#include <SiPixelRawDataErrorModule.h>
Definition at line 27 of file SiPixelRawDataErrorModule.h.
typedef edm::DetSet<SiPixelRawDataError>::const_iterator SiPixelRawDataErrorModule::ErrorIterator |
Definition at line 40 of file SiPixelRawDataErrorModule.h.
SiPixelRawDataErrorModule::SiPixelRawDataErrorModule | ( | ) |
SiPixelRawDataErrorModule::SiPixelRawDataErrorModule | ( | const uint32_t & | id | ) |
SiPixelRawDataErrorModule::SiPixelRawDataErrorModule | ( | const uint32_t & | id, |
const int & | ncols, | ||
const int & | nrows | ||
) |
SiPixelRawDataErrorModule::~SiPixelRawDataErrorModule | ( | ) |
void SiPixelRawDataErrorModule::book | ( | const edm::ParameterSet & | iConfig, |
int | type = 0 |
||
) |
void SiPixelRawDataErrorModule::bookFED | ( | const edm::ParameterSet & | iConfig | ) |
Book FED histograms.
Definition at line 99 of file SiPixelRawDataErrorModule.cc.
References edm::ParameterSet::getParameter(), id_, j, edm::InputTag::label(), meErrorType_, meEvtNbr_, meEvtSize_, meFedChLErrArray_, meFedChNErrArray_, meFedETypeNErrArray_, meFullType_, meNErrors_, meTBMMessage_, meTBMType_, cmsCodeRules::cppFunctionSkipper::operator, MonitorElement::setAxisTitle(), align_tpl::src, and cond::rpcobtemp::temp.
{ //std::cout<<"Entering SiPixelRawDataErrorModule::bookFED: "<<std::endl; std::string hid; // Get collection name and instantiate Histo Id builder edm::InputTag src = iConfig.getParameter<edm::InputTag>( "src" ); SiPixelHistogramId* theHistogramId = new SiPixelHistogramId( src.label() ); // Get DQM interface DQMStore* theDMBE = edm::Service<DQMStore>().operator->(); // Types of errors hid = theHistogramId->setHistoId("errorType",id_); meErrorType_ = theDMBE->book1D(hid,"Type of errors",15,24.5,39.5); meErrorType_->setAxisTitle("Type of errors",1); // Number of errors hid = theHistogramId->setHistoId("NErrors",id_); meNErrors_ = theDMBE->book1D(hid,"Number of errors",36,0.,36.); meNErrors_->setAxisTitle("Number of errors",1); // Type of FIFO full (errorType = 28). FIFO 1 is 1-5 (where fullType = channel of FIFO 1), // fullType = 6 signifies FIFO 2 nearly full, 7 signifies trigger FIFO nearly full, 8 // indicates an unexpected result hid = theHistogramId->setHistoId("fullType",id_); meFullType_ = theDMBE->book1D(hid,"Type of FIFO full",7,0.5,7.5); meFullType_->setAxisTitle("FIFO type",1); // For error type 30, the type of problem encoded in the TBM trailer // 0 = stack full, 1 = Pre-cal issued, 2 = clear trigger counter, 3 = sync trigger, // 4 = sync trigger error, 5 = reset ROC, 6 = reset TBM, 7 = no token bit pass hid = theHistogramId->setHistoId("TBMMessage",id_); meTBMMessage_ = theDMBE->book1D(hid,"TBM trailer message",8,-0.5,7.5); meTBMMessage_->setAxisTitle("TBM message",1); // For error type 30, the type of problem encoded in the TBM error trailer 0 = none // 1 = data stream too long, 2 = FSM errors, 3 = invalid # of ROCs, 4 = multiple hid = theHistogramId->setHistoId("TBMType",id_); meTBMType_ = theDMBE->book1D(hid,"Type of TBM trailer",5,-0.5,4.5); meTBMType_->setAxisTitle("TBM Type",1); // For error type 31, the event number of the TBM header with the error hid = theHistogramId->setHistoId("EvtNbr",id_); meEvtNbr_ = theDMBE->bookInt(hid); // For errorType = 34, datastream size according to error word hid = theHistogramId->setHistoId("evtSize",id_); meEvtSize_ = theDMBE->bookInt(hid); for(int j=0; j!=37; j++){ std::stringstream temp; temp << j; hid = "FedChNErrArray_" + temp.str(); meFedChNErrArray_[j] = theDMBE->bookInt(hid); hid = "FedChLErrArray_" + temp.str(); meFedChLErrArray_[j] = theDMBE->bookInt(hid); hid = "FedETypeNErrArray_" + temp.str(); if(j<21) meFedETypeNErrArray_[j] = theDMBE->bookInt(hid); } delete theHistogramId; //std::cout<<"...leaving SiPixelRawDataErrorModule::bookFED. "<<std::endl; }
int SiPixelRawDataErrorModule::fill | ( | const edm::DetSetVector< SiPixelRawDataError > & | input, |
bool | modon = true , |
||
bool | ladon = false , |
||
bool | bladeon = false |
||
) |
Fill histograms.
Definition at line 154 of file SiPixelRawDataErrorModule.cc.
References ADC_mask, ADC_shift, Reference_intrackfit_cff::barrel, edm::DetSetVector< T >::begin(), DQMStore::cd(), DataBit_mask, DB0_shift, DB1_shift, DB2_shift, DB3_shift, DB4_shift, DB5_shift, DB6_shift, DB7_shift, edm::DetSetVector< T >::end(), Reference_intrackfit_cff::endcap, EVTLGT_mask, EVTLGT_shift, MonitorElement::Fill(), HcalObjRepresent::Fill(), edm::DetSetVector< T >::find(), DQMStore::get(), id_, PixelBarrelName::isHalfModule(), PixelBarrelName::ladderName(), LINK_bits, LINK_mask, LINK_shift, meFedChLErrArray_, meFedChNErrArray_, meFedETypeNErrArray_, meFullType_, cmsCodeRules::cppFunctionSkipper::operator, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, DQMStore::pwd(), and DetId::subdetId().
{ //std::cout<<"Entering SiPixelRawDataErrorModule::fill: "<<std::endl; bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel); bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap); bool isHalfModule = false; uint32_t DBladder = 0; if(barrel){ isHalfModule = PixelBarrelName(DetId(id_)).isHalfModule(); DBladder = PixelBarrelName(DetId(id_)).ladderName(); // int FedId = DetId(id_).getFedId(); // FED the error came from } // Get DQM interface DQMStore* theDMBE = edm::Service<DQMStore>().operator->(); unsigned int numberOfSeriousErrors = 0; edm::DetSetVector<SiPixelRawDataError>::const_iterator isearch = input.find(id_); // search errors of detid if( isearch != input.end() ) { // Not at empty iterator // Look at errors now edm::DetSet<SiPixelRawDataError>::const_iterator di; for(di = isearch->data.begin(); di != isearch->data.end(); di++) { int FedId = di->getFedId(); // FED the error came from int chanNmbr = -1; int errorType = di->getType(); // type of error int TBMType=-1; int TBMMessage=-1; int evtSize=-1; int evtNbr=-1; int fullType=-1; bool notReset = true; const int LINK_bits = 6; const int LINK_shift = 26; const uint32_t LINK_mask = ~(~(uint32_t)(0) << LINK_bits); if(modon){ if(errorType == 32 || errorType == 33 || errorType == 34) { long long errorWord = di->getWord64(); // for 64-bit error words chanNmbr = (errorWord >> LINK_shift) & LINK_mask; if(errorType == 34) evtSize = (errorWord >> EVTLGT_shift) & EVTLGT_mask; } else { uint32_t errorWord = di->getWord32(); // for 32-bit error words chanNmbr = (errorWord >> LINK_shift) & LINK_mask; // default way to get channel number. Only different for case 29 below. switch(errorType) { // fill in the appropriate monitorables based on the information stored in the error word case(28) : { int NFa = (errorWord >> DB0_shift) & DataBit_mask; int NFb = (errorWord >> DB1_shift) & DataBit_mask; int NFc = (errorWord >> DB2_shift) & DataBit_mask; int NFd = (errorWord >> DB3_shift) & DataBit_mask; int NFe = (errorWord >> DB4_shift) & DataBit_mask; int NF2 = (errorWord >> DB6_shift) & DataBit_mask; int L1A = (errorWord >> DB7_shift) & DataBit_mask; if (NFa==1) fullType = 1; (meFullType_)->Fill((int)fullType); if (NFb==1) fullType = 2; (meFullType_)->Fill((int)fullType); if (NFc==1) fullType = 3; (meFullType_)->Fill((int)fullType); if (NFd==1) fullType = 4; (meFullType_)->Fill((int)fullType); if (NFe==1) fullType = 5; (meFullType_)->Fill((int)fullType); if (NF2==1) fullType = 6; (meFullType_)->Fill((int)fullType); if (L1A==1) fullType = 7; (meFullType_)->Fill((int)fullType); chanNmbr = 0; // signifies channel not known break; } case(29) : { int CH1 = (errorWord >> DB0_shift) & DataBit_mask; int CH2 = (errorWord >> DB1_shift) & DataBit_mask; int CH3 = (errorWord >> DB2_shift) & DataBit_mask; int CH4 = (errorWord >> DB3_shift) & DataBit_mask; int CH5 = (errorWord >> DB4_shift) & DataBit_mask; int BLOCK_bits = 3; int BLOCK_shift = 8; uint32_t BLOCK_mask = ~(~uint32_t(0) << BLOCK_bits); int BLOCK = (errorWord >> BLOCK_shift) & BLOCK_mask; int localCH = 1*CH1+2*CH2+3*CH3+4*CH4+5*CH5; if (BLOCK%2==0) chanNmbr=(BLOCK/2)*9+localCH; else chanNmbr = ((BLOCK-1)/2)*9+4+localCH; if ((chanNmbr<1)||(chanNmbr>36)) chanNmbr=0; // signifies unexpected result break; } case(30) : { int T0 = (errorWord >> DB0_shift) & DataBit_mask; int T1 = (errorWord >> DB1_shift) & DataBit_mask; int T2 = (errorWord >> DB2_shift) & DataBit_mask; int T3 = (errorWord >> DB3_shift) & DataBit_mask; int T4 = (errorWord >> DB4_shift) & DataBit_mask; int T5 = (errorWord >> DB5_shift) & DataBit_mask; int T6 = (errorWord >> DB6_shift) & DataBit_mask; int T7 = (errorWord >> DB7_shift) & DataBit_mask; if (T0==1) TBMMessage=0; if (T1==1) TBMMessage=1; if (T2==1) TBMMessage=2; if (T3==1) TBMMessage=3; if (T4==1) TBMMessage=4; if (T5==1) TBMMessage=5; if (T6==1) TBMMessage=6; if (T7==1) TBMMessage=7; if(TBMMessage==5 || TBMMessage==6) notReset=false; int StateMach_bits = 4; int StateMach_shift = 8; uint32_t StateMach_mask = ~(~uint32_t(0) << StateMach_bits); int StateMach = (errorWord >> StateMach_shift) & StateMach_mask; switch(StateMach) { case(0) : { TBMType = 0; break; } case(1) : case(9) : { TBMType = 1; break; } case(2) : case(4) : case(6) : { TBMType = 2; break; } case(8) : { TBMType = 3; break; } default : TBMType = 4; }; break; } case(31) : { evtNbr = (errorWord >> ADC_shift) & ADC_mask; break; } case(36) : { //ROCId = (errorWord >> ROC_shift) & ROC_mask; break; } case(37) : { //DCOLId = (errorWord >> DCOL_shift) & DCOL_mask; //PXId = (errorWord >> PXID_shift) & PXID_mask; break; } case(38) : { //ROCNmbr = (errorWord >> ROC_shift) & ROC_mask; break; } default : break; }; }//end if not double precision }//end if modon if(ladon && barrel){ if(errorType == 32 || errorType == 33 || errorType == 34){ long long errorWord = di->getWord64(); // for 64-bit error words if(errorType == 34) evtSize = (errorWord >> EVTLGT_shift) & EVTLGT_mask; chanNmbr = (errorWord >> LINK_shift) & LINK_mask; } else { uint32_t errorWord = di->getWord32(); // for 32-bit error words chanNmbr = (errorWord >> LINK_shift) & LINK_mask; switch(errorType) { // fill in the appropriate monitorables based on the information stored in the error word case(28) : { int NFa = (errorWord >> DB0_shift) & DataBit_mask; int NFb = (errorWord >> DB1_shift) & DataBit_mask; int NFc = (errorWord >> DB2_shift) & DataBit_mask; int NFd = (errorWord >> DB3_shift) & DataBit_mask; int NFe = (errorWord >> DB4_shift) & DataBit_mask; int NF2 = (errorWord >> DB6_shift) & DataBit_mask; int L1A = (errorWord >> DB7_shift) & DataBit_mask; if (NFa==1) fullType = 1; (meFullType_)->Fill((int)fullType); if (NFb==1) fullType = 2; (meFullType_)->Fill((int)fullType); if (NFc==1) fullType = 3; (meFullType_)->Fill((int)fullType); if (NFd==1) fullType = 4; (meFullType_)->Fill((int)fullType); if (NFe==1) fullType = 5; (meFullType_)->Fill((int)fullType); if (NF2==1) fullType = 6; (meFullType_)->Fill((int)fullType); if (L1A==1) fullType = 7; (meFullType_)->Fill((int)fullType); chanNmbr = 0; break; } case(29) : { int CH1 = (errorWord >> DB0_shift) & DataBit_mask; int CH2 = (errorWord >> DB1_shift) & DataBit_mask; int CH3 = (errorWord >> DB2_shift) & DataBit_mask; int CH4 = (errorWord >> DB3_shift) & DataBit_mask; int CH5 = (errorWord >> DB4_shift) & DataBit_mask; int BLOCK_bits = 3; int BLOCK_shift = 8; uint32_t BLOCK_mask = ~(~uint32_t(0) << BLOCK_bits); int BLOCK = (errorWord >> BLOCK_shift) & BLOCK_mask; int localCH = 1*CH1+2*CH2+3*CH3+4*CH4+5*CH5; if (BLOCK%2==0) chanNmbr=(BLOCK/2)*9+localCH; else chanNmbr = ((BLOCK-1)/2)*9+4+localCH; if ((chanNmbr<1)||(chanNmbr>36)) chanNmbr=0; // signifies unexpected result break; } case(30) : { int T0 = (errorWord >> DB0_shift) & DataBit_mask; int T1 = (errorWord >> DB1_shift) & DataBit_mask; int T2 = (errorWord >> DB2_shift) & DataBit_mask; int T3 = (errorWord >> DB3_shift) & DataBit_mask; int T4 = (errorWord >> DB4_shift) & DataBit_mask; int T5 = (errorWord >> DB5_shift) & DataBit_mask; int T6 = (errorWord >> DB6_shift) & DataBit_mask; int T7 = (errorWord >> DB7_shift) & DataBit_mask; if (T0==1) TBMMessage=0; if (T1==1) TBMMessage=1; if (T2==1) TBMMessage=2; if (T3==1) TBMMessage=3; if (T4==1) TBMMessage=4; if (T5==1) TBMMessage=5; if (T6==1) TBMMessage=6; if (T7==1) TBMMessage=7; int StateMach_bits = 4; int StateMach_shift = 8; uint32_t StateMach_mask = ~(~uint32_t(0) << StateMach_bits); int StateMach = (errorWord >> StateMach_shift) & StateMach_mask; switch(StateMach) { case(0) : { TBMType = 0; break; } case(1) : case(9) : { TBMType = 1; break; } case(2) : case(4) : case(6) : { TBMType = 2; break; } case(8) : { TBMType = 3; break; } default : TBMType = 4; }; break; } case(31) : { evtNbr = (errorWord >> ADC_shift) & ADC_mask; break; } case(36) : { //int ROCId = (errorWord >> ROC_shift) & ROC_mask; break; } case(37) : { //int DCOLId = (errorWord >> DCOL_shift) & DCOL_mask; //int PXId = (errorWord >> PXID_shift) & PXID_mask; break; } case(38) : { //int ROCNmbr = (errorWord >> ROC_shift) & ROC_mask; break; } default : break; }; } }//end if ladderon if(bladeon && endcap){ if(errorType == 32 || errorType == 33 || errorType == 34){ long long errorWord = di->getWord64(); // for 64-bit error words if(errorType == 34) evtSize = (errorWord >> EVTLGT_shift) & EVTLGT_mask; chanNmbr = (errorWord >> LINK_shift) & LINK_mask; } else { uint32_t errorWord = di->getWord32(); // for 32-bit error words chanNmbr = (errorWord >> LINK_shift) & LINK_mask; switch(errorType) { // fill in the appropriate monitorables based on the information stored in the error word case(28) : { int NFa = (errorWord >> DB0_shift) & DataBit_mask; int NFb = (errorWord >> DB1_shift) & DataBit_mask; int NFc = (errorWord >> DB2_shift) & DataBit_mask; int NFd = (errorWord >> DB3_shift) & DataBit_mask; int NFe = (errorWord >> DB4_shift) & DataBit_mask; int NF2 = (errorWord >> DB6_shift) & DataBit_mask; int L1A = (errorWord >> DB7_shift) & DataBit_mask; if (NFa==1) fullType = 1; (meFullType_)->Fill((int)fullType); if (NFb==1) fullType = 2; (meFullType_)->Fill((int)fullType); if (NFc==1) fullType = 3; (meFullType_)->Fill((int)fullType); if (NFd==1) fullType = 4; (meFullType_)->Fill((int)fullType); if (NFe==1) fullType = 5; (meFullType_)->Fill((int)fullType); if (NF2==1) fullType = 6; (meFullType_)->Fill((int)fullType); if (L1A==1) fullType = 7; (meFullType_)->Fill((int)fullType); chanNmbr = 0; break; } case(29) : { int CH1 = (errorWord >> DB0_shift) & DataBit_mask; int CH2 = (errorWord >> DB1_shift) & DataBit_mask; int CH3 = (errorWord >> DB2_shift) & DataBit_mask; int CH4 = (errorWord >> DB3_shift) & DataBit_mask; int CH5 = (errorWord >> DB4_shift) & DataBit_mask; int BLOCK_bits = 3; int BLOCK_shift = 8; uint32_t BLOCK_mask = ~(~uint32_t(0) << BLOCK_bits); int BLOCK = (errorWord >> BLOCK_shift) & BLOCK_mask; int localCH = 1*CH1+2*CH2+3*CH3+4*CH4+5*CH5; if (BLOCK%2==0) chanNmbr=(BLOCK/2)*9+localCH; else chanNmbr = ((BLOCK-1)/2)*9+4+localCH; if ((chanNmbr<1)||(chanNmbr>36)) chanNmbr=0; // signifies unexpected result break; } case(30) : { int T0 = (errorWord >> DB0_shift) & DataBit_mask; int T1 = (errorWord >> DB1_shift) & DataBit_mask; int T2 = (errorWord >> DB2_shift) & DataBit_mask; int T3 = (errorWord >> DB3_shift) & DataBit_mask; int T4 = (errorWord >> DB4_shift) & DataBit_mask; int T5 = (errorWord >> DB5_shift) & DataBit_mask; int T6 = (errorWord >> DB6_shift) & DataBit_mask; int T7 = (errorWord >> DB7_shift) & DataBit_mask; if (T0==1) TBMMessage=0; if (T1==1) TBMMessage=1; if (T2==1) TBMMessage=2; if (T3==1) TBMMessage=3; if (T4==1) TBMMessage=4; if (T5==1) TBMMessage=5; if (T6==1) TBMMessage=6; if (T7==1) TBMMessage=7; int StateMach_bits = 4; int StateMach_shift = 8; uint32_t StateMach_mask = ~(~uint32_t(0) << StateMach_bits); int StateMach = (errorWord >> StateMach_shift) & StateMach_mask; switch(StateMach) { case(0) : { TBMType = 0; break; } case(1) : case(9) : { TBMType = 1; break; } case(2) : case(4) : case(6) : { TBMType = 2; break; } case(8) : { TBMType = 3; break; } default : TBMType = 4; }; break; } case(31) : { evtNbr = (errorWord >> ADC_shift) & ADC_mask; break; } case(36) : { //int ROCId = (errorWord >> ROC_shift) & ROC_mask; break; } case(37) : { //int DCOLId = (errorWord >> DCOL_shift) & DCOL_mask; //int PXId = (errorWord >> PXID_shift) & PXID_mask; break; } case(38) : { //int ROCNmbr = (errorWord >> ROC_shift) & ROC_mask; break; } default : break; }; } }//end if bladeon if(!(FedId==38&&chanNmbr==7)){ // mask slow channel that spits out lots of EventNumber errors even when in STDBY! if(!(errorType==30) || notReset){ std::string hid; static const char chNfmt[] = "Pixel/AdditionalPixelErrors/FED_%d/FedChNErrArray_%d"; char chNbuf[sizeof(chNfmt) + 2*32]; // 32 digits is enough for up to 2^105 + sign. sprintf(chNbuf, chNfmt, FedId, chanNmbr); hid = chNbuf; meFedChNErrArray_[chanNmbr] = theDMBE->get(hid); if(meFedChNErrArray_[chanNmbr]) meFedChNErrArray_[chanNmbr]->Fill(meFedChNErrArray_[chanNmbr]->getIntValue()+1); static const char chLfmt[] = "Pixel/AdditionalPixelErrors/FED_%d/FedChLErrArray_%d"; char chLbuf[sizeof(chLfmt) + 2*32]; // 32 digits is enough for up to 2^105 + sign. sprintf(chLbuf, chLfmt, FedId, chanNmbr); hid = chLbuf; meFedChLErrArray_[chanNmbr] = theDMBE->get(hid); if(meFedChLErrArray_[chanNmbr]) meFedChLErrArray_[chanNmbr]->Fill(errorType); numberOfSeriousErrors++; int messageType = 99; if(errorType<30) messageType = errorType-25; else if(errorType>30) messageType = errorType-19; else if(errorType==30 && TBMMessage==0) messageType = errorType-25; else if(errorType==30 && TBMMessage==1) messageType = errorType-24; else if(errorType==30 && (TBMMessage==2 || TBMMessage==3 || TBMMessage==4)) messageType = errorType-23; else if(errorType==30 && TBMMessage==7) messageType = errorType-22; else if(errorType==30 && TBMType==1) messageType = errorType-21; else if(errorType==30 && TBMType==2) messageType = errorType-20; else if(errorType==30 && TBMType==3) messageType = errorType-19; if(messageType<=20){ static const char fmt[] = "Pixel/AdditionalPixelErrors/FED_%d/FedETypeNErrArray_%d"; char buf[sizeof(fmt) + 2*32]; // 32 digits is enough for up to 2^105 + sign. sprintf(buf, fmt, FedId, messageType); hid = buf; meFedETypeNErrArray_[messageType] = theDMBE->get(hid); if(meFedETypeNErrArray_[messageType]) meFedETypeNErrArray_[messageType]->Fill(meFedETypeNErrArray_[messageType]->getIntValue()+1); } } std::string currDir = theDMBE->pwd(); static const char buf[] = "Pixel/AdditionalPixelErrors/FED_%d"; char feddir[sizeof(buf)+2]; sprintf(feddir,buf,FedId); theDMBE->cd(feddir); MonitorElement* me; static const char buf1[] = "Pixel/AdditionalPixelErrors/FED_%d/NErrors_siPixelDigis_%d"; char hname1[sizeof(buf1)+4]; sprintf(hname1,buf1,FedId,FedId); me = theDMBE->get(hname1); if(me) me->Fill((int)numberOfSeriousErrors); static const char buf2[] = "Pixel/AdditionalPixelErrors/FED_%d/TBMMessage_siPixelDigis_%d"; char hname2[sizeof(buf2)+4]; sprintf(hname2,buf2,FedId,FedId); me = theDMBE->get(hname2); if(me) me->Fill((int)TBMMessage); static const char buf3[] = "Pixel/AdditionalPixelErrors/FED_%d/TBMType_siPixelDigis_%d"; char hname3[sizeof(buf3)+4]; sprintf(hname3,buf3,FedId,FedId); me = theDMBE->get(hname3); if(me) me->Fill((int)TBMType); static const char buf4[] = "Pixel/AdditionalPixelErrors/FED_%d/errorType_siPixelDigis_%d"; char hname4[sizeof(buf4)+4]; sprintf(hname4,buf4,FedId,FedId); me = theDMBE->get(hname4); if(me) me->Fill((int)errorType); static const char buf5[] = "Pixel/AdditionalPixelErrors/FED_%d/fullType_siPixelDigis_%d"; char hname5[sizeof(buf5)+4]; sprintf(hname5,buf5,FedId,FedId); me = theDMBE->get(hname5); if(me) me->Fill((int)fullType); static const char buf6[] = "Pixel/AdditionalPixelErrors/FED_%d/EvtNbr_siPixelDigis_%d"; char hname6[sizeof(buf6)+4]; sprintf(hname6,buf6,FedId,FedId); me = theDMBE->get(hname6); if(me) me->Fill((int)evtNbr); static const char buf7[] = "Pixel/AdditionalPixelErrors/FED_%d/evtSize_siPixelDigis_%d"; char hname7[sizeof(buf7)+4]; sprintf(hname7,buf7,FedId,FedId); me = theDMBE->get(hname7); if(me) me->Fill((int)evtSize); theDMBE->cd(currDir); } }//end for loop over all errors on module }//end if not an empty iterator return numberOfSeriousErrors; }
int SiPixelRawDataErrorModule::fillFED | ( | const edm::DetSetVector< SiPixelRawDataError > & | input | ) |
Fill FED histograms.
Definition at line 563 of file SiPixelRawDataErrorModule.cc.
References ADC_mask, ADC_shift, edm::DetSetVector< T >::begin(), DataBit_mask, DB0_shift, DB1_shift, DB2_shift, DB3_shift, DB4_shift, DB5_shift, DB6_shift, DB7_shift, edm::DetSetVector< T >::end(), EVTLGT_mask, EVTLGT_shift, MonitorElement::Fill(), HcalObjRepresent::Fill(), edm::DetSetVector< T >::find(), DQMStore::get(), id_, LINK_bits, LINK_mask, LINK_shift, meErrorType_, meEvtNbr_, meEvtSize_, meFedChLErrArray_, meFedChNErrArray_, meFedETypeNErrArray_, meFullType_, meNErrors_, meTBMMessage_, meTBMType_, and cmsCodeRules::cppFunctionSkipper::operator.
{ //std::cout<<"Entering SiPixelRawDataErrorModule::fillFED: "<<static_cast<int>(id_)<<std::endl; DQMStore* theDMBE = edm::Service<DQMStore>().operator->(); unsigned int numberOfSeriousErrors = 0; edm::DetSetVector<SiPixelRawDataError>::const_iterator isearch = input.find(0xffffffff); // search errors of detid if( isearch != input.end() ) { // Not an empty iterator // Look at FED errors now edm::DetSet<SiPixelRawDataError>::const_iterator di; for(di = isearch->data.begin(); di != isearch->data.end(); di++) { int FedId = di->getFedId(); // FED the error came from int chanNmbr = -1; int errorType = 0; // type of error if(FedId==static_cast<int>(id_)) { errorType = di->getType(); // type of error (meErrorType_)->Fill((int)errorType); bool notReset=true; int TBMType=-1; int TBMMessage=-1; int evtSize=-1; int fullType=-1; const int LINK_bits = 6; const int LINK_shift = 26; const uint32_t LINK_mask = ~(~(uint32_t)(0) << LINK_bits); if((errorType == 32)||(errorType == 33)||(errorType == 34)) { long long errorWord = di->getWord64(); // for 64-bit error words chanNmbr = 0; switch(errorType) { // fill in the appropriate monitorables based on the information stored in the error word case(32) : { break; } case(33) : { break; } case(34) : { evtSize = (errorWord >> EVTLGT_shift) & EVTLGT_mask; if(!(FedId==38&&chanNmbr==7)) (meEvtSize_)->Fill((int)evtSize); break; } default : break; }; } else { uint32_t errorWord = di->getWord32(); // for 32-bit error words switch(errorType) { // fill in the appropriate monitorables based on the information stored in the error word case(25) : case(39) : { chanNmbr = 0; break; } case(28) : { int NFa = (errorWord >> DB0_shift) & DataBit_mask; int NFb = (errorWord >> DB1_shift) & DataBit_mask; int NFc = (errorWord >> DB2_shift) & DataBit_mask; int NFd = (errorWord >> DB3_shift) & DataBit_mask; int NFe = (errorWord >> DB4_shift) & DataBit_mask; int NF2 = (errorWord >> DB6_shift) & DataBit_mask; int L1A = (errorWord >> DB7_shift) & DataBit_mask; if (NFa==1) fullType = 1; (meFullType_)->Fill((int)fullType); if (NFb==1) fullType = 2; (meFullType_)->Fill((int)fullType); if (NFc==1) fullType = 3; (meFullType_)->Fill((int)fullType); if (NFd==1) fullType = 4; (meFullType_)->Fill((int)fullType); if (NFe==1) fullType = 5; (meFullType_)->Fill((int)fullType); if (NF2==1) fullType = 6; (meFullType_)->Fill((int)fullType); if (L1A==1) fullType = 7; (meFullType_)->Fill((int)fullType); chanNmbr = 0; break; } case(29) : { int CH1 = (errorWord >> DB0_shift) & DataBit_mask; int CH2 = (errorWord >> DB1_shift) & DataBit_mask; int CH3 = (errorWord >> DB2_shift) & DataBit_mask; int CH4 = (errorWord >> DB3_shift) & DataBit_mask; int CH5 = (errorWord >> DB4_shift) & DataBit_mask; int BLOCK_bits = 3; int BLOCK_shift = 8; uint32_t BLOCK_mask = ~(~uint32_t(0) << BLOCK_bits); int BLOCK = (errorWord >> BLOCK_shift) & BLOCK_mask; int localCH = 1*CH1+2*CH2+3*CH3+4*CH4+5*CH5; if (BLOCK%2==0) chanNmbr=(BLOCK/2)*9+localCH; else chanNmbr = ((BLOCK-1)/2)*9+4+localCH; if ((chanNmbr<1)||(chanNmbr>36)) chanNmbr=0; // signifies unexpected result break; } case(30) : { int T0 = (errorWord >> DB0_shift) & DataBit_mask; int T1 = (errorWord >> DB1_shift) & DataBit_mask; int T2 = (errorWord >> DB2_shift) & DataBit_mask; int T3 = (errorWord >> DB3_shift) & DataBit_mask; int T4 = (errorWord >> DB4_shift) & DataBit_mask; int T5 = (errorWord >> DB5_shift) & DataBit_mask; int T6 = (errorWord >> DB6_shift) & DataBit_mask; int T7 = (errorWord >> DB7_shift) & DataBit_mask; if(!(FedId==38&&chanNmbr==7)){ if (T0==1) { TBMMessage=0; (meTBMMessage_)->Fill((int)TBMMessage); } if (T1==1) { TBMMessage=1; (meTBMMessage_)->Fill((int)TBMMessage); } if (T2==1) { TBMMessage=2; (meTBMMessage_)->Fill((int)TBMMessage); } if (T3==1) { TBMMessage=3; (meTBMMessage_)->Fill((int)TBMMessage); } if (T4==1) { TBMMessage=4; (meTBMMessage_)->Fill((int)TBMMessage); } if (T5==1) { TBMMessage=5; (meTBMMessage_)->Fill((int)TBMMessage); } if (T6==1) { TBMMessage=6; (meTBMMessage_)->Fill((int)TBMMessage); } if (T7==1) { TBMMessage=7; (meTBMMessage_)->Fill((int)TBMMessage); } } if(TBMMessage==5 || TBMMessage==6) notReset=false; int StateMach_bits = 4; int StateMach_shift = 8; uint32_t StateMach_mask = ~(~uint32_t(0) << StateMach_bits); int StateMach = (errorWord >> StateMach_shift) & StateMach_mask; switch(StateMach) { case(0) : { TBMType = 0; break; } case(1) : case(9) : { TBMType = 1; break; } case(2) : case(4) : case(6) : { TBMType = 2; break; } case(8) : { TBMType = 3; break; } default : TBMType = 4; }; if(!(FedId==38&&chanNmbr==7)) (meTBMType_)->Fill((int)TBMType); chanNmbr = (errorWord >> LINK_shift) & LINK_mask; break; } case(31) : { int evtNbr = (errorWord >> ADC_shift) & ADC_mask; if(!(FedId==38&&chanNmbr==7))(meEvtNbr_)->Fill((int)evtNbr); chanNmbr = (errorWord >> LINK_shift) & LINK_mask; break; } case(35) : case(36) : case(37) : case(38) : { chanNmbr = (errorWord >> LINK_shift) & LINK_mask; break; } default : break; }; }// end if errorType if(!(errorType==30) || notReset){ if(!(FedId==38&&chanNmbr==7)){ // mask slow channel that spits out lots of EventNumber errors even when in STDBY! std::string hid; static const char chNfmt[] = "Pixel/AdditionalPixelErrors/FED_%d/FedChNErrArray_%d"; char chNbuf[sizeof(chNfmt) + 2*32]; // 32 digits is enough for up to 2^105 + sign. sprintf(chNbuf, chNfmt, FedId, chanNmbr); hid = chNbuf; meFedChNErrArray_[chanNmbr] = theDMBE->get(hid); if(meFedChNErrArray_[chanNmbr]) meFedChNErrArray_[chanNmbr]->Fill(meFedChNErrArray_[chanNmbr]->getIntValue()+1); static const char chLfmt[] = "Pixel/AdditionalPixelErrors/FED_%d/FedChLErrArray_%d"; char chLbuf[sizeof(chLfmt) + 2*32]; // 32 digits is enough for up to 2^105 + sign. sprintf(chLbuf, chLfmt, FedId, chanNmbr); hid = chLbuf; meFedChLErrArray_[chanNmbr] = theDMBE->get(hid); if(meFedChLErrArray_[chanNmbr]) meFedChLErrArray_[chanNmbr]->Fill(errorType); numberOfSeriousErrors++; int messageType = 99; if(errorType<30) messageType = errorType-25; else if(errorType>30) messageType = errorType-19; else if(errorType==30 && TBMMessage==0) messageType = errorType-25; else if(errorType==30 && TBMMessage==1) messageType = errorType-24; else if(errorType==30 && (TBMMessage==2 || TBMMessage==3 || TBMMessage==4)) messageType = errorType-23; else if(errorType==30 && TBMMessage==7) messageType = errorType-22; else if(errorType==30 && TBMType==1) messageType = errorType-21; else if(errorType==30 && TBMType==2) messageType = errorType-20; else if(errorType==30 && TBMType==3) messageType = errorType-19; if(messageType<=20){ static const char fmt[] = "Pixel/AdditionalPixelErrors/FED_%d/FedETypeNErrArray_%d"; char buf[sizeof(fmt) + 2*32]; // 32 digits is enough for up to 2^105 + sign. sprintf(buf, fmt, FedId, messageType); hid = buf; meFedETypeNErrArray_[messageType] = theDMBE->get(hid); if(meFedETypeNErrArray_[messageType]) meFedETypeNErrArray_[messageType]->Fill(meFedETypeNErrArray_[messageType]->getIntValue()+1); } }//end if bad channel }//end if not 30 || notReset }//end if }//end for if(numberOfSeriousErrors>0) (meNErrors_)->Fill((float)numberOfSeriousErrors); }// end if not an empty iterator //std::cout<<"...leaving SiPixelRawDataErrorModule::fillFED. "<<std::endl; return numberOfSeriousErrors; }
bool SiPixelRawDataErrorModule::_debug_ [private] |
Definition at line 56 of file SiPixelRawDataErrorModule.h.
Referenced by SiPixelRawDataErrorModule().
const int SiPixelRawDataErrorModule::ADC_bits = 8 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const uint32_t SiPixelRawDataErrorModule::ADC_mask = ~(~uint32_t(0) << ADC_bits) [private] |
Definition at line 90 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::ADC_shift = 0 [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DataBit_bits = 1 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const uint32_t SiPixelRawDataErrorModule::DataBit_mask = ~(~uint32_t(0) << DataBit_bits) [private] |
Definition at line 90 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB0_shift = 0 [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB1_shift = DB0_shift + DataBit_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB2_shift = DB1_shift + DataBit_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB3_shift = DB2_shift + DataBit_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB4_shift = DB3_shift + DataBit_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB5_shift = DB4_shift + DataBit_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB6_shift = DB5_shift + DataBit_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DB7_shift = DB6_shift + DataBit_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DCOL_bits = 5 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const uint32_t SiPixelRawDataErrorModule::DCOL_mask = ~(~uint32_t(0) << DCOL_bits) [private] |
Definition at line 90 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::DCOL_shift = PXID_shift + PXID_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::EVTLGT_bits = 24 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const long long SiPixelRawDataErrorModule::EVTLGT_mask = ~(~(long long)(0) << EVTLGT_bits) [private] |
Definition at line 91 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::EVTLGT_shift = TRLRBGN_shift + TRLRBGN_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
uint32_t SiPixelRawDataErrorModule::id_ [private] |
Definition at line 53 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::LINK_bits = 6 [static, private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const uint32_t SiPixelRawDataErrorModule::LINK_mask = ~(~uint32_t(0) << LINK_bits) [static, private] |
Definition at line 90 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::LINK_shift = ROC_shift + ROC_bits [static, private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
Definition at line 59 of file SiPixelRawDataErrorModule.h.
Definition at line 80 of file SiPixelRawDataErrorModule.h.
Definition at line 71 of file SiPixelRawDataErrorModule.h.
Definition at line 64 of file SiPixelRawDataErrorModule.h.
Definition at line 85 of file SiPixelRawDataErrorModule.h.
Definition at line 76 of file SiPixelRawDataErrorModule.h.
Definition at line 65 of file SiPixelRawDataErrorModule.h.
Definition at line 86 of file SiPixelRawDataErrorModule.h.
Definition at line 77 of file SiPixelRawDataErrorModule.h.
MonitorElement* SiPixelRawDataErrorModule::meFedChLErrArray_[37] [private] |
Definition at line 67 of file SiPixelRawDataErrorModule.h.
MonitorElement* SiPixelRawDataErrorModule::meFedChNErrArray_[37] [private] |
Definition at line 66 of file SiPixelRawDataErrorModule.h.
MonitorElement* SiPixelRawDataErrorModule::meFedETypeNErrArray_[21] [private] |
Definition at line 68 of file SiPixelRawDataErrorModule.h.
Definition at line 61 of file SiPixelRawDataErrorModule.h.
Definition at line 82 of file SiPixelRawDataErrorModule.h.
Definition at line 73 of file SiPixelRawDataErrorModule.h.
Definition at line 60 of file SiPixelRawDataErrorModule.h.
Definition at line 81 of file SiPixelRawDataErrorModule.h.
Definition at line 72 of file SiPixelRawDataErrorModule.h.
Definition at line 62 of file SiPixelRawDataErrorModule.h.
Definition at line 83 of file SiPixelRawDataErrorModule.h.
Definition at line 74 of file SiPixelRawDataErrorModule.h.
Definition at line 63 of file SiPixelRawDataErrorModule.h.
Definition at line 84 of file SiPixelRawDataErrorModule.h.
Definition at line 75 of file SiPixelRawDataErrorModule.h.
int SiPixelRawDataErrorModule::ncols_ [private] |
Definition at line 54 of file SiPixelRawDataErrorModule.h.
int SiPixelRawDataErrorModule::nrows_ [private] |
Definition at line 55 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::PXID_bits = 8 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const uint32_t SiPixelRawDataErrorModule::PXID_mask = ~(~uint32_t(0) << PXID_bits) [private] |
Definition at line 90 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::PXID_shift = ADC_shift + ADC_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::ROC_bits = 5 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const uint32_t SiPixelRawDataErrorModule::ROC_mask = ~(~uint32_t(0) << ROC_bits) [private] |
Definition at line 90 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::ROC_shift = DCOL_shift + DCOL_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::TRLRBGN_bits = 32 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const long long SiPixelRawDataErrorModule::TRLRBGN_mask = ~(~(long long)(0) << TRLRBGN_bits) [static, private] |
Definition at line 91 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::TRLRBGN_shift = 0 [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::TRLREND_bits = 8 [private] |
Definition at line 88 of file SiPixelRawDataErrorModule.h.
const long long SiPixelRawDataErrorModule::TRLREND_mask = ~(~(long long)(0) << TRLREND_bits) [private] |
Definition at line 91 of file SiPixelRawDataErrorModule.h.
const int SiPixelRawDataErrorModule::TRLREND_shift = EVTLGT_shift + EVTLGT_bits [private] |
Definition at line 89 of file SiPixelRawDataErrorModule.h.