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Public Member Functions | Protected Member Functions | Protected Attributes

DCCMemBlock Class Reference

#include <DCCMemBlock.h>

Inheritance diagram for DCCMemBlock:
DCCDataBlockPrototype

List of all members.

Public Member Functions

 DCCMemBlock (DCCDataUnpacker *u, EcalElectronicsMapper *m, DCCEventBlock *e)
void display (std::ostream &o)
int unpack (uint64_t **data, unsigned int *dwToEnd, unsigned int expectedTowerID)
void updateCollectors ()
virtual ~DCCMemBlock ()

Protected Member Functions

void fillPnDiodeDigisCollection ()
void unpackMemTowerData ()

Protected Attributes

unsigned int bx_
unsigned int expTowerID_
unsigned int expXtalTSamples_
std::auto_ptr
< EcalElectronicsIdCollection > * 
invalidMemBlockSizes_
std::auto_ptr
< EcalElectronicsIdCollection > * 
invalidMemChIds_
std::auto_ptr
< EcalElectronicsIdCollection > * 
invalidMemGains_
std::auto_ptr
< EcalElectronicsIdCollection > * 
invalidMemTtIds_
unsigned int kSamplesPerPn_
unsigned int l1_
unsigned int lastStripId_
unsigned int lastTowerBeforeMem_
unsigned int lastXtalId_
unsigned int nTSamples_
unsigned int numbDWInXtalBlock_
std::vector< short > pn_
std::auto_ptr
< EcalPnDiodeDigiCollection > * 
pnDiodeDigis_
unsigned int towerId_
unsigned int unfilteredTowerBlockLength_
unsigned int xtalBlockSize_

Detailed Description

Definition at line 36 of file DCCMemBlock.h.


Constructor & Destructor Documentation

DCCMemBlock::DCCMemBlock ( DCCDataUnpacker u,
EcalElectronicsMapper m,
DCCEventBlock e 
)

Definition at line 9 of file DCCMemBlock.cc.

References expXtalTSamples_, EcalElectronicsMapper::getUnfilteredTowerBlockLength(), i, kSamplesPerPn_, DCCDataBlockPrototype::mapper_, numbDWInXtalBlock_, EcalElectronicsMapper::numbXtalTSamples(), pn_, unfilteredTowerBlockLength_, and xtalBlockSize_.

:DCCDataBlockPrototype(u,m,e)
{

  unfilteredTowerBlockLength_  = mapper_->getUnfilteredTowerBlockLength();
  expXtalTSamples_             = mapper_->numbXtalTSamples();

  numbDWInXtalBlock_           = (expXtalTSamples_-2)/4+1;
  xtalBlockSize_               = numbDWInXtalBlock_*8;
  kSamplesPerPn_               = expXtalTSamples_*5;  
  
  unsigned int numbOfXtalBlocks        = (unfilteredTowerBlockLength_-1)/numbDWInXtalBlock_; 
  unsigned int numbOfPnBlocks          = numbOfXtalBlocks/5; //change 5 by a variable
  unsigned int vectorSize              = numbOfPnBlocks*10*expXtalTSamples_;

  //Build pnDiodevector
  for(unsigned int i =0; i< vectorSize; i++){ pn_.push_back(-1);}

}
virtual DCCMemBlock::~DCCMemBlock ( ) [inline, virtual]

Definition at line 42 of file DCCMemBlock.h.

{}

Member Function Documentation

void DCCMemBlock::display ( std::ostream &  o) [virtual]

Reimplemented from DCCDataBlockPrototype.

Definition at line 348 of file DCCMemBlock.cc.

References DCCDataBlockPrototype::blockLength_, bx_, l1_, nTSamples_, and towerId_.

                                      {

  o<<"\n Unpacked Info for DCC MEM Block"
  <<"\n DW1 ============================="
  <<"\n Mem Tower Block Id "<<towerId_
  <<"\n Numb Samp "<<nTSamples_
  <<"\n Bx "<<bx_
  <<"\n L1 "<<l1_
  <<"\n blockLength "<<blockLength_;  
} 
void DCCMemBlock::fillPnDiodeDigisCollection ( ) [protected]

Definition at line 286 of file DCCMemBlock.cc.

References EcalBarrel, EcalEndcap, EcalElectronicsMapper::getActiveSM(), kSamplesPerPn_, lastTowerBeforeMem_, DCCDataBlockPrototype::mapper_, NUMB_SM_EB_MIN_MIN, NUMB_SM_EB_PLU_MAX, NUMB_SM_EE_MIN_MAX, NUMB_SM_EE_MIN_MIN, NUMB_SM_EE_PLU_MAX, NUMB_SM_EE_PLU_MIN, pn_, EcalPnDiodeDigi::setSample(), EcalPnDiodeDigi::setSize(), DCCDataUnpacker::silentMode_, and towerId_.

Referenced by unpack().

                                            {
 
  //todo change pnId max
  for (int pnId=1; pnId<=5; pnId++){
    bool errorOnPn(false);
    unsigned int realPnId = pnId;
    
    if(towerId_==70){ realPnId += 5;}
         
    // Note : we are assuming always 5 VFE channels enabled 
    // This means we all have 5 pns per tower 

    // solution before sending creation of PnDigi's in mapper as done with crystals
    //     mapper_->getActiveSM()  : this is the 'dccid'
    //     number ranging internally in ECAL from 1 to 54, according convention specified here:
    //     https://indico.cern.ch/getFile.py/access?contribId=0&resId=0&materialId=slides&confId=11621

    //     mapper_->getActiveDCC() : this is the FED_id (601 - 654 for ECAL at CMS)

    const int activeSM = mapper_->getActiveSM();
    int subdet(0);
    if (NUMB_SM_EB_MIN_MIN <= activeSM && activeSM <= NUMB_SM_EB_PLU_MAX) {
      subdet = EcalBarrel;
    }
    else if( (NUMB_SM_EE_MIN_MIN <= activeSM && activeSM <= NUMB_SM_EE_MIN_MAX) ||
            (NUMB_SM_EE_PLU_MIN <= activeSM && activeSM <= NUMB_SM_EE_PLU_MAX) ) {
      subdet = EcalEndcap;
    }
    else {
      if( ! DCCDataUnpacker::silentMode_ ){
        edm::LogWarning("IncorrectMapping")
          <<"\n mapper points to non existing dccid: " << activeSM;
      }
    }


    EcalPnDiodeDetId PnId(subdet, activeSM, realPnId );
    
    EcalPnDiodeDigi thePnDigi(PnId );
    thePnDigi.setSize(kSamplesPerPn_);
    
    
    for (unsigned int ts =0; ts <kSamplesPerPn_; ts++){
      
      short pnDiodeData = pn_[(towerId_-lastTowerBeforeMem_)*250 + (pnId-1)*kSamplesPerPn_ + ts];
      if( pnDiodeData == -1){
        errorOnPn=true;
             break;
      }
         
      EcalFEMSample thePnSample(pnDiodeData );
      thePnDigi.setSample(ts, thePnSample );  
    }
    
    if(!errorOnPn){ (*pnDiodeDigis_)->push_back(thePnDigi);}
  
  }
  
} 
int DCCMemBlock::unpack ( uint64_t **  data,
unsigned int *  dwToEnd,
unsigned int  expectedTowerID 
)

Definition at line 41 of file DCCMemBlock.cc.

References BLOCK_UNPACKED, DCCDataBlockPrototype::blockLength_, DCCEventBlock::bx(), bx_, AlCaHLTBitMon_QueryRunRegistry::data, DCCDataBlockPrototype::data_, DCCDataBlockPrototype::datap_, DCCDataBlockPrototype::dwToEnd_, DCCDataBlockPrototype::error_, DCCDataBlockPrototype::event_, expTowerID_, expXtalTSamples_, FE_MEM, fillPnDiodeDigisCollection(), DCCEventBlock::fov(), EcalElectronicsMapper::getActiveDCC(), EcalElectronicsMapper::getActiveSM(), H_FOV_MASK, isSynced(), l1_, DCCEventBlock::l1A(), lastStripId_, lastXtalId_, DCCDataBlockPrototype::mapper_, nTSamples_, DCCEventBlock::setFESyncNumbers(), DCCDataUnpacker::silentMode_, SKIP_BLOCK_UNPACKING, STOP_EVENT_UNPACKING, DCCDataBlockPrototype::sync_, TOWER_BX_B, TOWER_BX_MASK, TOWER_ID_MASK, TOWER_L1_B, TOWER_L1_MASK, TOWER_LENGTH_B, TOWER_LENGTH_MASK, TOWER_NSAMP_B, TOWER_NSAMP_MASK, towerId_, unfilteredTowerBlockLength_, unpackMemTowerData(), and DCCDataBlockPrototype::updateEventPointers().

Referenced by DCCEBEventBlock::unpack(), and DCCEEEventBlock::unpack().

                                                                                             {
  
  error_   = false;  
  datap_   = data;
  data_    = *data;
  dwToEnd_ = dwToEnd;

 
  if( (*dwToEnd_)<1){
    if( ! DCCDataUnpacker::silentMode_ ){
      edm::LogWarning("IncorrectEvent")
        <<"\nUnable to unpack MEM block for event "<<event_->l1A()<<" in fed "<<mapper_->getActiveDCC()
        <<"\nThe end of event was reached !";
    }
    return STOP_EVENT_UNPACKING;
  }
  
  lastStripId_     = 0;
  lastXtalId_      = 0;
  expTowerID_      = expectedTowerID;
  
  
  //Point to begin of block
  data_++;
  
  towerId_           = ( *data_ ) & TOWER_ID_MASK;
  nTSamples_         = ( *data_>>TOWER_NSAMP_B  ) & TOWER_NSAMP_MASK; 
  bx_                = ( *data_>>TOWER_BX_B     ) & TOWER_BX_MASK;
  l1_                = ( *data_>>TOWER_L1_B     ) & TOWER_L1_MASK;
  blockLength_       = ( *data_>>TOWER_LENGTH_B ) & TOWER_LENGTH_MASK;
 
  event_->setFESyncNumbers(l1_,bx_,short(expectedTowerID-1));

 
  //debugging
  //display(cout);

  // Block Length Check (1)
  if ( unfilteredTowerBlockLength_ != blockLength_ ){    
   
    // chosing channel 1 as representative of a dummy...
    EcalElectronicsId id( mapper_->getActiveSM() , expTowerID_,1, 1);
    (*invalidMemBlockSizes_)->push_back(id);
    if( ! DCCDataUnpacker::silentMode_ ){ 
      edm::LogWarning("IncorrectEvent")
        <<"\nFor event "<<event_->l1A()<<", fed "<<mapper_->getActiveDCC()<<" and tower block "<<towerId_
        <<"\nExpected mem block size is "<<(unfilteredTowerBlockLength_*8)<<" bytes while "<<(blockLength_*8)<<" was found";
    }
    return STOP_EVENT_UNPACKING;
    
  }
  
  // Block Length Check (2)
  if((*dwToEnd_)<blockLength_){
    if( ! DCCDataUnpacker::silentMode_ ){
      edm::LogWarning("IncorrectEvent")
        <<"\nUnable to unpack MEM block for event "<<event_->l1A()<<" in fed "<<mapper_->getActiveDCC()
        <<"\n Only "<<((*dwToEnd_)*8)<<" bytes are available while "<<(blockLength_*8)<<" are needed!";
      // chosing channel 1 as representative of a dummy...
    } 
    EcalElectronicsId id( mapper_->getActiveSM() , expTowerID_,1, 1);
    (*invalidMemBlockSizes_)->push_back(id);
    return STOP_EVENT_UNPACKING;
  }
  
  // Synchronization Check 
  if(sync_){
    const unsigned int dccBx = ( event_->bx()) & TOWER_BX_MASK;
    const unsigned int dccL1 = ( event_->l1A() ) & TOWER_L1_MASK;
    const unsigned int fov   = ( event_->fov() ) & H_FOV_MASK;
    
    if (! isSynced(dccBx, bx_, dccL1, l1_, FE_MEM, fov)) {
      if( ! DCCDataUnpacker::silentMode_ ){
        edm::LogWarning("IncorrectEvent")
          << "Synchronization error for Mem block"
          << " (L1A " << event_->l1A() << " bx " << event_->bx() << " fed " << mapper_->getActiveDCC() << ")\n"
          << "  dccBx = " << dccBx << " bx_ = " << bx_ << " dccL1 = " << dccL1 << " l1_ = " << l1_ << "\n"
          << "  => Stop event unpacking";
      }
      //Note : add to error collection ?
      // need of a new collection
      return STOP_EVENT_UNPACKING;
    }
  }  
  
  // Number Of Samples Check
  if( nTSamples_ != expXtalTSamples_ ){
    if( ! DCCDataUnpacker::silentMode_ ){
      edm::LogWarning("IncorrectEvent")
        <<"\nUnable to unpack MEM block for event "<<event_->l1A()<<" in fed "<<mapper_->getActiveDCC()
        <<"\nNumber of time samples "<<nTSamples_<<" is not the same as expected ("<<expXtalTSamples_<<")";
     }
    //Note : add to error collection ?           
    return STOP_EVENT_UNPACKING;
  }
  
  
  //Channel Id Check
  if( expTowerID_ != towerId_){
    
    // chosing channel 1 as representative as a dummy...
    EcalElectronicsId id( mapper_->getActiveSM() , expTowerID_, 1,1);
    (*invalidMemTtIds_)->push_back(id);
    if( ! DCCDataUnpacker::silentMode_ ){
      edm::LogWarning("IncorrectBlock")
        <<"For event "<<event_->l1A()<<" and fed "<<mapper_->getActiveDCC() << " and sm: "  << mapper_->getActiveSM()
        <<"\nExpected mem tower block is "<<expTowerID_<<" while "<<towerId_<<" was found ";
     }
    
    towerId_=expTowerID_;
    
    // todo : go to the next mem
    error_= true;
        
        updateEventPointers();
        return SKIP_BLOCK_UNPACKING;
  }
   
 
  //point to xtal data
  data_++;
                               
  
  unpackMemTowerData();
  
  if(!error_){ fillPnDiodeDigisCollection();}

  updateEventPointers();
  
  return BLOCK_UNPACKED;
     
}
void DCCMemBlock::unpackMemTowerData ( ) [protected]

Definition at line 176 of file DCCMemBlock.cc.

References DCCDataBlockPrototype::data_, DCCDataBlockPrototype::error_, DCCDataBlockPrototype::event_, EcalElectronicsMapper::getActiveDCC(), EcalElectronicsMapper::getActiveSM(), i, getHLTprescales::index, DCCEventBlock::l1A(), lastTowerBeforeMem_, DCCDataBlockPrototype::mapper_, nTSamples_, numbDWInXtalBlock_, pn_, compare_using_db::sample, DCCDataUnpacker::silentMode_, groupFilesInBlocks::temp, TOWER_DIGI_MASK, TOWER_STRIPID_MASK, TOWER_XTALID_B, TOWER_XTALID_MASK, and towerId_.

Referenced by unpack().

                                    {
  
    
  //todo: move EcalPnDiodeDetId to electronics mapper


  lastTowerBeforeMem_ = 0;
  // differentiating the barrel and the endcap case
  if (9 < mapper_->getActiveSM() || mapper_->getActiveSM() < 46){
    lastTowerBeforeMem_ = 69; }
  else {
    lastTowerBeforeMem_ = 69; } 
  

  for(unsigned int expStripId = 1; expStripId<= 5; expStripId++){

    for(unsigned int expXtalId = 1; expXtalId <= 5; expXtalId++){
         
      uint16_t * xData_= reinterpret_cast<uint16_t *>(data_);
 
      // Get xtal data ids
      unsigned int stripId = (*xData_) & TOWER_STRIPID_MASK;
      unsigned int xtalId  =((*xData_)>>TOWER_XTALID_B ) & TOWER_XTALID_MASK;
   
      bool errorOnDecoding(false);
          
      if(expStripId != stripId || expXtalId != xtalId){

        // chosing channel and strip as EcalElectronicsId
        EcalElectronicsId id( mapper_->getActiveSM() , towerId_, expStripId, expXtalId);
       (*invalidMemChIds_)->push_back(id);
      
        if( ! DCCDataUnpacker::silentMode_ ){
          edm::LogWarning("IncorrectBlock")
            <<"For event "<<event_->l1A()<<", fed "<<mapper_->getActiveDCC()<<" and tower mem block "<<towerId_
            <<"\nThe expected strip is "<<expStripId<<" and "<<stripId<<" was found"
            <<"\nThe expected xtal  is "<<expXtalId <<" and "<<xtalId<<" was found";
        }

        stripId = expStripId;
        xtalId  = expXtalId;
                 


         errorOnDecoding = true; 
        
       //Note : move to the next ...   
                 
     }
         
     unsigned int ipn, index;
                
     if((stripId-1)%2==0){ ipn = (towerId_-lastTowerBeforeMem_)*5 + xtalId - 1; }
     else                { ipn = (towerId_-lastTowerBeforeMem_)*5 + 5 - xtalId; }
         
                
      //Cooking samples
      for(unsigned int i =0; i< nTSamples_ ;i++){ 
      
        xData_++;
                  
        index = ipn*50 + (stripId-1)*nTSamples_+i;
                 
            //edm::LogDebug("EcalRawToDigiMemChId")<<"\n Strip id "<<std::dec<<stripId<<" Xtal id "<<xtalId
            //  <<" tsamp = "<<i<<" 16b = 0x "<<std::hex<<(*xData_)<<dec;
           
        unsigned int temp = (*xData_)&TOWER_DIGI_MASK;
                
             short sample(0);
                
                
        if( (stripId-1)%2 ) {
             
          // If strip number is even, 14 bits are reversed in order
               for(int ib=0;ib<14;ib++){ 
                 sample <<= 1;
                 sample |= (temp&1);
                 temp  >>= 1;
               }
                        
        } else { sample=temp;}
        
             sample   ^=  0x800;
        unsigned int gain =  sample>>12;
                        
        if( gain >= 2 ){

          EcalElectronicsId id(mapper_->getActiveSM() , towerId_, stripId,xtalId);
          (*invalidMemGains_)->push_back(id);
          
           if( ! DCCDataUnpacker::silentMode_ ){
              edm::LogWarning("IncorrectBlock")
               <<"For event "<<event_->l1A()<<", fed "<<mapper_->getActiveDCC()<<" , mem tower block "<<towerId_
               <<"\nIn strip "<<stripId<<" xtal "<<xtalId<<" the gain is "<<gain<<" in sample "<<(i+1);
           }

          errorOnDecoding=true;
        }
                
        if( !errorOnDecoding && !error_){pn_[index]=sample;} //Note : move to the next versus flag...
                 
      }// loop over samples ended
        
      data_ += numbDWInXtalBlock_;
    }//loop over xtals
  }// loop over strips
         

}
void DCCMemBlock::updateCollectors ( ) [virtual]

Member Data Documentation

unsigned int DCCMemBlock::bx_ [protected]

Definition at line 71 of file DCCMemBlock.h.

Referenced by display(), and unpack().

unsigned int DCCMemBlock::expTowerID_ [protected]

Definition at line 57 of file DCCMemBlock.h.

Referenced by unpack().

unsigned int DCCMemBlock::expXtalTSamples_ [protected]

Definition at line 58 of file DCCMemBlock.h.

Referenced by DCCMemBlock(), and unpack().

Definition at line 75 of file DCCMemBlock.h.

Referenced by updateCollectors().

Definition at line 74 of file DCCMemBlock.h.

Referenced by updateCollectors().

Definition at line 77 of file DCCMemBlock.h.

Referenced by updateCollectors().

Definition at line 76 of file DCCMemBlock.h.

Referenced by updateCollectors().

unsigned int DCCMemBlock::kSamplesPerPn_ [protected]

Definition at line 59 of file DCCMemBlock.h.

Referenced by DCCMemBlock(), and fillPnDiodeDigisCollection().

unsigned int DCCMemBlock::l1_ [protected]

Definition at line 72 of file DCCMemBlock.h.

Referenced by display(), and unpack().

unsigned int DCCMemBlock::lastStripId_ [protected]

Definition at line 61 of file DCCMemBlock.h.

Referenced by unpack().

unsigned int DCCMemBlock::lastTowerBeforeMem_ [protected]

Definition at line 63 of file DCCMemBlock.h.

Referenced by fillPnDiodeDigisCollection(), and unpackMemTowerData().

unsigned int DCCMemBlock::lastXtalId_ [protected]

Definition at line 62 of file DCCMemBlock.h.

Referenced by unpack().

unsigned int DCCMemBlock::nTSamples_ [protected]

Definition at line 68 of file DCCMemBlock.h.

Referenced by display(), unpack(), and unpackMemTowerData().

unsigned int DCCMemBlock::numbDWInXtalBlock_ [protected]

Definition at line 66 of file DCCMemBlock.h.

Referenced by DCCMemBlock(), and unpackMemTowerData().

std::vector<short> DCCMemBlock::pn_ [protected]

Definition at line 55 of file DCCMemBlock.h.

Referenced by DCCMemBlock(), fillPnDiodeDigisCollection(), and unpackMemTowerData().

Definition at line 78 of file DCCMemBlock.h.

Referenced by updateCollectors().

unsigned int DCCMemBlock::towerId_ [protected]

Definition at line 65 of file DCCMemBlock.h.

Referenced by display(), fillPnDiodeDigisCollection(), unpack(), and unpackMemTowerData().

unsigned int DCCMemBlock::unfilteredTowerBlockLength_ [protected]

Definition at line 69 of file DCCMemBlock.h.

Referenced by DCCMemBlock(), and unpack().

unsigned int DCCMemBlock::xtalBlockSize_ [protected]

Definition at line 67 of file DCCMemBlock.h.

Referenced by DCCMemBlock().