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/data/refman/pasoursint/CMSSW_5_2_9/src/DQM/SiStripCommissioningSources/src/NoiseTask.cc

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00001 #include <memory>
00002 #include <ostream>
00003 
00004 #include "CalibTracker/SiStripAPVAnalysis/interface/ApvAnalysisFactory.h"
00005 #include "CalibTracker/SiStripAPVAnalysis/interface/ApvFactoryService.h"
00006 #include "CondFormats/DataRecord/interface/SiStripNoisesRcd.h"
00007 #include "CondFormats/DataRecord/interface/SiStripPedestalsRcd.h"
00008 #include "CondFormats/SiStripObjects/interface/SiStripNoises.h"
00009 #include "CondFormats/SiStripObjects/interface/SiStripPedestals.h"
00010 #include "DataFormats/SiStripCommon/interface/SiStripConstants.h"
00011 #include "DataFormats/SiStripCommon/interface/SiStripHistoTitle.h"
00012 #include "DQM/SiStripCommon/interface/ExtractTObject.h"
00013 #include "DQM/SiStripCommon/interface/UpdateTProfile.h"
00014 #include "DQMServices/Core/interface/DQMStore.h"
00015 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00016 #include "FWCore/ServiceRegistry/interface/Service.h"
00017 
00018 #include "DQM/SiStripCommissioningSources/interface/NoiseTask.h"
00019 
00020 using namespace sistrip;
00021 
00022 std::ostream &operator <<( std::ostream &rOut, 
00023                            ApvAnalysis::PedestalType &rPEDS)
00024 {
00025   for( ApvAnalysis::PedestalType::const_iterator pedsIter = rPEDS.begin();
00026        pedsIter != rPEDS.end();
00027        ++pedsIter)
00028     {
00029       rOut << ' ' << *pedsIter;
00030     }
00031 
00032   return rOut;
00033 }
00034 
00035 // -----------------------------------------------------------------------------
00036 //
00037 NoiseTask::NoiseTask( DQMStore *dqm,
00038                       const FedChannelConnection &conn)
00039   : CommissioningTask( dqm, conn, "NoiseTask")
00040 {
00041   //@@ NOT GUARANTEED TO BE THREAD SAFE! 
00042   pApvFactory_ = edm::Service<ApvFactoryService>().operator->()->getApvFactory();
00043   
00044   LogTrace( mlDqmSource_)
00045     << "[NoiseTask::" << __func__ << "]"
00046     << " Constructing object...";
00047 }
00048 
00049 // -----------------------------------------------------------------------------
00050 //
00051 NoiseTask::~NoiseTask()
00052 {
00053   LogTrace(mlDqmSource_)
00054     << "[NoiseTask::" << __func__ << "]"
00055     << " Destructing object...";
00056 
00057   // Have to delete pApvFactory_ manually even though we didn't create it
00058   // ourself. :(
00059   if( pApvFactory_) { delete pApvFactory_; } 
00060 }
00061 
00062 // -----------------------------------------------------------------------------
00063 //
00064 void NoiseTask::book() 
00065 {
00066   LogTrace( mlDqmSource_) << "[NoiseTask::" << __func__ << "]";
00067 
00068   // CACHING
00069   static std::auto_ptr<SiStripPedestals> pDBPedestals;
00070   static std::auto_ptr<SiStripNoises>    pDBNoises;
00071   
00072   const uint16_t nBINS = 256;
00073   
00074   {
00075     // Pedestals
00076     std::string title = SiStripHistoTitle( sistrip::EXPERT_HISTO,
00077                                            sistrip::NOISE,
00078                                            sistrip::FED_KEY,
00079                                            fedKey(),
00080                                            sistrip::LLD_CHAN,
00081                                            connection().lldChannel(),
00082                                            sistrip::extrainfo::pedestals_).title();
00083 
00084     HistoSet oHSet;
00085     oHSet.isProfile_ = true;
00086 
00087     oHSet.vNumOfEntries_.resize( nBINS, 0);
00088     oHSet.vSumOfContents_.resize( nBINS, 0);
00089     oHSet.vSumOfSquares_.resize( nBINS, 0);
00090 
00091     oHSet.histo( dqm()->bookProfile( title, title,
00092                                      nBINS, -0.5, nBINS * 1. - 0.5,
00093                                      1025, 0., 1025.) );
00094 
00095     peds_.push_back( oHSet);
00096   }
00097 
00098   {
00099     // Corrected Noise
00100     std::string title = SiStripHistoTitle( sistrip::EXPERT_HISTO,
00101                                            sistrip::NOISE,
00102                                            sistrip::FED_KEY,
00103                                            fedKey(),
00104                                            sistrip::LLD_CHAN,
00105                                            connection().lldChannel(),
00106                                            sistrip::extrainfo::noise_).title();
00107 
00108     HistoSet oHSet;
00109     oHSet.isProfile_ = true;
00110 
00111     oHSet.vNumOfEntries_.resize( nBINS, 0);
00112     oHSet.vSumOfContents_.resize( nBINS, 0);
00113     oHSet.vSumOfSquares_.resize( nBINS, 0);
00114 
00115     oHSet.histo( dqm()->bookProfile( title, title,
00116                                      nBINS, -0.5, nBINS * 1. - 0.5,
00117                                      1025, 0., 1025.) );
00118 
00119     peds_.push_back( oHSet);
00120   }
00121 
00122   const uint16_t nCM_BINS = 1024;
00123   for( uint16_t nApv = 0; 2 > nApv; ++nApv)
00124     {
00125       std::string title = SiStripHistoTitle( sistrip::EXPERT_HISTO,
00126                                              sistrip::PEDESTALS,
00127                                              sistrip::FED_KEY,
00128                                              fedKey(),
00129                                              sistrip::APV,
00130                                              connection().i2cAddr( nApv),
00131                                              sistrip::extrainfo::commonMode_).title();
00132 
00133       HistoSet oHSet;
00134 
00135       oHSet.isProfile_ = false;
00136 
00137       oHSet.vNumOfEntries_.resize( nCM_BINS, 0);
00138 
00139       oHSet.histo( dqm()->book1D( title, title, 
00140                                   nCM_BINS, 
00141                                   nCM_BINS/2 * -1. - 0.5, 
00142                                   nCM_BINS/2 *  1. - 0.5 ) );
00143     
00144       cm_.push_back( oHSet);
00145     }
00146   
00147   // Initialize Apv
00148   pApvFactory_->instantiateApvs( connection().detId(), connection().nApvs() );
00149 
00150   // --[ RETRIEVE PEDESTALS FROM DB ]--
00151   // Operation should be performed only once
00152   if( !pDBPedestals.get()) {
00153     LogTrace( mlDqmSource_)
00154       << "[NoiseTask::" << __func__ << "] "
00155       << "Retrieving Pedestals from DB";
00156 
00157     // Directly retrieve Pedestals from EventSetup
00158     edm::ESHandle<SiStripPedestals> pedestals;
00159     eventSetup()->get<SiStripPedestalsRcd>().get( pedestals);
00160 
00161     // Cache Pedestals
00162     pDBPedestals.reset( new SiStripPedestals( *pedestals) );
00163 
00164     LogTrace( mlDqmSource_)
00165       << "[NoiseTask::" << __func__ << "] "
00166       << "Done Retrieving Pedestals from DB";
00167   } // End retrieve Pedestals from DB
00168 
00169   // --[ RETRIEVE NOISES FROM DB ]--
00170   // Operation should be performed only once
00171   if( !pDBNoises.get()) {
00172     LogTrace( mlDqmSource_)
00173       << "[NoiseTask::" << __func__ << "] "
00174       << "Retrieving Noises from DB";
00175 
00176     // Directly retrieve Noises from EventSetup
00177     edm::ESHandle<SiStripNoises> noises;
00178     eventSetup()->get<SiStripNoisesRcd>().get( noises);
00179 
00180     // Cache Pedestals
00181     pDBNoises.reset( new SiStripNoises( *noises) );
00182 
00183     LogTrace( mlDqmSource_)
00184       << "[NoiseTask::" << __func__ << "] "
00185       << "Done Retrieving Noises from DB";
00186   } // End retrieve Noises from DB
00187 
00188 
00189   // Get ApvAnalysis associated with given DetId
00190   ApvAnalysisFactory::ApvAnalysisVector 
00191     apvAnalysisVector( pApvFactory_->getApvAnalysis( connection().detId()));
00192 
00193   SiStripPedestals::Range pedestalsRange( 
00194                                          pDBPedestals->getRange( connection().detId() ) );
00195   SiStripNoises::Range noisesRange( 
00196                                    pDBNoises->getRange( connection().detId() ) );
00197 
00198   // Cache Apv Pair #
00199   const uint16_t nAPV_PAIR = connection().apvPairNumber();
00200 
00201   for( uint16_t nLclApv = 0; 2 > nLclApv; ++nLclApv) {
00202     // Retrieve pedestals and noises associated with given DetId/Apv
00203     ApvAnalysis::PedestalType pedestals; 
00204     ApvAnalysis::PedestalType noises;
00205     for( uint16_t nStrip = nAPV_PAIR * 256 + nLclApv * 128, 
00206            nMaxStrip = nStrip + 128; 
00207          nMaxStrip > nStrip; 
00208          ++nStrip) 
00209       {
00210         pedestals.push_back( pDBPedestals->getPed( nStrip, pedestalsRange));
00211         noises.push_back( pDBNoises->getNoise( nStrip, noisesRange));
00212       }
00213 
00214     try {
00215       // Checked access
00216       ApvAnalysisFactory::ApvAnalysisVector::reference rApvAnalysis =
00217         apvAnalysisVector.at( nAPV_PAIR * 2 + nLclApv);
00218 
00219       rApvAnalysis->pedestalCalculator().setPedestals( pedestals);
00220       rApvAnalysis->pedestalCalculator().setNoise( noises);
00221 
00222       /*
00223         std::stringstream out;
00224         LogTrace( mlDqmSource_)
00225         << "[NoiseTask::" << __func__ << "] "
00226         << "DetId|Apv# -> " 
00227         << connection().detId() << '|' << ( nAPV_PAIR * 2 + nLclApv)
00228         << "   Pedestals: " 
00229         << ( out << pedestals 
00230         << "   Noises: " << noises, out.str());
00231       */
00232     } catch( std::out_of_range) {
00233       // Hmm, didn't find appropriate Apv :((( -> VERY, VERY BAD
00234       LogTrace( mlDqmSource_)
00235         << "[NoiseTask::" << __func__ << "] "
00236         << "Could not set Pedestals/Noises for DetId|Apv# -> " 
00237         << connection().detId() << '|' << ( nAPV_PAIR * 2 + nLclApv)
00238         << ". !!! POSSIBLE BUG !!!";
00239     } // End Try block
00240   } // End Local Apvs loop
00241 }
00242 
00243 // -----------------------------------------------------------------------------
00244 //
00245 void NoiseTask::fill( const SiStripEventSummary         &rSummary,
00246                       const edm::DetSet<SiStripRawDigi> &rDigis) 
00247 {
00248   pApvFactory_->updatePair( connection().detId(), 
00249                             connection().apvPairNumber(), 
00250                             rDigis);
00251 }
00252 
00253 // -----------------------------------------------------------------------------
00254 //
00255 void NoiseTask::update() 
00256 {
00257   static UpdateTProfile updateTProfile;
00258 
00259   TProfile *pedsProf  = ExtractTObject<TProfile>().extract( peds_[0].histo() );
00260   TProfile *noiseProf = ExtractTObject<TProfile>().extract( peds_[1].histo() );
00261 
00262   for( uint16_t nLclApv = 2 * connection().apvPairNumber(),
00263          nMaxLclApv = nLclApv + 2,
00264          nApv = 0;
00265        nMaxLclApv > nLclApv;
00266        ++nLclApv, ++nApv)
00267     {
00268       ApvAnalysis::PedestalType lclPedestals;
00269       ApvAnalysis::PedestalType lclNoises;
00270       ApvAnalysis::PedestalType lclCommonMode( 
00271                                               pApvFactory_->getCommonMode( connection().detId(), nLclApv) );
00272 
00273       pApvFactory_->getPedestal  ( connection().detId(), nLclApv, lclPedestals);
00274       pApvFactory_->getNoise     ( connection().detId(), nLclApv, lclNoises );
00275 
00276       const uint16_t nSTART_BIN = 128 * ( nLclApv % 2);
00277 
00278       for( uint16_t nBin = 0,
00279              nAbsBin = nSTART_BIN + nBin + 1; 
00280            128 > nBin; 
00281            ++nBin, ++nAbsBin)
00282         {
00283           updateTProfile.setBinContent( pedsProf, nAbsBin, 5, 
00284                                         lclPedestals[nBin], lclNoises[nBin]);
00285           updateTProfile.setBinContent( noiseProf, nAbsBin, 5,
00286                                         lclNoises[nBin], 0);
00287         } // End loop over BINs
00288 
00289       // Samvel: Assume Once CM value is calculated per chip.
00290       //         In principle Chip can be divided into a several ranges. Then CM
00291       //         will be calculated per range. !!! UPDATE CODE THEN !!!
00292       for( ApvAnalysis::PedestalType::const_iterator cmIterator 
00293              = lclCommonMode.begin();
00294            cmIterator != lclCommonMode.end();
00295            ++cmIterator)
00296         {
00297           //uint32_t nCM = static_cast<uint32_t>( *cmIterator);
00298           //if( nCM >= 1024) nCM = 1023;
00299           //updateHistoSet( cm_[nApv], nCM);
00300           float nCM = static_cast<float>( *cmIterator );
00301           updateHistoSet( cm_[nApv], nCM );
00302         }
00303       
00304       std::stringstream out;
00305       LogTrace( mlDqmSource_)
00306         << "[NoiseTask::" << __func__ << "] "
00307         << "DET ID [" << connection().detId() 
00308         << "] has Common Mode size " << lclCommonMode.size() << " : "
00309         << ( out << lclCommonMode, out.str());
00310     } // End loop over Local Apvs
00311 
00312   updateHistoSet( cm_[0]);
00313   updateHistoSet( cm_[1]);
00314 }