DTBtiChipEquations.cc

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//-------------------------------------------------
//
//   Class: DTBtiChip
//
//   Description: Implementation of DTBtiChip
//                trigger algorithm
//                (Equations' implementation)
//
//
//   Author List:
//   C. Grandi
//   Modifications:
//   22/X/02 S. Vanini: redundant patterns added
//   9/XII/02 SV : equation in manual form
//   13/I/2003 SV equations in manual order
//   22/VI/04 SV: last trigger code update
//--------------------------------------------------
 
//#include "Utilities/Configuration/interface/Architecture.h"
 
//-----------------------
// This Class's Header --
//-----------------------
#include "L1Trigger/DTBti/interface/DTBtiChip.h"
 
//-------------------------------
// Collaborating Class Headers --
//-------------------------------
#include "L1Trigger/DTBti/interface/DTBtiHit.h"
 
//---------------
// C++ Headers --
//---------------
#include <iostream>
 
using namespace std;
 
void DTBtiChip::computeSums() {
  //
  // compute all sums and diffs
  // nothing more than a table...
  // numbering convention here is the same as the fortran version:
  //   sum number in the range [1,25]
  //   cell numbers in the range [1,9]
  //     --> sum(int,int,int) decreases the indices by 1
  // sum (sum_number, first_cell, second_cell)
  //
 
  if (config()->debug() > 3) {
    cout << "DTBtiChip::computeSums called" << endl;
  }
 
  sum(1, 2, 1);
  sum(2, 3, 1);
  sum(3, 4, 1);
  sum(4, 6, 1);
  sum(5, 8, 1);
  sum(6, 3, 2);
  sum(7, 4, 2);
  sum(8, 5, 2);
  sum(9, 4, 3);
  sum(10, 5, 3);
  sum(11, 6, 3);
  sum(12, 8, 3);
  sum(13, 5, 4);
  sum(14, 6, 4);
  sum(15, 7, 4);
  sum(16, 9, 4);
  sum(17, 6, 5);
  sum(18, 7, 5);
  sum(19, 8, 5);
  sum(20, 7, 6);
  sum(21, 8, 6);
  sum(22, 9, 6);
  sum(23, 8, 7);
  sum(24, 9, 7);
  sum(25, 9, 8);
}
 
void DTBtiChip::sum(const int s, const int a, const int b) {
  //
  // fill the sums and difs arrays
  // a and b are the cell numbers (in the range [1,9])
  // s is the sum number (in the range [1,25])
  //
 
  if (_thisStepUsedHit[a - 1] != nullptr && _thisStepUsedHit[b - 1] != nullptr) {
    _sums[s - 1] = (float)(_thisStepUsedHit[a - 1]->jtrig() + _thisStepUsedHit[b - 1]->jtrig());
    _difs[s - 1] = (float)(_thisStepUsedHit[a - 1]->jtrig() - _thisStepUsedHit[b - 1]->jtrig());
  } else {
    _sums[s - 1] = 1000;
    _difs[s - 1] = 1000;
  }
}
 
void DTBtiChip::reSumSet() {
  reSumAr[2][2 + 2] = 0;
  reSumAr[2][1 + 2] = 0;
  reSumAr[2][0 + 2] = 0;
  reSumAr[2][-1 + 2] = -1;
  reSumAr[2][-2 + 2] = -1;
 
  reSumAr[1][2 + 2] = 1;
  reSumAr[1][1 + 2] = 1;
  reSumAr[1][0 + 2] = 0;
  reSumAr[1][-1 + 2] = 0;
  reSumAr[1][-2 + 2] = 0;
 
  reSumAr[0][2 + 2] = 1;
  reSumAr[0][1 + 2] = 0;
  reSumAr[0][0 + 2] = 0;
  reSumAr[0][-1 + 2] = 0;
  reSumAr[0][-2 + 2] = -1;
 
  reSumAr23[2][2 + 2] = 1;
  reSumAr23[2][1 + 2] = 1;
  reSumAr23[2][0 + 2] = 1;
  reSumAr23[2][-1 + 2] = 0;
  reSumAr23[2][-2 + 2] = 0;
 
  reSumAr23[1][2 + 2] = 1;
  reSumAr23[1][1 + 2] = 1;
  reSumAr23[1][0 + 2] = 0;
  reSumAr23[1][-1 + 2] = 0;
  reSumAr23[1][-2 + 2] = 0;
 
  reSumAr23[0][2 + 2] = 1;
  reSumAr23[0][1 + 2] = 0;
  reSumAr23[0][0 + 2] = 0;
  reSumAr23[0][-1 + 2] = 0;
  reSumAr23[0][-2 + 2] = -1;
}
 
void DTBtiChip::computeEqs() {
  //
  // Compute all K and X equations of DTBtiChip algorithm
  // NB now Keq=Kman
 
  float K0 = config()->ST();
  //cout <<"K0="<<K0<<endl;
 
  //enabled patterns....
  int PTMS[32];
  for (int i = 0; i < 32; i++) {
    PTMS[i] = config()->PTMSflag(i);
  }
 
  int i;
  // redundant patterns added by Sara Vanini
  i = 0;  //  1324A  --> 1L3L2R4L
  if (PTMS[i]) {
    _Keq[i][0] = _difs[1] + 2. * K0;                 //eq. AB
    _Keq[i][1] = -_sums[5] + 2. * K0;                //eq. BC
    _Keq[i][2] = _sums[6];                           //eq. CD
    _Keq[i][3] = -(_sums[0] / 2.) + 2. * K0 + 0.01;  //eq. AC
    _Keq[i][4] = (_difs[8] / 2.) + K0 + 0.01;        //eq. BD
    //_Keq[i][5] =  (_difs[2]/3.) + 4.*K0/3. + 0.51;                 //eq. AD
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(_difs[2]), 3.))) + int((double(_difs[2]) / 3.));  //eq. AD
 
    //patt 0 always uses Xbc, because Xad could be negative...
    //when wire B is missing,  TshiftB=0
    //when hit B is gone out of shift register, Tshift=K0+1
    float _difs_p0 = _difs[5];
 
    float TshiftB = 0;
    float TshiftC = 0;
    if (_thisStepUsedHit[3 - 1] == nullptr) {
      if (_hits[3 - 1].empty())
        TshiftB = 0;
      if (!_hits[3 - 1].empty() && (*(_hits[3 - 1].begin()))->clockTime() <= -K0)
        TshiftB = K0 + 1;
    } else
      TshiftB = _thisStepUsedHit[3 - 1]->jtrig();
 
    if (_thisStepUsedHit[2 - 1] == nullptr) {
      if (_hits[2 - 1].empty())
        TshiftC = 0;
      if (!_hits[2 - 1].empty() && (*(_hits[2 - 1].begin()))->clockTime() <= -K0)
        TshiftC = K0 + 1;
    } else
      TshiftC = _thisStepUsedHit[2 - 1]->jtrig();
 
    _difs_p0 = (float)(TshiftB - TshiftC);
 
    // Zotto's
    _XeqAB_patt0 = (_sums[1] - K0) / 4.;  //eq. AB
    _Xeq[i][0] = (_difs_p0 + K0) / 4.;    //eq. BC
    _XeqCD_patt0 = (_difs[6] + K0) / 4.;  //eq. CD
    _XeqAC_patt0 = -(_difs[0]) / 4.;      //eq. AC
    _XeqBD_patt0 = (_sums[8]) / 4.;       //eq. BD
    _Xeq[i][1] = (_sums[2] - K0) / 4.;    //eq. AD
 
    /*
// my eq
  _XeqAB_patt0 = (_sums[1] - K0) / 4.;                       //eq. AB
  _Xeq[i][0]   = (_difs[5] + K0) / 4.;                       //eq. BC
  _XeqCD_patt0 = (_difs[6] + K0) / 4.;                        //eq. CD
  _XeqAC_patt0 = -(_difs[0])   / 4.;                         //eq. AC
  _XeqBD_patt0 =  (_sums[8])   / 4.;                         //eq. BD
  _Xeq[i][1] = (_sums[2] - K0) / 4.;                         //eq. AD
*/
  }
 
  i = 1;  //  1324B  --> 1L3L2R4R
  if (PTMS[i]) {
    _Keq[i][0] = _difs[1] + 2. * K0;
    _Keq[i][1] = -(_sums[5]) + 2. * K0;
    _Keq[i][2] = -_difs[6] + 2. * K0;
    _Keq[i][3] = -(_sums[0] / 2.) + 2. * K0 + 0.01;
    _Keq[i][4] = -(_sums[8] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] = -(_sums[2]/3.)     + 2.*K0 + 0.51;
    _Keq[i][5] = ST2 + reSum23(0, int(fmod(double(-_sums[2]), 3.))) + int((double(-_sums[2]) / 3.));
 
    _Xeq[i][0] = (_difs[5] + K0) / 4.;
    _Xeq[i][1] = (-_difs[2] + K0) / 4.;
  }
 
  i = 2;  //  1324C  --> 1R3L2R4L
  if (PTMS[i]) {
    _Keq[i][0] = _sums[1];
    _Keq[i][1] = -_sums[5] + 2. * K0;
    _Keq[i][2] = _sums[6];
    _Keq[i][3] = -(_difs[0] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_difs[8] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_sums[2]/3.)    + 2.*K0/3. + 0.51;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(_sums[2]), 3.))) + int((double(_sums[2]) / 3.));  //eq. AD
                                                                                                        /*  
cout << "ST23 =" << ST23 << endl;
cout << "RE23 =" << RE23 << endl;
cout << "fmod(double(_sums[2]),3.) =" << fmod(double(_sums[2]),3.) << endl;
cout << "reSum23 = "<< reSum23( RE23 , fmod(double(_sums[2]),3.) ) << endl;
cout << "double(_sums[2])/3.="<<double(_sums[2])/3.<< endl;
cout << "int('') = " << int( (double(_sums[2])/3.) ) << endl;
*/
    _Xeq[i][0] = (_difs[5] + K0) / 4.;
    _Xeq[i][1] = (_difs[2] + K0) / 4.;
  }
 
  i = 3;  //  1324D  --> 1R3L2R4R
  if (PTMS[i]) {
    _Keq[i][0] = _sums[1];
    _Keq[i][1] = -_sums[5] + 2. * K0;
    _Keq[i][2] = -_difs[6] + 2. * K0;
    _Keq[i][3] = -(_difs[0] / 2.) + K0 + 0.01;
    _Keq[i][4] = -(_sums[8] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] = -(_difs[2]/3.) + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(-_difs[2]), 3.))) + int((double(-_difs[2]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[5] + K0) / 4.;
    _Xeq[i][1] = (-_sums[2] + 3. * K0) / 4.;
  }
 
  i = 4;  //  i = DTBtiChipEQMAP->index("1364A");  --> 1L3L6L4R
  if (PTMS[i]) {
    _Keq[i][0] = _difs[1] + 2. * K0;
    _Keq[i][1] = _difs[10] + 2. * K0;
    _Keq[i][2] = -(_sums[13]) + 2. * K0;
    _Keq[i][3] = (_difs[3] / 2.) + 2. * K0 + 0.01;
    _Keq[i][4] = -(_sums[8] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] = -(_sums[2]/3.)   + 2.*K0 + 0.51;
    _Keq[i][5] = ST2 + reSum23(0, int(fmod(double(-_sums[2]), 3.))) + int((double(-_sums[2]) / 3.));
 
    _Xeq[i][0] = (_sums[10] + K0) / 4.;
    _Xeq[i][1] = (-_difs[2] + K0) / 4.;
  }
 
  i = 5;  //  i = DTBtiChipEQMAP->index("1364B");  --> 1R3L6L4R
  if (PTMS[i]) {
    _Keq[i][0] = _sums[1];
    _Keq[i][1] = _difs[10] + 2. * K0;
    _Keq[i][2] = -_sums[13] + 2. * K0;
    _Keq[i][3] = (_sums[3] / 2.) + K0 + 0.01;
    _Keq[i][4] = -(_sums[8] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] = -(_difs[2]/3.)  + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(-_difs[2]), 3.))) + int((double(-_difs[2]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_sums[10] + K0) / 4.;
    _Xeq[i][1] = (-_sums[2] + 3. * K0) / 4.;
  }
 
  i = 6;  //  i = DTBtiChipEQMAP->index("1364C");  --> 1R3R6L4R
  if (PTMS[i]) {
    _Keq[i][0] = -_difs[1] + 2. * K0;
    _Keq[i][1] = _sums[10];
    _Keq[i][2] = -_sums[13] + 2. * K0;
    _Keq[i][3] = (_sums[3] / 2.) + K0 + 0.01;
    _Keq[i][4] = -(_difs[8] / 2.) + K0 + 0.01;
    //_Keq[i][5] = -(_difs[2]/3.)  + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(-_difs[2]), 3.))) + int((double(-_difs[2]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[10] + 3. * K0) / 4.;
    _Xeq[i][1] = (-_sums[2] + 3. * K0) / 4.;
  }
 
  i = 7;  //  i = DTBtiChipEQMAP->index("1368A");  --> 1R3R6L8L
  if (PTMS[i]) {
    _Keq[i][0] = -_difs[1] + 2. * K0;
    _Keq[i][1] = (_sums[10]);
    _Keq[i][2] = _difs[20] + 2. * K0;
    _Keq[i][3] = (_sums[3] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_sums[11] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_sums[4]/3.)   + 4.*K0/3. + 0.51;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(_sums[4]), 3.))) + int((double(_sums[4]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[10] + 3. * K0) / 4.;
    _Xeq[i][1] = (_difs[4] + 3. * K0) / 4.;
  }
 
  i = 8;  //  i = DTBtiChipEQMAP->index("1368B");  --> 1R3R6R8L
  if (PTMS[i]) {
    _Keq[i][0] = -_difs[1] + 2. * K0;
    _Keq[i][1] = -_difs[10] + 2. * K0;
    _Keq[i][2] = (_sums[20]);
    _Keq[i][3] = -(_difs[3] / 2.) + 2. * K0 + 0.01;
    _Keq[i][4] = (_sums[11] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_sums[4]/3.)     + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(_sums[4]), 3.))) + int((double(_sums[4]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (-_sums[10] + 5. * K0) / 4.;
    _Xeq[i][1] = (_difs[4] + 3. * K0) / 4.;
  }
 
  i = 9;  //  i = DTBtiChipEQMAP->index("1368C");  --> 1R3L6L8L
  if (PTMS[i]) {
    _Keq[i][0] = (_sums[1]);
    _Keq[i][1] = _difs[10] + 2. * K0;
    _Keq[i][2] = _difs[20] + 2. * K0;
    _Keq[i][3] = (_sums[3] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_difs[11] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] =  (_sums[4]/3.)    + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(_sums[4]), 3.))) + int((double(_sums[4]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_sums[10] + K0) / 4.;
    _Xeq[i][1] = (_difs[4] + 3. * K0) / 4.;
  }
 
  i = 10;  //  i = DTBtiChipEQMAP->index("5324A");  --> 5L3L2R4L
  if (PTMS[i]) {
    _Keq[i][0] = -_difs[9];
    _Keq[i][1] = -_sums[5] + 2. * K0;
    _Keq[i][2] = _sums[6];
    _Keq[i][3] = -(_sums[7] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_difs[8] / 2.) + K0 + 0.01;
    //_Keq[i][5] = -(_difs[12]/3.) + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_difs[12]), 3.))) + int((double(-_difs[12]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[5] + K0) / 4.;
    _Xeq[i][1] = (_sums[12] + K0) / 4.;
  }
 
  i = 11;  //  i = DTBtiChipEQMAP->index("5324B");  --> 5L3R2R4L
  if (PTMS[i]) {
    _Keq[i][0] = -_sums[9] + 2. * K0;
    _Keq[i][1] = _difs[5];
    _Keq[i][2] = _sums[6];
    _Keq[i][3] = -(_sums[7] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_sums[8] / 2. + 0.01);
    //_Keq[i][5] = -(_difs[12]/3.) + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_difs[12]), 3.))) + int((double(-_difs[12]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (-_sums[5] + 3. * K0) / 4.;
    _Xeq[i][1] = (_sums[12] + K0) / 4.;
  }
 
  i = 12;  //  i = DTBtiChipEQMAP->index("5324C");  --> 5R3R2R4L
  if (PTMS[i]) {
    _Keq[i][0] = _difs[9];
    _Keq[i][1] = _difs[5];
    _Keq[i][2] = (_sums[6]);
    _Keq[i][3] = (_difs[7] / 2.) + 0.01;
    _Keq[i][4] = (_sums[8] / 2.) + 0.01;
    _Keq[i][5] = (_sums[12] / 3.) + 0.51;
 
    _Xeq[i][0] = (-_sums[5] + 3. * K0) / 4.;
    _Xeq[i][1] = (-_difs[12] + 3. * K0) / 4.;
  }
 
  i = 13;  //  i = DTBtiChipEQMAP->index("5364A");  --> 5L3R6L4L
  if (PTMS[i]) {
    _Keq[i][0] = -_sums[9] + 2. * K0;
    _Keq[i][1] = _sums[10];
    _Keq[i][2] = -_difs[13];
    _Keq[i][3] = (_difs[16] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_sums[8] / 2. + 0.01);
    //_Keq[i][5] = -(_difs[12]/3.)  +  2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_difs[12]), 3.))) + int((double(-_difs[12]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[10] + 3. * K0) / 4.;
    _Xeq[i][1] = (_sums[12] + K0) / 4.;
  }
 
  i = 14;  //  i = DTBtiChipEQMAP->index("5364B");  --> 5L3R6L4R
  if (PTMS[i]) {
    _Keq[i][0] = -_sums[9] + 2. * K0;
    _Keq[i][1] = _sums[10];
    _Keq[i][2] = -_sums[13] + 2. * K0;
    _Keq[i][3] = (_difs[16] / 2.) + K0 + 0.01;
    _Keq[i][4] = -(_difs[8] / 2.) + K0 + 0.01;
    //_Keq[i][5] = -(_sums[12]/3.)  + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(-_sums[12]), 3.))) + int((double(-_sums[12]) / 3.));
 
    _Xeq[i][0] = (_difs[10] + 3. * K0) / 4.;
    _Xeq[i][1] = (_difs[12] + 3. * K0) / 4.;
  }
 
  i = 15;  //  i = DTBtiChipEQMAP->index("5364C");  --> 5R3R6L4L
  if (PTMS[i]) {
    _Keq[i][0] = _difs[9];
    _Keq[i][1] = (_sums[10]);
    _Keq[i][2] = -_difs[13];
    _Keq[i][3] = (_sums[16] / 2. + 0.01);
    _Keq[i][4] = (_sums[8] / 2. + 0.01);
    _Keq[i][5] = (_sums[12] / 3.) + 0.51;
 
    _Xeq[i][0] = (_difs[10] + 3. * K0) / 4.;
    _Xeq[i][1] = (-_difs[12] + 3. * K0) / 4.;
  }
 
  i = 16;  //  i = DTBtiChipEQMAP->index("5364D");  --> 5R3R6L4R
  if (PTMS[i]) {
    _Keq[i][0] = _difs[9];
    _Keq[i][1] = _sums[10];
    _Keq[i][2] = -_sums[13] + 2. * K0;
    _Keq[i][3] = (_sums[16] / 2. + 0.01);
    _Keq[i][4] = -(_difs[8] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_difs[12]/3.) + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(_difs[12]), 3.))) + int((double(_difs[12]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[10] + 3. * K0) / 4.;
    _Xeq[i][1] = (-_sums[12] + 5. * K0) / 4.;
  }
 
  i = 17;  //  i = DTBtiChipEQMAP->index("5368A");  --> 5L3R6L8L
  if (PTMS[i]) {
    _Keq[i][0] = -_sums[9] + 2. * K0;
    _Keq[i][1] = _sums[10];
    _Keq[i][2] = _difs[20] + 2. * K0;
    _Keq[i][3] = (_difs[16] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_sums[11] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_difs[18]/3.)  + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(_difs[18]), 3.))) + int((double(_difs[18]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[10] + 3. * K0) / 4.;
    _Xeq[i][1] = (_sums[18] + 3. * K0) / 4.;
  }
 
  i = 18;  //  i = DTBtiChipEQMAP->index("5368B");  --> 5L3R6R8L
  if (PTMS[i]) {
    _Keq[i][0] = -_sums[9] + 2. * K0;
    _Keq[i][1] = -_difs[10] + 2. * K0;
    _Keq[i][2] = _sums[20];
    _Keq[i][3] = -(_sums[16] / 2.) + 2. * K0 + 0.01;
    _Keq[i][4] = (_sums[11] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_difs[18]/3.)  + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(_difs[18]), 3.))) + int((double(_difs[18]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (-_sums[10] + 5. * K0) / 4.;
    _Xeq[i][1] = (_sums[18] + 3. * K0) / 4.;
  }
 
  i = 19;  //  i = DTBtiChipEQMAP->index("5368C");  --> 5L3R6R8R
  if (PTMS[i]) {
    _Keq[i][0] = -(_sums[9]) + 2. * K0;
    _Keq[i][1] = -_difs[10] + 2. * K0;
    _Keq[i][2] = -_difs[20] + 2. * K0;
    _Keq[i][3] = -(_sums[16] / 2.) + 2. * K0 + 0.01;
    _Keq[i][4] = -(_difs[11] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] = -(_sums[18]/3.)  + 2.*K0 + 0.51;
    _Keq[i][5] = ST2 + reSum23(0, int(fmod(double(-_sums[18]), 3.))) + int((double(-_sums[18]) / 3.));
 
    _Xeq[i][0] = (-_sums[10] + 5. * K0) / 4.;
    _Xeq[i][1] = (-_difs[18] + 5. * K0) / 4.;
  }
 
  i = 20;  //  i = DTBtiChipEQMAP->index("5764A");  --> 5R7L6L4R
  if (PTMS[i]) {
    _Keq[i][0] = _sums[17];
    _Keq[i][1] = -_difs[19];
    _Keq[i][2] = -_sums[13] + 2. * K0;
    _Keq[i][3] = (_sums[16] / 2. + 0.01);
    _Keq[i][4] = -(_sums[14] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_difs[12]/3.)  + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(_difs[12]), 3.))) + int((double(_difs[12]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_sums[19] + 3. * K0) / 4.;
    _Xeq[i][1] = (-_sums[12] + 5. * K0) / 4.;
  }
 
  i = 21;  //  i = DTBtiChipEQMAP->index("5764B");  --> 5R7L6R4R
  if (PTMS[i]) {
    _Keq[i][0] = _sums[17];
    _Keq[i][1] = -_sums[19] + 2. * K0;
    _Keq[i][2] = _difs[13];
    _Keq[i][3] = -(_difs[16] / 2.) + K0 + 0.01;
    _Keq[i][4] = -(_sums[14] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_difs[12]/3.) + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(_difs[12]), 3.))) + int((double(_difs[12]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[19] + 5. * K0) / 4.;
    _Xeq[i][1] = (-_sums[12] + 5. * K0) / 4.;
  }
 
  i = 22;  //  i = DTBtiChipEQMAP->index("5764C");  --> 5R7L6L4L
  if (PTMS[i]) {
    _Keq[i][0] = (_sums[17]);
    _Keq[i][1] = -_difs[19];
    _Keq[i][2] = -_difs[13];
    _Keq[i][3] = (_sums[16] / 2. + 0.01);
    _Keq[i][4] = -(_difs[14] / 2.) + 0.01;
    _Keq[i][5] = (_sums[12] / 3.) + 0.51;
 
    _Xeq[i][0] = (_sums[19] + 3. * K0) / 4.;
    _Xeq[i][1] = (-_difs[12] + 3. * K0) / 4.;
  }
 
  i = 23;  //  i = DTBtiChipEQMAP->index("9764A");  --> 9L7L6L4R
  if (PTMS[i]) {
    _Keq[i][0] = -_difs[23];
    _Keq[i][1] = -_difs[19];
    _Keq[i][2] = -(_sums[13]) + 2. * K0;
    _Keq[i][3] = -(_difs[21] / 2.) + 0.01;
    _Keq[i][4] = -(_sums[14] / 2.) + K0 + 0.01;
    //_Keq[i][5] = -(_sums[15]/3.)  + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_sums[15]), 3.))) + int((double(-_sums[15]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_sums[19] + 3. * K0) / 4.;
    _Xeq[i][1] = (_difs[15] + 5. * K0) / 4.;
  }
 
  i = 24;  //  i = DTBtiChipEQMAP->index("9764B");  --> 9L7L6R4R
  if (PTMS[i]) {
    _Keq[i][0] = -_difs[23];
    _Keq[i][1] = -(_sums[19]) + 2. * K0;
    _Keq[i][2] = _difs[13];
    _Keq[i][3] = -(_sums[21] / 2.) + K0 + 0.01;
    _Keq[i][4] = -(_sums[14] / 2.) + K0 + 0.01;
    //_Keq[i][5] = -(_sums[15]/3.)    + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_sums[15]), 3.))) + int((double(-_sums[15]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[19] + 5. * K0) / 4.;
    _Xeq[i][1] = (_difs[15] + 5. * K0) / 4.;
  }
 
  i = 25;  //  i = DTBtiChipEQMAP->index("9764C");  --> 9L7R6R4R
  if (PTMS[i]) {
    _Keq[i][0] = -(_sums[23]) + 2. * K0;
    _Keq[i][1] = _difs[19];
    _Keq[i][2] = _difs[13];
    _Keq[i][3] = -(_sums[21] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_difs[14] / 2.) + 0.01;
    //_Keq[i][5] = -(_sums[15]/3.)    + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_sums[15]), 3.))) + int((double(-_sums[15]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (-_sums[19] + 7. * K0) / 4.;
    _Xeq[i][1] = (_difs[15] + 5. * K0) / 4.;
  }
 
  i = 26;  //  int i = DTBtiChipEQMAP->index("5768A") --> 5L7L6R8L
  if (PTMS[i]) {
    _Keq[i][0] = _difs[17] + 2. * K0;
    _Keq[i][1] = -_sums[19] + 2. * K0;
    _Keq[i][2] = _sums[20];
    _Keq[i][3] = -(_sums[16] / 2.) + 2. * K0 + 0.01;
    _Keq[i][4] = (_difs[22] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_difs[18]/3.)  + 4.*K0/3.;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(_difs[18]), 3.))) + int((double(_difs[18]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[19] + 5. * K0) / 4.;
    _Xeq[i][1] = (_sums[18] + 3. * K0) / 4.;
  }
 
  i = 27;  //  i = DTBtiChipEQMAP->index("5768B");  --> 5L7L6R8R
  if (PTMS[i]) {
    _Keq[i][0] = _difs[17] + 2. * K0;
    _Keq[i][1] = -(_sums[19]) + 2. * K0;
    _Keq[i][2] = -_difs[20] + 2. * K0;
    _Keq[i][3] = -(_sums[16] / 2.) + 2. * K0 + 0.01;
    _Keq[i][4] = -(_sums[22] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] = -(_sums[18]/3.)  + 2.*K0 + 0.51;
    _Keq[i][5] = ST2 + reSum23(0, int(fmod(double(-_sums[18]), 3.))) + int((double(-_sums[18]) / 3.));
 
    _Xeq[i][0] = (_difs[19] + 5. * K0) / 4.;
    _Xeq[i][1] = (-_difs[18] + 5. * K0) / 4.;
  }
 
  i = 28;  //  i = DTBtiChipEQMAP->index("5768C");  --> 5R7L6R8L
  if (PTMS[i]) {
    _Keq[i][0] = _sums[17];
    _Keq[i][1] = -_sums[19] + 2. * K0;
    _Keq[i][2] = _sums[20];
    _Keq[i][3] = -(_difs[16] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_difs[22] / 2.) + K0 + 0.01;
    //_Keq[i][5] =  (_sums[18]/3.)  + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(_sums[18]), 3.))) + int((double(_sums[18]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[19] + 5. * K0) / 4.;
    _Xeq[i][1] = (_difs[18] + 5. * K0) / 4.;
  }
 
  i = 29;  //  i = DTBtiChipEQMAP->index("5768D");  --> 5R7L6R8R
  if (PTMS[i]) {
    _Keq[i][0] = _sums[17];
    _Keq[i][1] = -_sums[19] + 2. * K0;
    _Keq[i][2] = -_difs[20] + 2. * K0;
    _Keq[i][3] = -(_difs[16] / 2.) + K0 + 0.01;
    _Keq[i][4] = -(_sums[22] / 2.) + 2. * K0 + 0.01;
    //_Keq[i][5] = -(_difs[18]/3.)  + 4.*K0/3. ;
    _Keq[i][5] = ST43 + reSum(RE43, int(fmod(double(-_difs[18]), 3.))) + int((double(-_difs[18]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[19] + 5. * K0) / 4.;
    _Xeq[i][1] = (-_sums[18] + 7. * K0) / 4.;
  }
 
  i = 30;  //  9768A  --> 9L7L6R8L
  if (PTMS[i]) {
    _Keq[i][0] = -_difs[23];
    _Keq[i][1] = -_sums[19] + 2. * K0;
    _Keq[i][2] = _sums[20];
    _Keq[i][3] = -(_sums[21] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_difs[22] / 2.) + K0 + 0.01;
    //_Keq[i][5] = -(_difs[24]/3.)  + 2.*K0/3. ;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_difs[24]), 3.))) + int((double(-_difs[24]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (_difs[19] + 5. * K0) / 4.;
    _Xeq[i][1] = (_sums[24] + 5. * K0) / 4.;
  }
 
  i = 31;  //  9768B  --> 9L7R6R8L
  if (PTMS[i]) {
    _Keq[i][0] = -_sums[23] + 2. * K0;
    _Keq[i][1] = _difs[19];
    _Keq[i][2] = _sums[20];
    _Keq[i][3] = -(_sums[21] / 2.) + K0 + 0.01;
    _Keq[i][4] = (_sums[22] / 2.) + 0.01;
    //_Keq[i][5] = -(_difs[24]/3.)  + 2.*K0/3.;
    _Keq[i][5] = ST23 + reSum23(RE23, int(fmod(double(-_difs[24]), 3.))) + int((double(-_difs[24]) / 3.));  //eq. AD
 
    _Xeq[i][0] = (-_sums[19] + 7. * K0) / 4.;
    _Xeq[i][1] = (_sums[24] + 5. * K0) / 4.;
  }
 
  // debugging
  if (config()->debug() > 3) {
    cout << endl << " Step: " << currentStep() << endl;
    for (i = 0; i < 32; i++) {
      if (PTMS[i]) {
        cout << "K Equation " << i << " --> ";
        int j = 0;
        for (j = 0; j < 6; j++) {
          cout << _Keq[i][j] << " ";
        }
        cout << endl;
        cout << "X Equation " << i << " --> ";
        for (j = 0; j < 2; j++) {
          cout << _Xeq[i][j] << " ";
        }
        if (i == 0) {
          cout << _XeqAB_patt0 << " " << _XeqCD_patt0 << " ";
          cout << _XeqAC_patt0 << " " << _XeqBD_patt0 << " ";
        }
        cout << endl;
      }
    }
  }
  // end debugging
}