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/Excess_Info/BasicHitInfo");
    meZdcNHitEM_ = ib.book1D("Hits in EM", "Number of Hits in ZDC EM", 100, 0., 100.);
    meZdcNHitEM_->setAxisTitle("EM Hits", 1);
    meZdcNHitEM_->setAxisTitle("Counts", 2);
    meZdcNHitHad_ = ib.book1D("Hits in HAD", "Number of Hits in ZDC Had", 100, 0., 100.);
    meZdcNHitHad_->setAxisTitle("HAD Hits", 1);
    meZdcNHitHad_->setAxisTitle("Counts", 2);
    meZdcNHitLum_ = ib.book1D("Hits in LUM", "Number of Hits in ZDC Lum", 100, 0., 100.);
    meZdcNHitLum_->setAxisTitle("LUM Hits", 1);
    meZdcNHitLum_->setAxisTitle("Counts", 2);
    meZdcDetectHit_ = ib.book1D("Calo Detector ID", "Calo Detector ID", 50, 0., 50.);
    meZdcDetectHit_->setAxisTitle("Detector Hits", 1);
    meZdcDetectHit_->setAxisTitle("Counts", 2);
    meZdcSideHit_ = ib.book1D("ZDC Side", "Side in ZDC", 4, -2, 2.);
    meZdcSideHit_->setAxisTitle("ZDC Side", 1);
    meZdcSideHit_->setAxisTitle("Counts", 2);
    meZdcSectionHit_ = ib.book1D("ZDC Section", "Section in ZDC", 4, 0., 4.);
    meZdcSectionHit_->setAxisTitle("ZDC Section", 1);
    meZdcSectionHit_->setAxisTitle("Counts", 2);
    meZdcChannelHit_ = ib.book1D("ZDC Channel", "Channel in ZDC", 10, 0., 10.);
    meZdcChannelHit_->setAxisTitle("ZDC Channel", 1);
    meZdcChannelHit_->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/");
    meZdcEnergyHit_ = ib.book1D("Hit Energy", "Hits Energy", 4000, 0., 8000.);
    meZdcEnergyHit_->setAxisTitle("Counts", 2);
    meZdcEnergyHit_->setAxisTitle("Energy (GeV)", 1);
    meZdcHadEnergyHit_ = ib.book1D("Hit Energy HAD", "Hits Energy in Had Section", 4000, 0., 8000.);
    meZdcHadEnergyHit_->setAxisTitle("Counts", 2);
    meZdcHadEnergyHit_->setAxisTitle("Energy (GeV)", 1);
    meZdcEMEnergyHit_ = ib.book1D("Hit Energy EM", "Hits Energy in EM Section", 4000, 0., 8000.);
    meZdcEMEnergyHit_->setAxisTitle("Counts", 2);
    meZdcEMEnergyHit_->setAxisTitle("Energy (GeV)", 1);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/Excess_Info/BasicHitInfo");
    meZdcTimeHit_ = ib.book1D("Time in ZDC", "Time in ZDC", 300, 0., 600.);
    meZdcTimeHit_->setAxisTitle("Time (ns)", 1);
    meZdcTimeHit_->setAxisTitle("Counts", 2);
    meZdcTimeWHit_ = ib.book1D("Energy Weighted Time in ZDC", "Time in ZDC (E wtd)", 300, 0., 600.);
    meZdcTimeWHit_->setAxisTitle("Time (ns)", 1);
    meZdcTimeWHit_->setAxisTitle("Counts", 2);
    meZdc10Ene_ = ib.book1D("ZDC Log(E)", "Log10Energy in ZDC", 140, -20., 20.);
    meZdc10Ene_->setAxisTitle("Log(E) (GeV)", 1);
    meZdc10Ene_->setAxisTitle("Counts", 2);
    meZdcHadL10EneP_ = ib.bookProfile(
        "Log(EHAD) vs Contribution", "Log10Energy in Had ZDC vs Hit contribution", 140, -1., 20., 100, 0., 1.);
    meZdcHadL10EneP_->setAxisTitle("Log(EHAD) (GeV)", 1);
    meZdcHadL10EneP_->setAxisTitle("Counts", 2);
    meZdcEML10EneP_ = ib.bookProfile(
        "Log(EEM) vs Contribution", "Log10Energy in EM ZDC vs Hit contribution", 140, -1., 20., 100, 0., 1.);
    meZdcEML10EneP_->setAxisTitle("Log(EEM) (GeV)", 1);
    meZdcEML10EneP_->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits");
    meZdcEHadCh_ = ib.book2D("ZDC EHAD vs Channel", "ZDC Had Section Energy vs Channel", 4000, 0., 8000., 6, 0., 6.);
    meZdcEHadCh_->setAxisTitle("Hadronic Channel Number", 2);
    meZdcEHadCh_->setAxisTitle("Energy (GeV)", 1);
    meZdcEEMCh_ = ib.book2D("ZDC EEM vs Channel", "ZDC EM Section Energy vs Channel", 4000, 0., 8000., 6, 0., 6.);
    meZdcEEMCh_->setAxisTitle("EM Channel Number", 2);
    meZdcEEMCh_->setAxisTitle("Energy (GeV)", 1);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/Excess_Info/BasicHitInfo");
    meZdcETime_ = ib.book2D("E vs T", "Hits ZDC Energy vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcETime_->setAxisTitle("Energy (GeV)", 1);
    meZdcETime_->setAxisTitle("Time (ns)", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/ENERGY_SUMS/Individual_Channels/NZDC");
    meZdcEneEmN1_ = ib.book1D("NZDC EM1 Energy", "Energy EM module N1", 4000, 0., 8000.);
    meZdcEneEmN1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmN1_->setAxisTitle("Counts", 2);
    meZdcEneEmN2_ = ib.book1D("NZDC EM2 Energy", "Energy EM module N2", 4000, 0., 8000.);
    meZdcEneEmN2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmN2_->setAxisTitle("Counts", 2);
    meZdcEneEmN3_ = ib.book1D("NZDC EM3 Energy", "Energy EM module N3", 4000, 0., 8000.);
    meZdcEneEmN3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmN3_->setAxisTitle("Counts", 2);
    meZdcEneEmN4_ = ib.book1D("NZDC EM4 Energy", "Energy EM module N4", 4000, 0., 8000.);
    meZdcEneEmN4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmN4_->setAxisTitle("Counts", 2);
    meZdcEneEmN5_ = ib.book1D("NZDC EM5 Energy", "Energy EM module N5", 4000, 0., 8000.);
    meZdcEneEmN5_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmN5_->setAxisTitle("Counts", 2);
    meZdcEneHadN1_ = ib.book1D("NZDC HAD1 Energy", "Energy HAD module N1", 4000, 0., 8000.);
    meZdcEneHadN1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadN1_->setAxisTitle("Counts", 2);
    meZdcEneHadN2_ = ib.book1D("NZDC HAD2 Energy", "Energy HAD module N2", 4000, 0., 8000.);
    meZdcEneHadN2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadN2_->setAxisTitle("Counts", 2);
    meZdcEneHadN3_ = ib.book1D("NZDC HAD3 Energy", "Energy HAD module N3", 4000, 0., 8000.);
    meZdcEneHadN3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadN3_->setAxisTitle("Counts", 2);
    meZdcEneHadN4_ = ib.book1D("NZDC HAD4 Energy", "Energy HAD module N4", 4000, 0., 8000.);
    meZdcEneHadN4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadN4_->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/Excess_Info/Individual_ChannelvsTime/NZDC");
    meZdcEneTEmN1_ = ib.book2D("NZDC EM1 Energy vs Time", "Energy EM mod N1 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmN1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmN1_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmN2_ = ib.book2D("NZDC EM2 Energy vs Time", "Energy EM mod N2 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmN2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmN2_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmN3_ = ib.book2D("NZDC EM3 Energy vs Time", "Energy EM mod N3 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmN3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmN3_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmN4_ = ib.book2D("NZDC EM4 Energy vs Time", "Energy EM mod N4 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmN4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmN4_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmN5_ = ib.book2D("NZDC EM5 Energy vs Time", "Energy EM mod N5 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmN5_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmN5_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadN1_ =
        ib.book2D("NZDC HAD1 Energy vs Time", "Energy HAD mod N1 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadN1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadN1_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadN2_ =
        ib.book2D("NZDC HAD2 Energy vs Time", "Energy HAD mod N2 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadN2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadN2_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadN3_ =
        ib.book2D("NZDC HAD3 Energy vs Time", "Energy HAD mod N3 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadN3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadN3_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadN4_ =
        ib.book2D("NZDC HAD4 Energy vs Time", "Energy HAD mod N4 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadN4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadN4_->setAxisTitle("Time (ns)", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/ENERGY_SUMS/NZDC");
    meZdcEneHadNTot_ = ib.book1D("NZDC EHAD", "Total N-ZDC HAD Energy", 4000, 0., 4000.);
    meZdcEneHadNTot_->setAxisTitle("Counts", 2);
    meZdcEneHadNTot_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmNTot_ = ib.book1D("NZDC EEM", "Total N-ZDC EM Energy", 3000, 0., 3000.);
    meZdcEneEmNTot_->setAxisTitle("Counts", 2);
    meZdcEneEmNTot_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneNTot_ = ib.book1D("NZDC ETOT", "Total N-ZDC Energy ", 7000, 0., 7000.);
    meZdcEneNTot_->setAxisTitle("Counts", 2);
    meZdcEneNTot_->setAxisTitle("Energy (GeV)", 1);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/ENERGY_SUMS/Individual_Channels/PZDC");
    meZdcEneEmP1_ = ib.book1D("PZDC EM1 Energy", "Energy EM module P1", 3000, 0., 3000.);
    meZdcEneEmP1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmP1_->setAxisTitle("Counts", 2);
    meZdcEneEmP2_ = ib.book1D("PZDC EM2 Energy", "Energy EM module P2", 3000, 0., 3000.);
    meZdcEneEmP2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmP2_->setAxisTitle("Counts", 2);
    meZdcEneEmP3_ = ib.book1D("PZDC EM3 Energy", "Energy EM module P3", 3000, 0., 3000.);
    meZdcEneEmP3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmP3_->setAxisTitle("Counts", 2);
    meZdcEneEmP4_ = ib.book1D("PZDC EM4 Energy", "Energy EM module P4", 3000, 0., 3000.);
    meZdcEneEmP4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmP4_->setAxisTitle("Counts", 2);
    meZdcEneEmP5_ = ib.book1D("PZDC EM5 Energy", "Energy EM module P5", 3000, 0., 3000.);
    meZdcEneEmP5_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmP5_->setAxisTitle("Counts", 2);
    meZdcEneHadP1_ = ib.book1D("PZDC HAD1 Energy", "Energy HAD module P1", 3000, 0., 3000.);
    meZdcEneHadP1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadP1_->setAxisTitle("Counts", 2);
    meZdcEneHadP2_ = ib.book1D("PZDC HAD2 Energy", "Energy HAD module P2", 3000, 0., 3000.);
    meZdcEneHadP2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadP2_->setAxisTitle("Counts", 2);
    meZdcEneHadP3_ = ib.book1D("PZDC HAD3 Energy", "Energy HAD module P3", 3000, 0., 3000.);
    meZdcEneHadP3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadP3_->setAxisTitle("Counts", 2);
    meZdcEneHadP4_ = ib.book1D("PZDC HAD4 Energy", "Energy HAD module P4", 3000, 0., 3000.);
    meZdcEneHadP4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadP4_->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/Excess_Info/Individual_ChannelvsTime/PZDC");
    meZdcEneTEmP1_ = ib.book2D("PZDC EM1 Energy vs Time", "Energy EM mod P1 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmP1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmP1_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmP2_ = ib.book2D("PZDC EM2 Energy vs Time", "Energy EM mod P2 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmP2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmP2_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmP3_ = ib.book2D("PZDC EM3 Energy vs Time", "Energy EM mod P3 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmP3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmP3_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmP4_ = ib.book2D("PZDC EM4 Energy vs Time", "Energy EM mod P4 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmP4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmP4_->setAxisTitle("Time (ns)", 2);
    meZdcEneTEmP5_ = ib.book2D("PZDC EM5 Energy vs Time", "Energy EM mod P5 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTEmP5_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTEmP5_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadP1_ =
        ib.book2D("PZDC HAD1 Energy vs Time", "Energy HAD mod P1 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadP1_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadP1_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadP2_ =
        ib.book2D("PZDC HAD2 Energy vs Time", "Energy HAD mod P2 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadP2_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadP2_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadP3_ =
        ib.book2D("PZDC HAD3 Energy vs Time", "Energy HAD mod P3 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadP3_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadP3_->setAxisTitle("Time (ns)", 2);
    meZdcEneTHadP4_ =
        ib.book2D("PZDC HAD4 Energy vs Time", "Energy HAD mod P4 vs Time", 4000, 0., 8000., 300, 0., 600.);
    meZdcEneTHadP4_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneTHadP4_->setAxisTitle("Time (ns)", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/ENERGY_SUMS/PZDC");
    meZdcEneHadPTot_ = ib.book1D("PZDC EHAD", "Total P-ZDC HAD Energy", 10000, 0., 10000.);
    meZdcEneHadPTot_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneHadPTot_->setAxisTitle("Counts", 2);
    meZdcEneEmPTot_ = ib.book1D("PZDC EEM", "Total P-ZDC EM Energy", 10000, 0., 10000.);
    meZdcEneEmPTot_->setAxisTitle("Energy (GeV)", 1);
    meZdcEneEmPTot_->setAxisTitle("Counts", 2);
    meZdcEnePTot_ = ib.book1D("PZDC ETOT", "Total P-ZDC Energy", 10000, 0., 10000.);
    meZdcEnePTot_->setAxisTitle("Energy (GeV)", 1);
    meZdcEnePTot_->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/ENERGY_SUMS/NZDC");
    meZdcCorEEmNEHadN_ = ib.book2D("NZDC EMvHAD", "N-ZDC Energy EM vs HAD", 3000, 0., 3000., 3000, 0., 3000.);
    meZdcCorEEmNEHadN_->setAxisTitle("EM Energy (GeV)", 1);
    meZdcCorEEmNEHadN_->setAxisTitle("HAD Energy (GeV)", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/ENERGY_SUMS/PZDC");
    meZdcCorEEmPEHadP_ = ib.book2D("PZDC EMvHAD", "P-ZDC Energy EM vs HAD", 3000, 0., 3000., 3000, 0., 3000.);
    meZdcCorEEmPEHadP_->setAxisTitle("EM Energy (GeV)", 1);
    meZdcCorEEmPEHadP_->setAxisTitle("HAD Energy (GeV)", 2);
    ib.setCurrentFolder("ZDCValidation/ZdcSimHits/ENERGY_SUMS");
    meZdcCorEtotNEtotP_ = ib.book2D("PZDC vs NZDC", "Energy N-ZDC vs P-ZDC", 3000, 0., 3000., 3000, 0., 3000.);
    meZdcCorEtotNEtotP_->setAxisTitle("N-ZDC Total Energy (GeV)", 1);
    meZdcCorEtotNEtotP_->setAxisTitle("P-ZDC Total Energy (GeV)", 2);
    meZdcEneTot_ = ib.book1D("ETOT ZDCs", "Total Energy ZDCs", 3000, 0., 3000.);
    meZdcEneTot_->setAxisTitle("Counts", 2);
    meZdcEneTot_->setAxisTitle("Energy (GeV)", 1);


    ib.setCurrentFolder("ZDCValidation/GenParticles/Forward");
    genpart_Pi0F = ib.book2D("Pi0_Forward", "Forward Generated Pi0s", 200, 7.5, 13, 100, -3.15, 3.15);
    genpart_Pi0F->setAxisTitle("Eta", 1);
    genpart_Pi0F->setAxisTitle("Phi (radians)", 2);
    genpart_Pi0F->setAxisTitle("Energy (GeV)", 3);
    genpart_Pi0F->getTH2F()->SetOption("lego2z,prof");
    genpart_Pi0F->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_Pi0F->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_Pi0F_counts =
        ib.book2D("Pi0_Forward_Counts", "Number of Forward Generated Pi0s", 200, 7.5, 13, 100, -3.15, 3.15);
    genpart_Pi0F_counts->setAxisTitle("#eta", 1);
    genpart_Pi0F_counts->setAxisTitle("#phi (radians)", 2);
    genpart_Pi0F_counts->setAxisTitle("Energy (GeV)", 3);
    genpart_Pi0F_counts->getTH2F()->SetOption("lego2z,prof");
    genpart_Pi0F_counts->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_Pi0F_counts->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_NeutF = ib.book2D("Neutron_Forward", "Forward Generated Neutrons", 200, 7.5, 13, 100, -3.15, 3.15);
    genpart_NeutF->setAxisTitle("Eta", 1);
    genpart_NeutF->setAxisTitle("Phi (radians)", 2);
    genpart_NeutF->setAxisTitle("Energy (GeV)", 3);
    genpart_NeutF->getTH2F()->SetOption("lego2z,prof");
    genpart_NeutF->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_NeutF->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_NeutF_counts =
        ib.book2D("Neutron_Forward_Counts", "Number of Forward Generated Neutrons", 200, 7.5, 13, 100, -3.15, 3.15);
    genpart_NeutF_counts->setAxisTitle("#eta", 1);
    genpart_NeutF_counts->setAxisTitle("#phi (radians)", 2);
    genpart_NeutF_counts->setAxisTitle("Energy (GeV)", 3);
    genpart_NeutF_counts->getTH2F()->SetOption("lego2z,prof");
    genpart_NeutF_counts->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_NeutF_counts->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_GammaF = ib.book2D("Gamma_Forward", "Forward Generated Gammas", 200, 7.5, 13, 100, -3.15, 3.15);
    genpart_GammaF->setAxisTitle("Eta", 1);
    genpart_GammaF->setAxisTitle("Phi (radians)", 2);
    genpart_GammaF->setAxisTitle("Energy (GeV)", 3);
    genpart_GammaF->getTH2F()->SetOption("lego2z,prof");
    genpart_GammaF->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_GammaF->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_GammaF_counts =
        ib.book2D("Gamma_Forward_Counts", "Number of Forward Generated Gammas", 200, 7.5, 13, 100, -3.15, 3.15);
    genpart_GammaF_counts->setAxisTitle("#eta", 1);
    genpart_GammaF_counts->setAxisTitle("#phi (radians)", 2);
    genpart_GammaF_counts->setAxisTitle("Energy (GeV)", 3);
    genpart_GammaF_counts->getTH2F()->SetOption("lego2z,prof");
    genpart_GammaF_counts->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_GammaF_counts->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_Pi0F_energydist = ib.book1D("Pi0_Forward_EDistribution", "Gen-Level Forward Pi0 Energy", 1500, 0, 1500);
    genpart_Pi0F_energydist->setAxisTitle("Energy (GeV)", 1);
    genpart_Pi0F_energydist->setAxisTitle("Counts", 2);
    genpart_NeutF_energydist = ib.book1D("N_Forward_EDistribution", "Gen-Level Forward Neutron Energy", 1500, 0, 1500);
    genpart_NeutF_energydist->setAxisTitle("Energy (GeV)", 1);
    genpart_NeutF_energydist->setAxisTitle("Counts", 2);
    genpart_GammaF_energydist =
        ib.book1D("Gamma_Forward_EDistribution", "Gen-Level Fowarad Gamma Energy", 1500, 0, 1500);
    genpart_GammaF_energydist->setAxisTitle("Energy (GeV)", 1);
    genpart_GammaF_energydist->setAxisTitle("Counts", 2);
    ib.setCurrentFolder("ZDCValidation/GenParticles/Backward");
    genpart_Pi0B = ib.book2D("Pi0_Backward", "Backward Generated Pi0s", 1000, -13, -7.5, 100, -3.15, 3.15);
    genpart_Pi0B->setAxisTitle("Eta", 1);
    genpart_Pi0B->setAxisTitle("Phi (radians)", 2);
    genpart_Pi0B->setAxisTitle("Energy (GeV)", 3);
    genpart_Pi0B->getTH2F()->SetOption("lego2z,prof");
    genpart_Pi0B->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_Pi0B->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_Pi0B_counts =
        ib.book2D("Pi0_Backwards_Counts", "Number of Backward Generated Pi0s", 200, -13, -7.5, 100, -3.15, 3.15);
    genpart_Pi0B_counts->setAxisTitle("#eta", 1);
    genpart_Pi0B_counts->setAxisTitle("#phi (radians)", 2);
    genpart_Pi0B_counts->setAxisTitle("Energy (GeV)", 3);
    genpart_Pi0B_counts->getTH2F()->SetOption("lego2z,prof");
    genpart_Pi0B_counts->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_Pi0B_counts->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_NeutB = ib.book2D("Neutron_Backward", "Backward Generated Neutrons", 1000, -13, -7.5, 100, -3.15, 3.15);
    genpart_NeutB->setAxisTitle("Eta", 1);
    genpart_NeutB->setAxisTitle("Phi (radians)", 2);
    genpart_NeutB->setAxisTitle("Energy (GeV)", 3);
    genpart_NeutB->getTH2F()->SetOption("lego2z,prof");
    genpart_NeutB->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_NeutB->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_NeutB_counts = ib.book2D(
        "Neutron_Backwards_Counts", "Number of Backward Generated Neutrons", 200, -13, -7.5, 100, -3.15, 3.15);
    genpart_NeutB_counts->setAxisTitle("#eta", 1);
    genpart_NeutB_counts->setAxisTitle("#phi (radians)", 2);
    genpart_NeutB_counts->setAxisTitle("Energy (GeV)", 3);
    genpart_NeutB_counts->getTH2F()->SetOption("lego2z,prof");
    genpart_NeutB_counts->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_NeutB_counts->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_GammaB = ib.book2D("Gamma_Backward", "Backward Generated Gammas", 1000, -13, -7.5, 100, -3.15, 3.15);
    genpart_GammaB->setAxisTitle("Eta", 1);
    genpart_GammaB->setAxisTitle("Phi (radians)", 2);
    genpart_GammaB->setAxisTitle("Energy (GeV)", 3);
    genpart_GammaB->getTH2F()->SetOption("lego2z,prof");
    genpart_GammaB->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_GammaB->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_GammaB_counts =
        ib.book2D("Gamma_Backwards_Counts", "Number of Backward Generated Gammas", 200, -13, -7.5, 100, -3.15, 3.15);
    genpart_GammaB_counts->setAxisTitle("#eta", 1);
    genpart_GammaB_counts->setAxisTitle("#phi (radians)", 2);
    genpart_GammaB_counts->setAxisTitle("Energy (GeV)", 3);
    genpart_GammaB_counts->getTH2F()->SetOption("lego2z,prof");
    genpart_GammaB_counts->getTH2F()->SetTitleOffset(1.4, "x");
    genpart_GammaB_counts->getTH2F()->SetTitleOffset(1.4, "y");

    genpart_Pi0B_energydist = ib.book1D("Pi0_Backward_EDistribution", "Gen-Level Backward Pi0 Energy", 1500, 0, 1500);
    genpart_Pi0B_energydist->setAxisTitle("Energy (GeV)", 1);
    genpart_Pi0B_energydist->setAxisTitle("Counts", 2);
    genpart_NeutB_energydist = ib.book1D("N_Backward_EDistribution", "Gen-Level Foward Neutron Energy", 1500, 0, 1500);
    genpart_NeutB_energydist->setAxisTitle("Energy (GeV)", 1);
    genpart_NeutB_energydist->setAxisTitle("Counts", 2);
    genpart_GammaB_energydist =
        ib.book1D("Gamma_Backward_EDistribution", "Gen-Level Backward Gamma Energy", 1500, 0, 1500);
    genpart_GammaB_energydist->setAxisTitle("Energy (GeV)", 1);
    genpart_GammaB_energydist->setAxisTitle("Counts", 2);
  }
}

void ZdcSimHitStudy::endRun ( const edm::Run &  run, const edm::EventSetup &  c  )

overrideprotected

Definition at line 871 of file ZdcSimHitStudy.cc.

{}

int ZdcSimHitStudy::FillHitValHist ( int  side, int  section, int  channel, double  energy, double  time  )

protected

Definition at line 768 of file ZdcSimHitStudy.cc.

References HcalZDCDetId::EM, enetot, enetotEmN, enetotEmP, enetotHadN, enetotHadP, enetotN, enetotP, MonitorElement::Fill(), HcalZDCDetId::HAD, meZdcEneEmN1_, meZdcEneEmN2_, meZdcEneEmN3_, meZdcEneEmN4_, meZdcEneEmP1_, meZdcEneEmP2_, meZdcEneEmP3_, meZdcEneEmP4_, meZdcEneHadN1_, meZdcEneHadN2_, meZdcEneHadN3_, meZdcEneHadN4_, meZdcEneHadP1_, meZdcEneHadP2_, meZdcEneHadP3_, meZdcEneHadP4_, meZdcEneTEmN1_, meZdcEneTEmN2_, meZdcEneTEmN3_, meZdcEneTEmN4_, meZdcEneTEmP1_, meZdcEneTEmP2_, meZdcEneTEmP3_, meZdcEneTEmP4_, meZdcEneTHadN1_, meZdcEneTHadN2_, meZdcEneTHadN3_, meZdcEneTHadN4_, meZdcEneTHadP1_, meZdcEneTHadP2_, meZdcEneTHadP3_, and meZdcEneTHadP4_.

Referenced by analyzeHits().

                                                                                                 {
  enetot += enetot;
  if (side == -1) {
    enetotN += energy;
    if (section == HcalZDCDetId::EM) {
      enetotEmN += energy;
      switch (channel) {
        case 1:
          meZdcEneEmN1_->Fill(energy);
          meZdcEneTEmN1_->Fill(energy, time);
          break;
        case 2:
          meZdcEneEmN2_->Fill(energy);
          meZdcEneTEmN2_->Fill(energy, time);
          break;
        case 3:
          meZdcEneEmN3_->Fill(energy);
          meZdcEneTEmN3_->Fill(energy, time);
          break;
        case 4:
          meZdcEneEmN4_->Fill(energy);
          meZdcEneTEmN4_->Fill(energy, time);
          break;
        case 5:
          meZdcEneEmN4_->Fill(energy);
          meZdcEneTEmN4_->Fill(energy, time);
          break;
      }
    }
    if (section == HcalZDCDetId::HAD) {
      enetotHadN += energy;
      switch (channel) {
        case 1:
          meZdcEneHadN1_->Fill(energy);
          meZdcEneTHadN1_->Fill(energy, time);
          break;
        case 2:
          meZdcEneHadN2_->Fill(energy);
          meZdcEneTHadN2_->Fill(energy, time);
          break;
        case 3:
          meZdcEneHadN3_->Fill(energy);
          meZdcEneTHadN3_->Fill(energy, time);
          break;
        case 4:
          meZdcEneHadN4_->Fill(energy);
          meZdcEneTHadN4_->Fill(energy, time);
          break;
      }
    }
  }
  if (side == 1) {
    enetotP += energy;
    if (section == HcalZDCDetId::EM) {
      enetotEmP += energy;
      switch (channel) {
        case 1:
          meZdcEneEmP1_->Fill(energy);
          meZdcEneTEmP1_->Fill(energy, time);
          break;
        case 2:
          meZdcEneEmP2_->Fill(energy);
          meZdcEneTEmP2_->Fill(energy, time);
          break;
        case 3:
          meZdcEneEmP3_->Fill(energy);
          meZdcEneTEmP3_->Fill(energy, time);
          break;
        case 4:
          meZdcEneEmP4_->Fill(energy);
          meZdcEneTEmP4_->Fill(energy, time);
          break;
        case 5:
          meZdcEneEmP4_->Fill(energy);
          meZdcEneTEmP4_->Fill(energy, time);
          break;
      }
    }
    if (section == HcalZDCDetId::HAD) {
      enetotHadP += energy;
      switch (channel) {
        case 1:
          meZdcEneHadP1_->Fill(energy);
          meZdcEneTHadP1_->Fill(energy, time);
          break;
        case 2:
          meZdcEneHadP2_->Fill(energy);
          meZdcEneTHadP2_->Fill(energy, time);
          break;
        case 3:
          meZdcEneHadP3_->Fill(energy);
          meZdcEneTHadP3_->Fill(energy, time);
          break;
        case 4:
          meZdcEneHadP4_->Fill(energy);
          meZdcEneTHadP4_->Fill(energy, time);
          break;
      }
    }
  }
  return 0;
}

Member Data Documentation

bool ZdcSimHitStudy::checkHit_

private

Definition at line 85 of file ZdcSimHitStudy.h.

Referenced by analyze(), bookHistograms(), and ZdcSimHitStudy().

double ZdcSimHitStudy::enetot

private

Definition at line 74 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and FillHitValHist().

double ZdcSimHitStudy::enetotEmN

private

Definition at line 72 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and FillHitValHist().

double ZdcSimHitStudy::enetotEmP

private

Definition at line 73 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and FillHitValHist().

double ZdcSimHitStudy::enetotHadN

private

Definition at line 72 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and FillHitValHist().

double ZdcSimHitStudy::enetotHadP

private

Definition at line 73 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and FillHitValHist().

double ZdcSimHitStudy::enetotN

private

Definition at line 72 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and FillHitValHist().

double ZdcSimHitStudy::enetotP

private

Definition at line 73 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and FillHitValHist().

std::string ZdcSimHitStudy::g4Label

private

Definition at line 82 of file ZdcSimHitStudy.h.

Referenced by ZdcSimHitStudy().

MonitorElement* ZdcSimHitStudy::genpart_GammaB

private

Definition at line 119 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_GammaB_counts

private

Definition at line 129 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_GammaB_energydist

private

Definition at line 120 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_GammaF

private

Definition at line 117 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_GammaF_counts

private

Definition at line 128 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_GammaF_energydist

private

Definition at line 118 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_NeutB

private

Definition at line 115 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_NeutB_counts

private

Definition at line 127 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_NeutB_energydist

private

Definition at line 116 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_NeutF

private

Definition at line 113 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_NeutF_counts

private

Definition at line 126 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_NeutF_energydist

private

Definition at line 114 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_Pi0B

private

Definition at line 111 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_Pi0B_counts

private

Definition at line 125 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_Pi0B_energydist

private

Definition at line 112 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_Pi0F

private

Definition at line 109 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_Pi0F_counts

private

Definition at line 124 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::genpart_Pi0F_energydist

private

Definition at line 110 of file ZdcSimHitStudy.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meAllZdcNHit_

private

Definition at line 87 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meBadZdcDetHit_

private

Definition at line 87 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meBadZdcIdHit_

private

Definition at line 87 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meBadZdcSecHit_

private

Definition at line 87 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdc10Ene_

private

Definition at line 89 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdc10EneP_

private

Definition at line 92 of file ZdcSimHitStudy.h.

MonitorElement * ZdcSimHitStudy::meZdcChannelHit_

private

Definition at line 90 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcCorEEmNEHadN_

private

Definition at line 98 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcCorEEmPEHadP_

private

Definition at line 104 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcCorEtotNEtotP_

private

Definition at line 104 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcDetectHit_

private

Definition at line 88 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEEMCh_

private

Definition at line 92 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEHadCh_

private

Definition at line 92 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEMEnergyHit_

private

Definition at line 91 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEML10EneP_

private

Definition at line 92 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcEneEmN1_

private

Definition at line 93 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmN2_

private

Definition at line 93 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmN3_

private

Definition at line 93 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmN4_

private

Definition at line 93 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmN5_

private

Definition at line 93 of file ZdcSimHitStudy.h.

Referenced by bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEneEmNTot_

private

Definition at line 97 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcEneEmP1_

private

Definition at line 99 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmP2_

private

Definition at line 99 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmP3_

private

Definition at line 99 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmP4_

private

Definition at line 99 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneEmP5_

private

Definition at line 99 of file ZdcSimHitStudy.h.

Referenced by bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEneEmPTot_

private

Definition at line 103 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcEneHadN1_

private

Definition at line 94 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneHadN2_

private

Definition at line 94 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneHadN3_

private

Definition at line 94 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneHadN4_

private

Definition at line 94 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement* ZdcSimHitStudy::meZdcEneHadNTot_

private

Definition at line 97 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcEneHadP1_

private

Definition at line 100 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneHadP2_

private

Definition at line 100 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneHadP3_

private

Definition at line 100 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneHadP4_

private

Definition at line 100 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement* ZdcSimHitStudy::meZdcEneHadPTot_

private

Definition at line 103 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEneNTot_

private

Definition at line 97 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEnePTot_

private

Definition at line 103 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcEnergyHit_

private

Definition at line 90 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcEneTEmN1_

private

Definition at line 95 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmN2_

private

Definition at line 95 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmN3_

private

Definition at line 95 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmN4_

private

Definition at line 95 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmN5_

private

Definition at line 95 of file ZdcSimHitStudy.h.

Referenced by bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcEneTEmP1_

private

Definition at line 101 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmP2_

private

Definition at line 101 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmP3_

private

Definition at line 101 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmP4_

private

Definition at line 101 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTEmP5_

private

Definition at line 101 of file ZdcSimHitStudy.h.

Referenced by bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcEneTHadN1_

private

Definition at line 96 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTHadN2_

private

Definition at line 96 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTHadN3_

private

Definition at line 96 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTHadN4_

private

Definition at line 96 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement* ZdcSimHitStudy::meZdcEneTHadP1_

private

Definition at line 102 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTHadP2_

private

Definition at line 102 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTHadP3_

private

Definition at line 102 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTHadP4_

private

Definition at line 102 of file ZdcSimHitStudy.h.

Referenced by bookHistograms(), and FillHitValHist().

MonitorElement * ZdcSimHitStudy::meZdcEneTot_

private

Definition at line 104 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcETime_

private

Definition at line 88 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcHadEnergyHit_

private

Definition at line 91 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcHadL10EneP_

private

Definition at line 91 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcNHit_

private

Definition at line 88 of file ZdcSimHitStudy.h.

MonitorElement* ZdcSimHitStudy::meZdcNHitEM_

private

Definition at line 89 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcNHitHad_

private

Definition at line 89 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcNHitLum_

private

Definition at line 89 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement* ZdcSimHitStudy::meZdcSectionHit_

private

Definition at line 90 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcSideHit_

private

Definition at line 88 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcTimeHit_

private

Definition at line 91 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

MonitorElement * ZdcSimHitStudy::meZdcTimeWHit_

private

Definition at line 90 of file ZdcSimHitStudy.h.

Referenced by analyzeHits(), and bookHistograms().

std::string ZdcSimHitStudy::outFile_

private

Definition at line 82 of file ZdcSimHitStudy.h.

Referenced by ZdcSimHitStudy().

edm::EDGetTokenT<reco::GenParticleCollection> ZdcSimHitStudy::tok_gen_

private

Definition at line 83 of file ZdcSimHitStudy.h.

Referenced by analyze(), and ZdcSimHitStudy().

edm::EDGetTokenT<edm::PCaloHitContainer> ZdcSimHitStudy::tok_hits_

private

Definition at line 84 of file ZdcSimHitStudy.h.

Referenced by analyze(), and ZdcSimHitStudy().

bool ZdcSimHitStudy::verbose_

private

Definition at line 85 of file ZdcSimHitStudy.h.

Referenced by ZdcSimHitStudy().

std::string ZdcSimHitStudy::zdcHits

private

Definition at line 82 of file ZdcSimHitStudy.h.

Referenced by ZdcSimHitStudy().