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Static Public Member Functions | Static Private Attributes

CSCSectorReceiverMiniLUT Class Reference

#include <CSCSectorReceiverMiniLUT.h>

List of all members.

Static Public Member Functions

static global_eta_data calcGlobalEtaMEMini (unsigned short endcap, unsigned short sector, unsigned short station, unsigned short subsector, unsigned theadd)
static global_phi_data calcGlobalPhiMBMini (unsigned short endcap, unsigned short sector, unsigned short subsector, unsigned theadd)
static global_phi_data calcGlobalPhiMEMini (unsigned short endcap, unsigned short sector, unsigned short station, unsigned short subsector, unsigned theadd)
static lclphidat calcLocalPhiMini (unsigned theadd)

Static Private Attributes

static const unsigned short int gbl_eta_bounds [2][6][4][2][4][9][2]
static const float gbl_eta_params [2][6][4][2][4][9][3]
static const float gbl_phi_mb_params [2][6][2][9][2]
static const float gbl_phi_me_params [2][6][4][2][9][2]
static const float lcl_phi_param0 [1<< 4]
static const float lcl_phi_param1 = 6.4

Detailed Description

Author:
Brett Jackson

Provides a new way of defining the Lookup tables used by the core. Defines the lookup tables as parameterized functions in order to save on memory usage when compared to the current standard definitions of LUTs

Definition at line 15 of file CSCSectorReceiverMiniLUT.h.


Member Function Documentation

global_eta_data CSCSectorReceiverMiniLUT::calcGlobalEtaMEMini ( unsigned short  endcap,
unsigned short  sector,
unsigned short  station,
unsigned short  subsector,
unsigned  theadd 
) [static]

Definition at line 51 of file CSCSectorReceiverMiniLUT.cc.

References AlCaHLTBitMon_QueryRunRegistry::data, gbl_eta_bounds, gbl_eta_params, funct::log(), and CSCConstants::MAX_NUM_WIRES.

Referenced by CSCSectorReceiverLUT::globalEtaME().

{
  if(endcap < 1 || endcap > 2)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of endcap, " << endcap
      << ", is out of bounds, [1, 2] +++\n";
  if(sector < 1 || sector > 6)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of sector, " << sector
      << ", is out of bounds, [1, 6] +++\n";
  if(station < 1 || station > 4)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of station, " << station
      << ", is out of bounds, [1, 4] +++\n";
  
  gbletadat data(0);
  
  unsigned short int cscid  = ((theadd >> 15) & 0xf);
  unsigned short int lclPhi = ((theadd >> 6)  & 0x3);
  unsigned short int WG     = ((theadd >> 8)  & 0x7f);
  unsigned short int bend   = ((theadd)       & 0x3f);
  
  int eta_temp=999, eta_min=999, eta_max=999;
  
  if((cscid > 0) && (cscid <= 9) && (WG < CSCConstants::MAX_NUM_WIRES))
    {
      if(station == 1)
        {
          eta_temp = (gbl_eta_params[endcap-1][sector-1][station-1][subsector-1][lclPhi][cscid-1][0] + 
                      gbl_eta_params[endcap-1][sector-1][station-1][subsector-1][lclPhi][cscid-1][1] *
                      log(gbl_eta_params[endcap-1][sector-1][station-1][subsector-1][lclPhi][cscid-1][2] + WG));
          eta_min = gbl_eta_bounds[endcap-1][sector-1][station-1][subsector-1][lclPhi][cscid-1][0];
          eta_max = gbl_eta_bounds[endcap-1][sector-1][station-1][subsector-1][lclPhi][cscid-1][1];

          // add offset to ME+11a, subtract for ME-11a (wire tilt and strip direction)1
          if ( (cscid < 4)&&(lclPhi == 3) ) {
            if (endcap == 1) 
              eta_temp += 3;  
            else
              eta_temp -= 3;  
          }
        }
      else
        {
          eta_temp = (gbl_eta_params[endcap-1][sector-1][station-1][0][lclPhi][cscid-1][0] + 
                      gbl_eta_params[endcap-1][sector-1][station-1][0][lclPhi][cscid-1][1] *
                      log(gbl_eta_params[endcap-1][sector-1][station-1][0][lclPhi][cscid-1][2] + WG));
          eta_min = gbl_eta_bounds[endcap-1][sector-1][station-1][0][lclPhi][cscid-1][0];
          eta_max = gbl_eta_bounds[endcap-1][sector-1][station-1][0][lclPhi][cscid-1][1];
        }
    }
  else
    {
      edm::LogWarning("CSCSectorReceiverMiniLUT")
        << "+++ Value of cscid, " << cscid
        << ", is out of bounds, [1, 9] -- or --"
        << " Value of wire group, " << WG 
        << ", exceeds max allowed, " << CSCConstants::MAX_NUM_WIRES << " +++\n";
    }
  
  // protect from negative numbers.  If the value of eta_temp is <0, set global eta to the minimum value
  if((eta_temp >= eta_min) &&
     (eta_temp <= eta_max))
    data.global_eta = eta_temp;
  else if(eta_temp < eta_min)
    data.global_eta = eta_min;
  else
    data.global_eta = eta_max;
  
//  data.global_bend = 0;
// Just pass through lowest 5 bits of local bend (drop 1 MSB)
  data.global_bend = bend & 0x1F;
  
  return data;
}
global_phi_data CSCSectorReceiverMiniLUT::calcGlobalPhiMBMini ( unsigned short  endcap,
unsigned short  sector,
unsigned short  subsector,
unsigned  theadd 
) [static]

Definition at line 212 of file CSCSectorReceiverMiniLUT.cc.

References AlCaHLTBitMon_QueryRunRegistry::data, gbl_phi_mb_params, CSCBitWidths::kGlobalPhiDataBitWidth, and CSCBitWidths::kLocalPhiDataBitWidth.

{
  if(endcap < 1 || endcap > 2)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of endcap, " << endcap
      << ", is out of bounds, [1, 2] +++\n";
  if(sector < 1 || sector > 6)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of sector, " << sector
      << ", is out of bounds, [1, 6] +++\n";
  
  gblphidat data(0);
  
  unsigned short int maxPhiL = 1<<CSCBitWidths::kLocalPhiDataBitWidth;
  unsigned short int maxPhiG = 1<<CSCBitWidths::kGlobalPhiDataBitWidth;
  unsigned short int cscid  = ((theadd >> 15)&0xf);
  unsigned short int lclPhi = (theadd & 0x3ff);
  
  if((cscid <= 3) || (cscid >= 7)) 
    maxPhiL = maxPhiL*(64./80); // currently a hack that is in place to handle the different number of strips in ME1/1 and ME1/3
  
  if((cscid > 0) && (cscid <= 9))
    {
      if(lclPhi < maxPhiL)
        data.global_phi = (gbl_phi_mb_params[endcap-1][sector-1][subsector-1][cscid-1][0] + 
                           gbl_phi_mb_params[endcap-1][sector-1][subsector-1][cscid-1][1]*lclPhi);
      else
        data.global_phi = (gbl_phi_mb_params[endcap-1][sector-1][subsector-1][cscid-1][0] + 
                           gbl_phi_mb_params[endcap-1][sector-1][subsector-1][cscid-1][1]*(maxPhiL-1));
    }
  else
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of cscid, " << cscid
      << ", is out of bounds, [1, 9] +++\n";
  
  if(data.global_phi >= maxPhiG)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of global_phi, " << data.global_phi
      << ", exceeds max allowed, " << maxPhiG-1 << " +++\n";
  
  if(data.global_phi >= maxPhiG)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of global_phi, " << data.global_phi
      << ", exceeds max allowed, " << maxPhiG-1 << " +++\n";
  
  return data;
}
global_phi_data CSCSectorReceiverMiniLUT::calcGlobalPhiMEMini ( unsigned short  endcap,
unsigned short  sector,
unsigned short  station,
unsigned short  subsector,
unsigned  theadd 
) [static]

Definition at line 131 of file CSCSectorReceiverMiniLUT.cc.

References AlCaHLTBitMon_QueryRunRegistry::data, gbl_phi_me_params, CSCBitWidths::kGlobalPhiDataBitWidth, CSCBitWidths::kLocalPhiDataBitWidth, CSCConstants::MAX_NUM_STRIPS, and strip().

Referenced by CSCSectorReceiverLUT::globalPhiME().

{
  if(endcap < 1 || endcap > 2)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of endcap, " << endcap
      << ", is out of bounds, [1, 2] +++\n";
  if(sector < 1 || sector > 6)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of sector, " << sector
      << ", is out of bounds, [1, 6] +++\n";
  if(station < 1 || station > 4)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of station, " << station
      << ", is out of bounds, [1, 4] +++\n";
  
  gblphidat data(0);
  
  unsigned short int maxPhiL = 1<<CSCBitWidths::kLocalPhiDataBitWidth;
  unsigned short int maxPhiG = 1<<CSCBitWidths::kGlobalPhiDataBitWidth;
  unsigned short int cscid  = ((theadd >> 15)&0xf);
  unsigned short int lclPhi = (theadd & 0x3ff);

  // 12/11/09
  // GP et DA: how to identify the strip number and isolate and shift the localPhi value
  const double binPhiL = static_cast<double>(maxPhiL)/(2*CSCConstants::MAX_NUM_STRIPS);

  int strip = static_cast<int>(lclPhi/binPhiL);
  //  edm::LogWarning("GP Input") << " CSCID " << cscid << " strip:" << strip << " lclPhi: " << lclPhi << "theadd: " << theadd; 
  if (station == 1 && (cscid <= 3) && (strip >= 127 && strip < 160)){
    //edm::LogWarning("GP Input") << " -> Matched Selection Criteria";

    // in this case need to redefine lclPhi in order to
    // place local phi in the middle of the 5th CFEB
    // and not on the first third of the CFEB as default
    lclPhi = (strip-127+31)*(4*binPhiL/3);
  }
  // end GP et DA
  
  if(station == 1 && ((cscid <= 3) || (cscid >= 7))) { 
    //if ( (strip >= 127 && strip < 160) || (cscid >= 10) ) // VK: the || (cscid >= 10) for unganged ME1a
    //  maxPhiL = maxPhiL*(48./80); // GP et DA: currently a hack that is in place to handle the different number of strips in ME1/1a and ME1/3
    //else
      maxPhiL = maxPhiL*(64./80); // currently a hack that is in place to handle the different number of strips in ME1/1 and ME1/3
  }
  
  // VK: The the unganged ME1a hack
  if (station == 1 && (cscid >= 10)) {
    lclPhi = strip*(4*binPhiL/3);
    cscid = cscid - 9; // back to normal 1-9 range
  }
  // end VK

  if((cscid > 0) && (cscid <= 9))
    {
      if((station == 1) && (lclPhi < maxPhiL))
        data.global_phi = (gbl_phi_me_params[endcap-1][sector-1][station-1][subsector-1][cscid-1][0] + 
                           gbl_phi_me_params[endcap-1][sector-1][station-1][subsector-1][cscid-1][1]*lclPhi);
      else if((station == 1) && (lclPhi >= maxPhiL))
        data.global_phi = (gbl_phi_me_params[endcap-1][sector-1][station-1][subsector-1][cscid-1][0] + 
                           gbl_phi_me_params[endcap-1][sector-1][station-1][subsector-1][cscid-1][1]*(maxPhiL-1));
      else
        data.global_phi = (gbl_phi_me_params[endcap-1][sector-1][station-1][0][cscid-1][0] + 
                           gbl_phi_me_params[endcap-1][sector-1][station-1][0][cscid-1][1]*lclPhi);
    }
  else
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of cscid, " << cscid
      << ", is out of bounds, [1, 9] +++\n";
  
  if(data.global_phi >= maxPhiG)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of global_phi, " << data.global_phi
      << ", exceeds max allowed, " << maxPhiG-1 << " +++\n";
  
  return data;
}
lclphidat CSCSectorReceiverMiniLUT::calcLocalPhiMini ( unsigned  theadd) [static]

Definition at line 21 of file CSCSectorReceiverMiniLUT.cc.

References AlCaHLTBitMon_QueryRunRegistry::data, CSCBitWidths::kLocalPhiDataBitWidth, lcl_phi_param0, lcl_phi_param1, CSCConstants::MAX_NUM_STRIPS, CSCConstants::NUM_CLCT_PATTERNS, listBenchmarks::pattern, and strip().

Referenced by CSCSectorReceiverLUT::localPhi().

{
  // This method is ripped from CSCSectorReceverLUT.cc with minor changes
  
  lclphidat data;
  
  static int maxPhiL = 1<<CSCBitWidths::kLocalPhiDataBitWidth;
  unsigned short int pattern = ((theadd >> 8) & 0xf);
  unsigned short int strip   = (theadd & 0xff);
  
  if(strip < 2*CSCConstants::MAX_NUM_STRIPS && pattern < CSCConstants::NUM_CLCT_PATTERNS)
    data.phi_local = static_cast<unsigned>((lcl_phi_param0[pattern] + strip)*lcl_phi_param1);
  else
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of strip, " << strip
      << ", exceeds max allowed, " << 2*CSCConstants::MAX_NUM_STRIPS-1
      << " +++\n";
  
  if(data.phi_local >= maxPhiL)
    edm::LogWarning("CSCSectorReceiverMiniLUT")
      << "+++ Value of phi_local, " << data.phi_local
      << ", exceeds max allowed, " << CSCConstants::NUM_CLCT_PATTERNS-1 << " +++\n";
  
//  data.phi_bend_local = 0;
// Just pass through all bits of pattern as bend angle (so 2 MSB unfilled)
  data.phi_bend_local = pattern & 0x3F;

  return data;
}

Member Data Documentation

const unsigned short int CSCSectorReceiverMiniLUT::gbl_eta_bounds [static, private]

Definition at line 28 of file CSCSectorReceiverMiniLUT.h.

Referenced by calcGlobalEtaMEMini().

const float CSCSectorReceiverMiniLUT::gbl_eta_params [static, private]

Definition at line 27 of file CSCSectorReceiverMiniLUT.h.

Referenced by calcGlobalEtaMEMini().

const float CSCSectorReceiverMiniLUT::gbl_phi_mb_params [static, private]

Definition at line 32 of file CSCSectorReceiverMiniLUT.h.

Referenced by calcGlobalPhiMBMini().

const float CSCSectorReceiverMiniLUT::gbl_phi_me_params [static, private]

Definition at line 30 of file CSCSectorReceiverMiniLUT.h.

Referenced by calcGlobalPhiMEMini().

const float CSCSectorReceiverMiniLUT::lcl_phi_param0 [static, private]
Initial value:
 
{
  0.50, 0.50, -0.10, 1.10, -0.14, 1.14, 0.27, 0.73, 0.29, 0.71, 0.50, 0, 0, 0, 0, 0
}

Definition at line 24 of file CSCSectorReceiverMiniLUT.h.

Referenced by calcLocalPhiMini().

const float CSCSectorReceiverMiniLUT::lcl_phi_param1 = 6.4 [static, private]

Definition at line 25 of file CSCSectorReceiverMiniLUT.h.

Referenced by calcLocalPhiMini().