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root/OpenMD/trunk/src/parallel/ForceMatrixDecomposition.cpp
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Comparing:
branches/development/src/parallel/ForceMatrixDecomposition.cpp (file contents), Revision 1723 by gezelter, Thu May 24 20:59:54 2012 UTC vs.
trunk/src/parallel/ForceMatrixDecomposition.cpp (file contents), Revision 1796 by gezelter, Mon Sep 10 18:38:44 2012 UTC

# Line 175 | Line 175 | namespace OpenMD {
175  
176      pot_row.resize(nAtomsInRow_);
177      pot_col.resize(nAtomsInCol_);
178 +
179 +    expot_row.resize(nAtomsInRow_);
180 +    expot_col.resize(nAtomsInCol_);
181  
182      AtomRowToGlobal.resize(nAtomsInRow_);
183      AtomColToGlobal.resize(nAtomsInCol_);
# Line 307 | Line 310 | namespace OpenMD {
310      
311      RealType tol = 1e-6;
312      largestRcut_ = 0.0;
310    RealType rc;
313      int atid;
314      set<AtomType*> atypes = info_->getSimulatedAtomTypes();
315      
# Line 392 | Line 394 | namespace OpenMD {
394        }
395        
396        bool gTypeFound = false;
397 <      for (int gt = 0; gt < gTypeCutoffs.size(); gt++) {
397 >      for (unsigned int gt = 0; gt < gTypeCutoffs.size(); gt++) {
398          if (abs(groupCutoff[cg1] - gTypeCutoffs[gt]) < tol) {
399            groupToGtype[cg1] = gt;
400            gTypeFound = true;
# Line 417 | Line 419 | namespace OpenMD {
419      
420      RealType tradRcut = groupMax;
421  
422 <    for (int i = 0; i < gTypeCutoffs.size();  i++) {
423 <      for (int j = 0; j < gTypeCutoffs.size();  j++) {      
422 >    for (unsigned int i = 0; i < gTypeCutoffs.size();  i++) {
423 >      for (unsigned int j = 0; j < gTypeCutoffs.size();  j++) {      
424          RealType thisRcut;
425          switch(cutoffPolicy_) {
426          case TRADITIONAL:
# Line 461 | Line 463 | namespace OpenMD {
463      }
464    }
465  
464
466    groupCutoffs ForceMatrixDecomposition::getGroupCutoffs(int cg1, int cg2) {
467      int i, j;  
468   #ifdef IS_MPI
# Line 475 | Line 476 | namespace OpenMD {
476    }
477  
478    int ForceMatrixDecomposition::getTopologicalDistance(int atom1, int atom2) {
479 <    for (int j = 0; j < toposForAtom[atom1].size(); j++) {
479 >    for (unsigned int j = 0; j < toposForAtom[atom1].size(); j++) {
480        if (toposForAtom[atom1][j] == atom2)
481          return topoDist[atom1][j];
482      }
# Line 485 | Line 486 | namespace OpenMD {
486    void ForceMatrixDecomposition::zeroWorkArrays() {
487      pairwisePot = 0.0;
488      embeddingPot = 0.0;
489 +    excludedPot = 0.0;
490 +    excludedSelfPot = 0.0;
491  
492   #ifdef IS_MPI
493      if (storageLayout_ & DataStorage::dslForce) {
# Line 501 | Line 504 | namespace OpenMD {
504           Vector<RealType, N_INTERACTION_FAMILIES> (0.0));
505  
506      fill(pot_col.begin(), pot_col.end(),
507 +         Vector<RealType, N_INTERACTION_FAMILIES> (0.0));  
508 +
509 +    fill(expot_row.begin(), expot_row.end(),
510 +         Vector<RealType, N_INTERACTION_FAMILIES> (0.0));
511 +
512 +    fill(expot_col.begin(), expot_col.end(),
513           Vector<RealType, N_INTERACTION_FAMILIES> (0.0));  
514  
515      if (storageLayout_ & DataStorage::dslParticlePot) {    
# Line 781 | Line 790 | namespace OpenMD {
790  
791      vector<potVec> pot_temp(nLocal_,
792                              Vector<RealType, N_INTERACTION_FAMILIES> (0.0));
793 +    vector<potVec> expot_temp(nLocal_,
794 +                              Vector<RealType, N_INTERACTION_FAMILIES> (0.0));
795  
796      // scatter/gather pot_row into the members of my column
797            
798      AtomPlanPotRow->scatter(pot_row, pot_temp);
799 +    AtomPlanPotRow->scatter(expot_row, expot_temp);
800  
801 <    for (int ii = 0;  ii < pot_temp.size(); ii++ )
801 >    for (int ii = 0;  ii < pot_temp.size(); ii++ )
802        pairwisePot += pot_temp[ii];
803 +
804 +    for (int ii = 0;  ii < expot_temp.size(); ii++ )
805 +      excludedPot += expot_temp[ii];
806          
807      if (storageLayout_ & DataStorage::dslParticlePot) {
808        // This is the pairwise contribution to the particle pot.  The
# Line 805 | Line 820 | namespace OpenMD {
820  
821      fill(pot_temp.begin(), pot_temp.end(),
822           Vector<RealType, N_INTERACTION_FAMILIES> (0.0));
823 +    fill(expot_temp.begin(), expot_temp.end(),
824 +         Vector<RealType, N_INTERACTION_FAMILIES> (0.0));
825        
826      AtomPlanPotColumn->scatter(pot_col, pot_temp);    
827 +    AtomPlanPotColumn->scatter(expot_col, expot_temp);    
828      
829      for (int ii = 0;  ii < pot_temp.size(); ii++ )
830        pairwisePot += pot_temp[ii];    
831  
832 +    for (int ii = 0;  ii < expot_temp.size(); ii++ )
833 +      excludedPot += expot_temp[ii];    
834 +
835      if (storageLayout_ & DataStorage::dslParticlePot) {
836        // This is the pairwise contribution to the particle pot.  The
837        // embedding contribution is added in each of the low level
# Line 853 | Line 874 | namespace OpenMD {
874      }
875  
876      for (int ii = 0; ii < N_INTERACTION_FAMILIES; ii++) {
877 <      RealType ploc1 = embeddingPot[ii];
877 >      RealType ploc1 = excludedPot[ii];
878        RealType ploc2 = 0.0;
879        MPI::COMM_WORLD.Allreduce(&ploc1, &ploc2, 1, MPI::REALTYPE, MPI::SUM);
880 <      embeddingPot[ii] = ploc2;
880 >      excludedPot[ii] = ploc2;
881      }
882 <    
882 >
883      // Here be dragons.
884      MPI::Intracomm col = colComm.getComm();
885  
# Line 871 | Line 892 | namespace OpenMD {
892  
893    }
894  
895 +  /**
896 +   * Collects information obtained during the post-pair (and embedding
897 +   * functional) loops onto local data structures.
898 +   */
899 +  void ForceMatrixDecomposition::collectSelfData() {
900 +    snap_ = sman_->getCurrentSnapshot();
901 +    storageLayout_ = sman_->getStorageLayout();
902 +
903 + #ifdef IS_MPI
904 +    for (int ii = 0; ii < N_INTERACTION_FAMILIES; ii++) {
905 +      RealType ploc1 = embeddingPot[ii];
906 +      RealType ploc2 = 0.0;
907 +      MPI::COMM_WORLD.Allreduce(&ploc1, &ploc2, 1, MPI::REALTYPE, MPI::SUM);
908 +      embeddingPot[ii] = ploc2;
909 +    }    
910 +    for (int ii = 0; ii < N_INTERACTION_FAMILIES; ii++) {
911 +      RealType ploc1 = excludedSelfPot[ii];
912 +      RealType ploc2 = 0.0;
913 +      MPI::COMM_WORLD.Allreduce(&ploc1, &ploc2, 1, MPI::REALTYPE, MPI::SUM);
914 +      excludedSelfPot[ii] = ploc2;
915 +    }    
916 + #endif
917 +    
918 +  }
919 +
920 +
921 +
922    int ForceMatrixDecomposition::getNAtomsInRow() {  
923   #ifdef IS_MPI
924      return nAtomsInRow_;
# Line 993 | Line 1041 | namespace OpenMD {
1041     * We need to exclude some overcounted interactions that result from
1042     * the parallel decomposition.
1043     */
1044 <  bool ForceMatrixDecomposition::skipAtomPair(int atom1, int atom2) {
1044 >  bool ForceMatrixDecomposition::skipAtomPair(int atom1, int atom2, int cg1, int cg2) {
1045      int unique_id_1, unique_id_2;
1046          
1047   #ifdef IS_MPI
1048      // in MPI, we have to look up the unique IDs for each atom
1049      unique_id_1 = AtomRowToGlobal[atom1];
1050      unique_id_2 = AtomColToGlobal[atom2];
1051 +    // group1 = cgRowToGlobal[cg1];
1052 +    // group2 = cgColToGlobal[cg2];
1053   #else
1054      unique_id_1 = AtomLocalToGlobal[atom1];
1055      unique_id_2 = AtomLocalToGlobal[atom2];
1056 +    int group1 = cgLocalToGlobal[cg1];
1057 +    int group2 = cgLocalToGlobal[cg2];
1058   #endif  
1059  
1060      if (unique_id_1 == unique_id_2) return true;
# Line 1014 | Line 1066 | namespace OpenMD {
1066      } else {
1067        if ((unique_id_1 + unique_id_2) % 2 == 1) return true;
1068      }
1069 + #endif    
1070 +
1071 + #ifndef IS_MPI
1072 +    if (group1 == group2) {
1073 +      if (unique_id_1 < unique_id_2) return true;
1074 +    }
1075   #endif
1076      
1077      return false;
# Line 1116 | Line 1174 | namespace OpenMD {
1174  
1175   #else
1176      
1119
1120    // cerr << "atoms = " << atom1 << " " << atom2 << "\n";
1121    // cerr << "pos1 = " << snap_->atomData.position[atom1] << "\n";
1122    // cerr << "pos2 = " << snap_->atomData.position[atom2] << "\n";
1123
1177      idat.atypes = make_pair( atypesLocal[atom1], atypesLocal[atom2]);
1125    //idat.atypes = make_pair( ff_->getAtomType(idents[atom1]),
1126    //                         ff_->getAtomType(idents[atom2]) );
1178  
1179      if (storageLayout_ & DataStorage::dslAmat) {
1180        idat.A1 = &(snap_->atomData.aMat[atom1]);
# Line 1178 | Line 1229 | namespace OpenMD {
1229   #ifdef IS_MPI
1230      pot_row[atom1] += RealType(0.5) *  *(idat.pot);
1231      pot_col[atom2] += RealType(0.5) *  *(idat.pot);
1232 +    expot_row[atom1] += RealType(0.5) *  *(idat.excludedPot);
1233 +    expot_col[atom2] += RealType(0.5) *  *(idat.excludedPot);
1234  
1235      atomRowData.force[atom1] += *(idat.f1);
1236      atomColData.force[atom2] -= *(idat.f1);
1237  
1238      if (storageLayout_ & DataStorage::dslFlucQForce) {              
1239 <      atomRowData.flucQFrc[atom1] += *(idat.dVdFQ1);
1240 <      atomColData.flucQFrc[atom2] += *(idat.dVdFQ2);
1239 >      atomRowData.flucQFrc[atom1] -= *(idat.dVdFQ1);
1240 >      atomColData.flucQFrc[atom2] -= *(idat.dVdFQ2);
1241      }
1242  
1243      if (storageLayout_ & DataStorage::dslElectricField) {              
# Line 1194 | Line 1247 | namespace OpenMD {
1247  
1248   #else
1249      pairwisePot += *(idat.pot);
1250 +    excludedPot += *(idat.excludedPot);
1251  
1252      snap_->atomData.force[atom1] += *(idat.f1);
1253      snap_->atomData.force[atom2] -= *(idat.f1);
# Line 1208 | Line 1262 | namespace OpenMD {
1262      }
1263      
1264      if (storageLayout_ & DataStorage::dslFlucQForce) {              
1265 <      snap_->atomData.flucQFrc[atom1] += *(idat.dVdFQ1);
1265 >      snap_->atomData.flucQFrc[atom1] -= *(idat.dVdFQ1);
1266        snap_->atomData.flucQFrc[atom2] -= *(idat.dVdFQ2);
1267      }
1268  
# Line 1241 | Line 1295 | namespace OpenMD {
1295   #endif
1296  
1297      RealType rList_ = (largestRcut_ + skinThickness_);
1244    RealType rl2 = rList_ * rList_;
1298      Snapshot* snap_ = sman_->getCurrentSnapshot();
1299      Mat3x3d Hmat = snap_->getHmat();
1300      Vector3d Hx = Hmat.getColumn(0);
# Line 1285 | Line 1338 | namespace OpenMD {
1338          for (int j = 0; j < 3; j++) {
1339            scaled[j] -= roundMe(scaled[j]);
1340            scaled[j] += 0.5;
1341 +          // Handle the special case when an object is exactly on the
1342 +          // boundary (a scaled coordinate of 1.0 is the same as
1343 +          // scaled coordinate of 0.0)
1344 +          if (scaled[j] >= 1.0) scaled[j] -= 1.0;
1345          }
1346          
1347          // find xyz-indices of cell that cutoffGroup is in.
# Line 1309 | Line 1366 | namespace OpenMD {
1366          for (int j = 0; j < 3; j++) {
1367            scaled[j] -= roundMe(scaled[j]);
1368            scaled[j] += 0.5;
1369 +          // Handle the special case when an object is exactly on the
1370 +          // boundary (a scaled coordinate of 1.0 is the same as
1371 +          // scaled coordinate of 0.0)
1372 +          if (scaled[j] >= 1.0) scaled[j] -= 1.0;
1373          }
1374          
1375          // find xyz-indices of cell that cutoffGroup is in.
# Line 1335 | Line 1396 | namespace OpenMD {
1396          for (int j = 0; j < 3; j++) {
1397            scaled[j] -= roundMe(scaled[j]);
1398            scaled[j] += 0.5;
1399 +          // Handle the special case when an object is exactly on the
1400 +          // boundary (a scaled coordinate of 1.0 is the same as
1401 +          // scaled coordinate of 0.0)
1402 +          if (scaled[j] >= 1.0) scaled[j] -= 1.0;
1403          }
1404          
1405          // find xyz-indices of cell that cutoffGroup is in.

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