CMS 3D CMS Logo

/data/doxygen/doxygen-1.7.3/gen/CMSSW_4_2_8/src/DQM/CastorMonitor/src/CastorLEDMonitor.cc

Go to the documentation of this file.
00001 #include "DQM/CastorMonitor/interface/CastorLEDMonitor.h"
00002 #include "DQMServices/Core/interface/DQMStore.h"
00003 #include "DQMServices/Core/interface/MonitorElement.h"
00004 
00005 //***************************************************//
00006 //********** CastorLEDMonitor ***********************//
00007 //********** Author: Dmytro Volyanskyy   ************//
00008 //********** Date  : 20.11.2008 (first version) ******// 
00009 //---------- last revision: 31.05.2011 (Panos Katsas) 
00010 //***************************************************//
00011 
00012 //==================================================================//
00013 //======================= Constructor ==============================//
00014 //==================================================================//
00015 CastorLEDMonitor::CastorLEDMonitor() {
00016   doPerChannel_ = false;
00017   sigS0_=0;
00018   sigS1_=9;
00019 }
00020 
00021 //==================================================================//
00022 //======================= Destructor ==============================//
00023 //==================================================================//
00024 CastorLEDMonitor::~CastorLEDMonitor() {}
00025 
00026 
00027 //==========================================================//
00028 //========================= setup ==========================//
00029 //==========================================================//
00030 
00031 void CastorLEDMonitor::setup(const edm::ParameterSet& ps, DQMStore* dbe){
00032 
00033   CastorBaseMonitor::setup(ps,dbe);
00034 
00035   baseFolder_ = rootFolder_+"CastorLEDMonitor";
00036 
00038   if ( ps.getUntrackedParameter<bool>("LEDPerChannel", false) ) 
00039     doPerChannel_ = true;
00040 
00041   sigS0_ = ps.getUntrackedParameter<int>("FirstSignalBin", 0);
00042   sigS1_ = ps.getUntrackedParameter<int>("LastSignalBin", 9);
00043   adcThresh_ = ps.getUntrackedParameter<double>("LED_ADC_Thresh", 0);
00044   std::cout << "LED Monitor threshold set to " << adcThresh_ << std::endl;
00045   std::cout << "LED Monitor signal window set to " << sigS0_ <<"-"<< sigS1_ << std::endl;  
00046 
00047   if(sigS0_<0){
00048     std::cout << "CastorLEDMonitor::setup, illegal range for first sample: " << sigS0_ << std::endl;
00049     sigS0_=0;
00050   }
00051   if(sigS1_>9){
00052     std::cout << "CastorLEDMonitor::setup, illegal range for last sample: " << sigS1_ << std::endl;
00053     sigS1_=9;
00054   }
00055 
00056   if(sigS0_ > sigS1_){ 
00057     std::cout<< "CastorLEDMonitor::setup, illegal range for first: "<< sigS0_ << " and last sample: " << sigS1_ << std::endl;
00058     sigS0_=0; sigS1_=9;
00059   }
00060 
00061   ievt_=0;
00062 
00063   if ( m_dbe ) {
00064 
00065     m_dbe->setCurrentFolder(baseFolder_);
00066     meEVT_ = m_dbe->bookInt("LED Task Event Number");    
00067     meEVT_->Fill(ievt_);
00068    
00069     castHists.shapePED =  m_dbe->book1D("Castor Ped Subtracted Pulse Shape","Castor Ped Subtracted Pulse Shape",10,-0.5,9.5);
00070     castHists.shapeALL =  m_dbe->book1D("Castor Average Pulse Shape","Castor Average Pulse Shape",10,-0.5,9.5);
00071     castHists.energyALL =  m_dbe->book1D("Castor Average Pulse Energy","Castor Average Pulse Energy",500,0,500);
00072     castHists.timeALL =  m_dbe->book1D("Castor Average Pulse Time","Castor Average Pulse Time",200,-1,10);
00073     castHists.rms_shape =  m_dbe->book1D("Castor LED Shape RMS Values","Castor LED Shape RMS Values",100,0,5);
00074     castHists.mean_shape =  m_dbe->book1D("Castor LED Shape Mean Values","Castor LED Shape Mean Values",100,-0.5,9.5);
00075     castHists.rms_time =  m_dbe->book1D("Castor LED Time RMS Values","Castor LED Time RMS Values",100,0,5);
00076     castHists.mean_time =  m_dbe->book1D("Castor LED Time Mean Values","Castor LED Time Mean Values",100,-1,10);
00077     castHists.rms_energy =  m_dbe->book1D("Castor LED Energy RMS Values","Castor LED Energy RMS Values",100,0,500);
00078     castHists.mean_energy =  m_dbe->book1D("Castor LED Energy Mean Values","Castor LED Energy Mean Values",100,0,1000);
00079     
00080   }
00081 
00082   return;
00083 }
00084 
00085 
00086 //==========================================================//
00087 //================== createFEDmap ==========================//
00088 //==========================================================//
00089 
00090 void CastorLEDMonitor::createFEDmap(unsigned int fed){
00091   fedIter = MEAN_MAP_SHAPE_DCC.find(fed);
00092   
00093   if(fedIter==MEAN_MAP_SHAPE_DCC.end()){
00094     m_dbe->setCurrentFolder(baseFolder_);
00095     char name[256];
00096 
00097     sprintf(name,"DCC %d Mean Shape Map",fed);
00098     MonitorElement* mean_shape = m_dbe->book2D(name,name,24,0.5,24.5,15,0.5,15.5);
00099     sprintf(name,"DCC %d RMS Shape Map",fed);
00100     MonitorElement* rms_shape = m_dbe->book2D(name,name,24,0.5,24.5,15,0.5,15.5);
00101 
00102     MEAN_MAP_SHAPE_DCC[fed] = mean_shape;
00103     RMS_MAP_SHAPE_DCC[fed] = rms_shape;
00104 
00105     sprintf(name,"DCC %d Mean Time Map",fed);
00106     MonitorElement* mean_time = m_dbe->book2D(name,name,24,0.5,24.5,15,0.5,15.5);
00107     sprintf(name,"DCC %d RMS Time Map",fed);
00108     MonitorElement* rms_time = m_dbe->book2D(name,name,24,0.5,24.5,15,0.5,15.5);
00109     MEAN_MAP_TIME_DCC[fed] = mean_time;
00110     RMS_MAP_TIME_DCC[fed] = rms_time;
00111     
00112     sprintf(name,"DCC %d Mean Energy Map",fed);
00113     MonitorElement* mean_energy = m_dbe->book2D(name,name,24,0.5,24.5,15,0.5,15.5);
00114     sprintf(name,"DCC %d RMS Energy Map",fed);
00115     MonitorElement* rms_energy = m_dbe->book2D(name,name,24,0.5,24.5,15,0.5,15.5);
00116     MEAN_MAP_ENERGY_DCC[fed] = mean_energy;
00117     RMS_MAP_ENERGY_DCC[fed] = rms_energy;
00118   }   
00119 }
00120 
00121 
00122 //==========================================================//
00123 //========================= reset ==========================//
00124 //==========================================================//
00125 
00126 void CastorLEDMonitor::reset(){
00127   
00128   MonitorElement* unpackedFEDS = m_dbe->get("Castor/FEDs Unpacked");
00129   if(unpackedFEDS){
00130     for(int b=1; b<=unpackedFEDS->getNbinsX(); b++){
00131       if(unpackedFEDS->getBinContent(b)>0){
00132         createFEDmap(700+(b-1));  
00133       }
00134     }
00135   }
00136 }
00137 
00138 
00139 //==========================================================//
00140 //=================== processEvent  ========================//
00141 //==========================================================//
00142 
00143 void CastorLEDMonitor::processEvent( const CastorDigiCollection& castorDigis, const CastorDbService& cond){
00144 
00145 
00146   meEVT_->Fill(ievt_);
00147 
00148 
00149   if(!m_dbe){ 
00150     if(fVerbosity>0) std::cout<<"CastorLEDMonitor::processEvent DQMStore not instantiated!!!"<<std::endl;  
00151     return; 
00152   }
00153   float vals[10];
00154 
00155   
00156    if(castorDigis.size()>0) {
00157 
00158     for (CastorDigiCollection::const_iterator j=castorDigis.begin(); j!=castorDigis.end(); j++){
00159       const CastorDataFrame digi = (const CastorDataFrame)(*j); 
00160      
00164 
00165       float energy=0;
00166       float ts =0; float bs=0;
00167       int maxi=0; float maxa=0;
00168       for(int i=sigS0_; i<=sigS1_; i++){
00169         if(digi.sample(i).adc()>maxa){maxa=digi.sample(i).adc(); maxi=i;}
00170       }
00171       for(int i=sigS0_; i<=sigS1_; i++){          
00172         float tmp1 =0;   
00173         int j1=digi.sample(i).adc();
00174         tmp1 = (LedMonAdc2fc[j1]+0.5);            
00175         energy += tmp1-calibs_.pedestal(digi.sample(i).capid());
00176         if(i>=(maxi-1) && i<=maxi+1){
00177           ts += i*(tmp1-calibs_.pedestal(digi.sample(i).capid()));
00178           bs += tmp1-calibs_.pedestal(digi.sample(i).capid());
00179         }
00180       }
00181       if(energy<adcThresh_) continue;
00182      
00183       castHists.energyALL->Fill(energy);
00184       if(bs!=0) castHists.timeALL->Fill(ts/bs);
00185 
00186       //     if(ievt_%1000 == 0 ){
00187        for (int i=0; i<digi.size(); i++) {
00188         float tmp =0;
00189         int j=digi.sample(i).adc();
00190         tmp = (LedMonAdc2fc[j]+0.5);
00191         castHists.shapeALL->Fill(i,tmp);
00192         castHists.shapePED->Fill(i,tmp-calibs_.pedestal(digi.sample(i).capid()));
00193         vals[i] = tmp-calibs_.pedestal(digi.sample(i).capid());
00194        }
00195        //      }
00196       //do per channel histograms once for each 100 events
00197       if( doPerChannel_) perChanHists(digi.id(),vals,castHists.shape, castHists.time, castHists.energy, baseFolder_);
00198     }        
00199   } else {
00200     if(fVerbosity > 0) std::cout << "CastorPSMonitor::processEvent NO Castor Digis !!!" << std::endl;
00201   }
00202  
00203 
00204   ievt_++;
00205   
00206   return;
00207 }
00208 
00209 
00210 //==========================================================//
00211 //=================== done  ================================//
00212 //==========================================================//
00213 
00214 void CastorLEDMonitor::done(){
00216   return;
00217 }
00218 
00219 //==========================================================//
00220 //=================== perChanHists  ========================//
00221 //==========================================================//
00222 
00223 void CastorLEDMonitor::perChanHists(const HcalCastorDetId DetID, float* vals, 
00224                                   std::map<HcalCastorDetId, MonitorElement*> &tShape, 
00225                                   std::map<HcalCastorDetId, MonitorElement*> &tTime,
00226                                   std::map<HcalCastorDetId, MonitorElement*> &tEnergy,
00227                                   std::string baseFolder){
00228   
00229   std::string type = "CastorLEDPerChannel";
00230   if(m_dbe) m_dbe->setCurrentFolder(baseFolder+"/"+type);
00231 
00232   MonitorElement* me;
00233   if(m_dbe==NULL) return;
00234   meIter=tShape.begin();
00235   meIter = tShape.find(DetID);
00236  
00237  if (meIter!=tShape.end()){
00238     me= meIter->second;
00239     if(me==NULL && fVerbosity>0) printf("CastorLEDAnalysis::perChanHists  This histo is NULL!!??\n");
00240     else{
00241       float energy=0;
00242       float ts =0; float bs=0;
00243       int maxi=0; float maxa=0;
00244       for(int i=sigS0_; i<=sigS1_; i++){
00245         if(vals[i]>maxa){maxa=vals[i]; maxi=i;}
00246       }
00247       for(int i=sigS0_; i<=sigS1_; i++){          
00248         energy += vals[i];
00249         if(i>=(maxi-1) && i<=maxi+1){
00250           ts += i*vals[i];
00251           bs += vals[i];
00252         }
00253         me->Fill(i,vals[i]);
00254       }
00255       me = tTime[DetID];      
00256       if(bs!=0) me->Fill(ts/bs);
00257       me = tEnergy[DetID];  
00258       me->Fill(energy); 
00259     }
00260   }
00261   else{
00262     char name[1024];
00263     sprintf(name,"Castor LED Shape zside=%d  module=%d  sector=%d",DetID.zside(),DetID.module(),DetID.sector());      
00264     MonitorElement* insert1;
00265     insert1 =  m_dbe->book1D(name,name,10,-0.5,9.5);
00266     float energy=0;
00267     float ts =0; float bs=0;
00268     int maxi=0; float maxa=0;
00269     for(int i=sigS0_; i<=sigS1_; i++){
00270       if(vals[i]>maxa){maxa=vals[i]; maxi=i;}
00271       insert1->Fill(i,vals[i]); 
00272     }
00273     for(int i=sigS0_; i<=sigS1_; i++){    
00274       energy += vals[i];
00275       if(i>=(maxi-1) && i<=maxi+1){
00276         ts += i*vals[i];
00277         bs += vals[i];
00278       }
00279     }
00280     tShape[DetID] = insert1;
00281     
00282     sprintf(name,"Castor LED Time  zside=%d  module=%d  sector=%d",DetID.zside(),DetID.module(),DetID.sector());      
00283     MonitorElement* insert2 =  m_dbe->book1D(name,name,100,0,10);
00284     if(bs!=0) insert2->Fill(ts/bs); 
00285     tTime[DetID] = insert2;     
00286 
00287 
00288     sprintf(name,"Castor LED Energy zside=%d  module=%d  sector=%d",DetID.zside(),DetID.module(),DetID.sector());      
00289     MonitorElement* insert3 =  m_dbe->book1D(name,name,500,0,500);
00290     insert3->Fill(energy); 
00291     tEnergy[DetID] = insert3;   
00292     
00293   } 
00294 
00295   return;
00296 
00297 }