DTTFFEDSim Class Reference

#include <DTTFFEDSim.h>

Inheritance diagram for DTTFFEDSim:

Public Member Functions
	DTTFFEDSim (const edm::ParameterSet &pset)
	Constructor. More...
bool	fillRawData (edm::Event &e, FEDRawDataCollection &data)
	Generate and fill FED raw data for a full event. More...
void	produce (edm::Event &e, const edm::EventSetup &c)
	Produce digis out of raw data. More...
virtual	~DTTFFEDSim ()
	Destructor. More...
Public Member Functions inherited from edm::EDProducer
	EDProducer ()
virtual	~EDProducer ()
Public Member Functions inherited from edm::ProducerBase
	ProducerBase ()
void	registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
boost::function< void(const BranchDescription &)>	registrationCallback () const
	used by the fwk to register list of products More...
virtual	~ProducerBase ()

Private Member Functions
int	bxNr (int channel)
void	calcCRC (int myD1, int myD2, int &myC)
int	channel (int wheel, int sector, int bx)
edm::InputTag	getDTDigiInputTag ()
edm::InputTag	getDTPHTFInputTag ()
int	sector (int channel)
int	wheel (int channel)

Private Attributes
edm::InputTag	DTDigiInputTag
edm::InputTag	DTPHTFInputTag
unsigned int	eventNum

Additional Inherited Members
Public Types inherited from edm::EDProducer
typedef EDProducer	ModuleType
typedef WorkerT< EDProducer >	WorkerType
Public Types inherited from edm::ProducerBase
typedef ProductRegistryHelper::TypeLabelList	TypeLabelList
Static Public Member Functions inherited from edm::EDProducer
static const std::string &	baseType ()
static void	fillDescriptions (ConfigurationDescriptions &descriptions)
static void	prevalidate (ConfigurationDescriptions &descriptions)
Protected Member Functions inherited from edm::EDProducer
CurrentProcessingContext const *	currentContext () const
Protected Member Functions inherited from edm::ProducerBase
template<class TProducer , class TMethod >
void	callWhenNewProductsRegistered (TProducer *iProd, TMethod iMethod)

Detailed Description

L1 DT Track Finder Digi-to-Raw

Date:

2010/02/11 00:11:39

Revision:

1.5

J. Troconiz UAM Madrid

Definition at line 26 of file DTTFFEDSim.h.

Constructor & Destructor Documentation

DTTFFEDSim::DTTFFEDSim

(

const edm::ParameterSet &

pset

)

Constructor.

Definition at line 30 of file DTTFFEDSim.cc.

References DTDigiInputTag, DTPHTFInputTag, and edm::ParameterSet::getParameter().

                                                  : eventNum(0) {

  produces<FEDRawDataCollection>();

  DTDigiInputTag = pset.getParameter<edm::InputTag>("DTDigi_Source");
  DTPHTFInputTag = pset.getParameter<edm::InputTag>("DTTracks_Source");

}

DTTFFEDSim::~DTTFFEDSim ( )

virtual

Destructor.

Definition at line 39 of file DTTFFEDSim.cc.

{}

Member Function Documentation

int DTTFFEDSim::bxNr ( int  channel )

private

Definition at line 292 of file DTTFFEDSim.cc.

References channel().

                                 {

  int myChannel = channel;

  if (myChannel > 127) myChannel -= 2;

  if (myChannel < 0 || myChannel > 251 ){ return -999; }

  int myBx = 1-(myChannel%3);

  return myBx;
}

void DTTFFEDSim::calcCRC ( int  myD1, int  myD2, int &  myC  )

private

Definition at line 329 of file DTTFFEDSim.cc.

References funct::C, and i.

Referenced by fillRawData().

                                                    {

  int myCRC[16],D[64],C[16];

  for( int i=0; i < 32; i++ ){ D[i]=(myD2>>i)&0x1; }
  for( int i=0; i < 32; i++ ){ D[i+32]=(myD1>>i)&0x1; }
  for( int i=0; i < 16; i++ ){ C[i]=(myC>>i)&0x1; }

  myCRC[0] = ( D[63] + D[62] + D[61] + D[60] + D[55] + D[54] +
               D[53] + D[52] + D[51] + D[50] + D[49] + D[48] +
               D[47] + D[46] + D[45] + D[43] + D[41] + D[40] +
               D[39] + D[38] + D[37] + D[36] + D[35] + D[34] +
               D[33] + D[32] + D[31] + D[30] + D[27] + D[26] +
               D[25] + D[24] + D[23] + D[22] + D[21] + D[20] +
               D[19] + D[18] + D[17] + D[16] + D[15] + D[13] +
               D[12] + D[11] + D[10] + D[9]  + D[8]  + D[7]  +
               D[6]  + D[5]  + D[4]  + D[3]  + D[2]  + D[1]  +
               D[0]  + C[0]  + C[1]  + C[2]  + C[3]  + C[4]  +
               C[5]  + C[6]  + C[7]  + C[12] + C[13] + C[14] +
               C[15] )%2;

  myCRC[1] = ( D[63] + D[62] + D[61] + D[56] + D[55] + D[54] +
               D[53] + D[52] + D[51] + D[50] + D[49] + D[48] +
               D[47] + D[46] + D[44] + D[42] + D[41] + D[40] +
               D[39] + D[38] + D[37] + D[36] + D[35] + D[34] +
               D[33] + D[32] + D[31] + D[28] + D[27] + D[26] +
           D[25] + D[24] + D[23] + D[22] + D[21] + D[20] +
           D[19] + D[18] + D[17] + D[16] + D[14] + D[13] +
           D[12] + D[11] + D[10] + D[9]  + D[8]  + D[7]  +
           D[6]  + D[5]  + D[4]  + D[3]  + D[2]  + D[1]  +
           C[0]  + C[1]  + C[2]  + C[3]  + C[4]  + C[5]  +
           C[6]  + C[7]  + C[8]  + C[13] + C[14] + C[15] )%2;

  myCRC[2] = ( D[61] + D[60] + D[57] + D[56] + D[46] + D[42] +
           D[31] + D[30] + D[29] + D[28] + D[16] + D[14] +
           D[1]  + D[0]  + C[8]  + C[9]  + C[12] + C[13] )%2;

  myCRC[3] = ( D[62] + D[61] + D[58] + D[57] + D[47] + D[43] +
           D[32] + D[31] + D[30] + D[29] + D[17] + D[15] +
           D[2]  + D[1]  + C[9]  + C[10] + C[13] + C[14] )%2;

  myCRC[4] = ( D[63] + D[62] + D[59] + D[58] + D[48] + D[44] +
           D[33] + D[32] + D[31] + D[30] + D[18] + D[16] + 
           D[3]  + D[2]  + C[0]  + C[10] + C[11] + C[14] +
           C[15] )%2;

  myCRC[5] = ( D[63] + D[60] + D[59] + D[49] + D[45] + D[34] +
           D[33] + D[32] + D[31] + D[19] + D[17] + D[4]  +
           D[3]  + C[1]  + C[11] + C[12] + C[15] )%2;

  myCRC[6] = ( D[61] + D[60] + D[50] + D[46] + D[35] + D[34] +
           D[33] + D[32] + D[20] + D[18] + D[5]  + D[4]  +
           C[2]  + C[12] + C[13] )%2;

  myCRC[7] = ( D[62] + D[61] + D[51] + D[47] + D[36] + D[35] +
           D[34] + D[33] + D[21] + D[19] + D[6]  + D[5]  +
           C[3]  + C[13] + C[14] )%2;

  myCRC[8] = ( D[63] + D[62] + D[52] + D[48] + D[37] + D[36] +
           D[35] + D[34] + D[22] + D[20] + D[7]  + D[6]  +
           C[0]  + C[4]  + C[14] + C[15] )%2;

  myCRC[9] = ( D[63] + D[53] + D[49] + D[38] + D[37] + D[36] +
           D[35] + D[23] + D[21] + D[8]  + D[7]  + C[1]  +
           C[5]  + C[15] )%2;

  myCRC[10] = ( D[54] + D[50] + D[39] + D[38] + D[37] + D[36] + 
        D[24] + D[22] + D[9]  + D[8]  + C[2]  + C[6] )%2;

  myCRC[11] = ( D[55] + D[51] + D[40] + D[39] + D[38] + D[37] +
        D[25] + D[23] + D[10] + D[9]  + C[3]  + C[7] )%2;

  myCRC[12] = ( D[56] + D[52] + D[41] + D[40] + D[39] + D[38] +
        D[26] + D[24] + D[11] + D[10] + C[4]  + C[8] )%2;

  myCRC[13] = ( D[57] + D[53] + D[42] + D[41] + D[40] + D[39] +
        D[27] + D[25] + D[12] + D[11] + C[5]  + C[9] )%2;

  myCRC[14] = ( D[58] + D[54] + D[43] + D[42] + D[41] + D[40] +
        D[28] + D[26] + D[13] + D[12] + C[6]  + C[10] )%2;

  myCRC[15] = ( D[63] + D[62] + D[61] + D[60] + D[59] + D[54] +
        D[53] + D[52] + D[51] + D[50] + D[49] + D[48] + 
        D[47] + D[46] + D[45] + D[44] + D[42] + D[40] +
        D[39] + D[38] + D[37] + D[36] + D[35] + D[34] + 
        D[33] + D[32] + D[31] + D[30] + D[29] + D[26] +
        D[25] + D[24] + D[23] + D[22] + D[21] + D[20] + 
        D[19] + D[18] + D[17] + D[16] + D[15] + D[14] +
        D[12] + D[11] + D[10] + D[9]  + D[8]  + D[7]  + 
        D[6]  + D[5]  + D[4]  + D[3]  + D[2]  + D[1]  +
        D[0]  + C[0]  + C[1]  + C[2]  + C[3]  + C[4]  + 
        C[5]  + C[6]  + C[11] + C[12] + C[13] + C[14] +
        C[15] )%2;

  int tempC = 0x0;  
  for(int i=0; i<16 ; i++){ tempC = tempC + (myCRC[i]<<i); }
  myC = tempC ;
  return;
}

int DTTFFEDSim::channel ( int  wheel, int  sector, int  bx  )

private

Definition at line 272 of file DTTFFEDSim.cc.

References abs.

Referenced by bxNr(), fillRawData(), sector(), and wheel().

                                                       {

  // wheel  :  -3 -2 -1 +1 +2 +3 <=> PHTF's : N2, N1, N0, P0, P1, P2
  //                           0 <=> ETTF  
  // sector :  0 -> 11
  // bx     : -1 -> +1

  int myChannel = 255;

  if ( abs(bx) > 1)               { return myChannel; }
  if ( sector < 0 || sector > 11) { return myChannel; }
  if ( abs(wheel) > 3)            { return myChannel; }

  myChannel = sector*21 + wheel*3 - bx + 10 ; 

  if (myChannel > 125) myChannel += 2;

  return myChannel;
}

bool DTTFFEDSim::fillRawData	(	edm::Event &	e,
		FEDRawDataCollection &	data
	)

Generate and fill FED raw data for a full event.

Definition at line 53 of file DTTFFEDSim.cc.

References calcCRC(), channel(), FEDRawData::data(), edm::EventID::event(), eventNum, FEDRawDataCollection::FEDData(), edm::Event::getByLabel(), getDTDigiInputTag(), getDTPHTFInputTag(), edm::EventBase::id(), groupFilesInBlocks::lines, and FEDRawData::resize().

Referenced by produce().

                                                         {

  eventNum = e.id().event();

  int lines = 2;

  edm::Handle<L1MuDTChambPhContainer> phtrig;
  e.getByLabel(getDTDigiInputTag(),phtrig);
  lines += phtrig->bxSize(-1, 1);

  edm::Handle<L1MuDTChambThContainer> thtrig;
  e.getByLabel(getDTDigiInputTag(),thtrig);
  lines += thtrig->bxSize(-1, 1);

  edm::Handle<L1MuDTTrackContainer>   trtrig;
  e.getByLabel(getDTPHTFInputTag(),trtrig);
  lines += trtrig->bxSize(-1, 1)*3;

  FEDRawData& dttfdata = data.FEDData(0x30C);
  dttfdata.resize(lines*8); // size in bytes
  unsigned char* LineFED=dttfdata.data();

  int* dataWord1 = new int;
  int* dataWord2 = new int;

  //--> Header

  *dataWord1 = 0x50000000
             + (eventNum&0xFFFFFF);
  *dataWord2 = 0x00030C00;

  int newCRC =  0xFFFF;
  calcCRC(*dataWord1, *dataWord2, newCRC);
  *((int*)LineFED)=*dataWord2; 
  LineFED+=4;
  *((int*)LineFED)=*dataWord1; 

  //--> DTTF data 

  int TS1Id[4], TS2Id[4];   // word identifier for TS #1,#2 for stations 
  TS1Id[0] = 0x0E;      
  TS2Id[0] = 0x1E;
  TS1Id[1] = 0x2E;
  TS2Id[1] = 0x3E;
  TS1Id[3] = 0x4E;
  TS2Id[3] = 0x5E;
  TS1Id[2] = 0x8FFF8;
  TS2Id[2] = 0x9FFF8;

  //Input
  L1MuDTChambPhContainer::Phi_iterator tsphi;

  for ( tsphi =  phtrig->getContainer()->begin();
        tsphi != phtrig->getContainer()->end();
        tsphi++ ) {
    if ( tsphi->code() != 7 ) {

      int wheelID   = tsphi->whNum()+1;
      if ( wheelID <= 0 ) wheelID -= 2;
      int stationID = tsphi->stNum()-1;
      int is2nd     = tsphi->Ts2Tag();

      int channelNr = channel(wheelID, tsphi->scNum(), tsphi->bxNum()-is2nd);
      if ( channelNr == 255 ) continue;
      int TSId = ( is2nd == 0 ) ? TS1Id[stationID] : TS2Id[stationID];

      *dataWord1 = ((channelNr&0xFF)<<24)
                 + 0x00FFFFFF;

      if ( stationID != 2 ){
        *dataWord2 = (             (TSId&0x0FF)<<24)
               + (~(tsphi->code()+1)&0x007)
               + (   (~tsphi->phiB()&0x3FF)<<3) 
               + (    (~tsphi->phi()&0xFFF)<<13);
      }
      else {
        *dataWord2 = (             (TSId&0xFFFFF)<<12) 
               + (~(tsphi->code()+1)&0x00007)
               + (    (~tsphi->phi()&0x00FFF)<<3);
      }

      calcCRC(*dataWord1, *dataWord2, newCRC);
      LineFED+=4;
      *((int*)LineFED)=*dataWord2; 
      LineFED+=4;
      *((int*)LineFED)=*dataWord1; 
    }
  }
  //Input

  //Input
  L1MuDTChambThContainer::The_iterator tsthe;

  for ( tsthe =  thtrig->getContainer()->begin();
        tsthe != thtrig->getContainer()->end();
        tsthe++ ) {

    int wheelTh  = tsthe->whNum();
    int sectorID = tsthe->scNum();

    int channelNr = channel(0, sectorID, tsthe->bxNum());
    if ( channelNr == 255 ) continue;
    int TSId = wheelTh+2;

    *dataWord1 = ((channelNr&0xFF)<<24)
               + 0x00FFFFFF;

    *dataWord2 = ((TSId&0x07)<<28)
               + 0x0FFFFFFF;

    int stationID = tsthe->stNum()-1;
    for ( int bti = 0; bti < 7; bti++ )
      if ( wheelTh == -2 || wheelTh == -1 || 
       ( wheelTh == 0 && (sectorID == 0 || sectorID == 3 || sectorID == 4 || sectorID == 7 || sectorID == 8 || sectorID == 11) ) )
    *dataWord2 -= (tsthe->position(bti)&0x1)<<(stationID*7+bti);
      else
    *dataWord2 -= (tsthe->position(6-bti)&0x1)<<(stationID*7+bti);

    calcCRC(*dataWord1, *dataWord2, newCRC);
    LineFED+=4;
    *((int*)LineFED)=*dataWord2; 
    LineFED+=4;
    *((int*)LineFED)=*dataWord1; 
  }
  //Input

  //Output
  L1MuDTTrackContainer::Trackiterator tstrk;

  for ( tstrk =  trtrig->getContainer()->begin();
        tstrk != trtrig->getContainer()->end();
        tstrk++ ) {

    int channelNr = channel(tstrk->whNum(), tstrk->scNum(), tstrk->bx());
    if ( channelNr == 255 ) continue;
    int TSId = ( tstrk->TrkTag() == 0 ) ? 0xAFFF : 0xBFFF;

    *dataWord1 = ((channelNr&0xFF)<<24)
               + 0x00FFFFFF;

    *dataWord2 = (           (TSId&0xFFFF)<<16)
           + ( tstrk->stNum(4)&0x0000F)
               + ((tstrk->stNum(3)&0x0000F)<<4)
               + ((tstrk->stNum(2)&0x0000F)<<8)
           + ((tstrk->stNum(1)&0x00003)<<12);

    calcCRC(*dataWord1, *dataWord2, newCRC);
    LineFED+=4;
    *((int*)LineFED)=*dataWord2; 
    LineFED+=4;
    *((int*)LineFED)=*dataWord1; 

    TSId = ( tstrk->TrkTag() == 0 ) ? 0xCFFE : 0xDFFE;

    *dataWord1 = ((channelNr&0xFF)<<24)
               + 0x00FFFFFF;

    *dataWord2 = (                    (TSId&0xFFFE)<<16)
           + ( ~tstrk->quality_packed()&0x0007)
               + (     (tstrk->phi_packed()&0x00FF)<<3)
               + ( (~tstrk->charge_packed()&0x0001)<<11)
           + (     (~tstrk->pt_packed()&0x001F)<<12);

    calcCRC(*dataWord1, *dataWord2, newCRC);
    LineFED+=4;
    *((int*)LineFED)=*dataWord2; 
    LineFED+=4;
    *((int*)LineFED)=*dataWord1; 

    channelNr = channel(0, tstrk->scNum(), tstrk->bx());
    if ( channelNr == 255 ) continue;
    TSId = (tstrk->whNum()+3)<<16;
    TSId += ( tstrk->whNum() < 0 ) ? 0x8FFFC : 0x7FFFC;

    *dataWord1 = ((channelNr&0xFF)<<24)
               + 0x00FFFFFF;

    *dataWord2 = (TSId&0xFFFFC)<<12;

    if ( tstrk->TrkTag() == 0 ) {
      *dataWord2 +=                            0x3F80
                 + (       tstrk->eta_packed()&0x003F)
                 + ((~tstrk->finehalo_packed()&0x0001)<<6);
    }
    else {
      *dataWord2 +=                            0x007F
                 + (     ( tstrk->eta_packed()&0x003F)<<7)
                 + ((~tstrk->finehalo_packed()&0x0001)<<13);
    }

    calcCRC(*dataWord1, *dataWord2, newCRC);
    LineFED+=4;
    *((int*)LineFED)=*dataWord2; 
    LineFED+=4;
    *((int*)LineFED)=*dataWord1; 
  }
  //Output

  //--> Trailer

  *dataWord1 = 0xA0000000
             + (lines&0xFFFFFF);
  *dataWord2 = 0;

  calcCRC(*dataWord1, *dataWord2&0xFFFF, newCRC);

  *dataWord2 += (newCRC&0xFFFF)<<16;

  LineFED+=4;
  *((int*)LineFED)=*dataWord2; 
  LineFED+=4;
  *((int*)LineFED)=*dataWord1; 

  delete dataWord1;
  delete dataWord2;
  return true;
}

edm::InputTag DTTFFEDSim::getDTDigiInputTag ( )

inlineprivate

Definition at line 61 of file DTTFFEDSim.h.

References DTDigiInputTag.

Referenced by fillRawData().

{ return DTDigiInputTag; }

edm::InputTag DTTFFEDSim::getDTPHTFInputTag ( )

inlineprivate

Definition at line 62 of file DTTFFEDSim.h.

References DTPHTFInputTag.

Referenced by fillRawData().

{ return DTPHTFInputTag; }

void DTTFFEDSim::produce ( edm::Event &  e, const edm::EventSetup &  c  )

virtual

Produce digis out of raw data.

Implements edm::EDProducer.

Definition at line 41 of file DTTFFEDSim.cc.

References data, fillRawData(), and edm::Event::put().

Referenced by JSONExport.JsonExport::export(), HTMLExport.HTMLExport::export(), and HTMLExport.HTMLExportStatic::export().

                                                            {

  FEDRawDataCollection data;

  if (!fillRawData(e, data)) return;

  auto_ptr<FEDRawDataCollection> fed_product(new FEDRawDataCollection(data));

  e.put(fed_product);

}

int DTTFFEDSim::sector ( int  channel )

private

Definition at line 305 of file DTTFFEDSim.cc.

References channel().

Referenced by geometryXMLparser.DTAlignable::index().

                                   {

  int myChannel = channel;

  if (myChannel > 127) myChannel -= 2;

  if (myChannel < 0 || myChannel > 251 ){ return -999; }

  return myChannel/21;
}

int DTTFFEDSim::wheel ( int  channel )

private

Definition at line 316 of file DTTFFEDSim.cc.

References channel().

Referenced by geometryXMLparser.DTAlignable::index().

                                  {

  int myChannel = channel;

  if (myChannel > 127) myChannel -= 2;

  if (myChannel < 0 || myChannel > 251 ){ return -999; }

  int myWheel = ((myChannel%21)/3)-3;

  return myWheel;
}

Member Data Documentation

edm::InputTag DTTFFEDSim::DTDigiInputTag

private

Definition at line 47 of file DTTFFEDSim.h.

Referenced by DTTFFEDSim(), and getDTDigiInputTag().

edm::InputTag DTTFFEDSim::DTPHTFInputTag

private

Definition at line 48 of file DTTFFEDSim.h.

Referenced by DTTFFEDSim(), and getDTPHTFInputTag().

unsigned int DTTFFEDSim::eventNum

private

Definition at line 45 of file DTTFFEDSim.h.

Referenced by fillRawData().