[ViewVC] Diff of: OpenMD/branches/development/src/parallel/ForceMatrixDecomposition.cpp

Comparing branches/development/src/parallel/ForceMatrixDecomposition.cpp (file contents):
Revision 1760 by gezelter, Thu Jun 21 19:26:46 2012 UTC vs.
Revision 1855 by gezelter, Tue Apr 2 18:31:51 2013 UTC

#	Line 35 \| Line 35
35		*
36		* [1] Meineke, et al., J. Comp. Chem. 26, 252-271 (2005).
37		* [2] Fennell & Gezelter, J. Chem. Phys. 124, 234104 (2006).
38	<	* [3] Sun, Lin & Gezelter, J. Chem. Phys. 128, 24107 (2008).
38	>	* [3] Sun, Lin & Gezelter, J. Chem. Phys. 128, 234107 (2008).
39		* [4] Kuang & Gezelter, J. Chem. Phys. 133, 164101 (2010).
40		* [5] Vardeman, Stocker & Gezelter, J. Chem. Theory Comput. 7, 834 (2011).
41		*/
#	Line 310 \| Line 310 \| namespace OpenMD {
310
311		RealType tol = 1e-6;
312		largestRcut_ = 0.0;
313	–	RealType rc;
313		int atid;
314		set<AtomType*> atypes = info_->getSimulatedAtomTypes();
315
#	Line 395 \| 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 420 \| 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 477 \| 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 488 \| Line 487 \| namespace OpenMD {
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 559 \| Line 559 \| namespace OpenMD {
559		atomColData.electricField.end(), V3Zero);
560		}
561
562	–	if (storageLayout_ & DataStorage::dslFlucQForce) {
563	–	fill(atomRowData.flucQFrc.begin(), atomRowData.flucQFrc.end(),
564	–	0.0);
565	–	fill(atomColData.flucQFrc.begin(), atomColData.flucQFrc.end(),
566	–	0.0);
567	–	}
568	–
562		#endif
563		// even in parallel, we need to zero out the local arrays:
564
#	Line 639 \| Line 632 \| namespace OpenMD {
632		AtomPlanMatrixColumn->gather(snap_->atomData.aMat,
633		atomColData.aMat);
634		}
635	<
636	<	// if needed, gather the atomic eletrostatic frames
637	<	if (storageLayout_ & DataStorage::dslElectroFrame) {
638	<	AtomPlanMatrixRow->gather(snap_->atomData.electroFrame,
639	<	atomRowData.electroFrame);
640	<	AtomPlanMatrixColumn->gather(snap_->atomData.electroFrame,
641	<	atomColData.electroFrame);
635	>
636	>	// if needed, gather the atomic eletrostatic information
637	>	if (storageLayout_ & DataStorage::dslDipole) {
638	>	AtomPlanVectorRow->gather(snap_->atomData.dipole,
639	>	atomRowData.dipole);
640	>	AtomPlanVectorColumn->gather(snap_->atomData.dipole,
641	>	atomColData.dipole);
642		}
643
644	+	if (storageLayout_ & DataStorage::dslQuadrupole) {
645	+	AtomPlanMatrixRow->gather(snap_->atomData.quadrupole,
646	+	atomRowData.quadrupole);
647	+	AtomPlanMatrixColumn->gather(snap_->atomData.quadrupole,
648	+	atomColData.quadrupole);
649	+	}
650	+
651		// if needed, gather the atomic fluctuating charge values
652		if (storageLayout_ & DataStorage::dslFlucQPosition) {
653		AtomPlanRealRow->gather(snap_->atomData.flucQPos,
#	Line 679 \| Line 679 \| namespace OpenMD {
679		snap_->atomData.density[i] += rho_tmp[i];
680		}
681
682	+	// this isn't necessary if we don't have polarizable atoms, but
683	+	// we'll leave it here for now.
684		if (storageLayout_ & DataStorage::dslElectricField) {
685
686		AtomPlanVectorRow->scatter(atomRowData.electricField,
#	Line 686 \| Line 688 \| namespace OpenMD {
688
689		int n = snap_->atomData.electricField.size();
690		vector<Vector3d> field_tmp(n, V3Zero);
691	<	AtomPlanVectorColumn->scatter(atomColData.electricField, field_tmp);
691	>	AtomPlanVectorColumn->scatter(atomColData.electricField,
692	>	field_tmp);
693		for (int i = 0; i < n; i++)
694		snap_->atomData.electricField[i] += field_tmp[i];
695		}
#	Line 786 \| Line 789 \| namespace OpenMD {
789
790		}
791
792	+	if (storageLayout_ & DataStorage::dslElectricField) {
793	+
794	+	int nef = snap_->atomData.electricField.size();
795	+	vector<Vector3d> efield_tmp(nef, V3Zero);
796	+
797	+	AtomPlanVectorRow->scatter(atomRowData.electricField, efield_tmp);
798	+	for (int i = 0; i < nef; i++) {
799	+	snap_->atomData.electricField[i] += efield_tmp[i];
800	+	efield_tmp[i] = 0.0;
801	+	}
802	+
803	+	AtomPlanVectorColumn->scatter(atomColData.electricField, efield_tmp);
804	+	for (int i = 0; i < nef; i++)
805	+	snap_->atomData.electricField[i] += efield_tmp[i];
806	+	}
807	+
808	+
809		nLocal_ = snap_->getNumberOfAtoms();
810
811		vector<potVec> pot_temp(nLocal_,
#	Line 907 \| Line 927 \| namespace OpenMD {
927		MPI::COMM_WORLD.Allreduce(&ploc1, &ploc2, 1, MPI::REALTYPE, MPI::SUM);
928		embeddingPot[ii] = ploc2;
929		}
930	+	for (int ii = 0; ii < N_INTERACTION_FAMILIES; ii++) {
931	+	RealType ploc1 = excludedSelfPot[ii];
932	+	RealType ploc2 = 0.0;
933	+	MPI::COMM_WORLD.Allreduce(&ploc1, &ploc2, 1, MPI::REALTYPE, MPI::SUM);
934	+	excludedSelfPot[ii] = ploc2;
935	+	}
936		#endif
937
938		}
#	Line 1036 \| Line 1062 \| namespace OpenMD {
1062		* the parallel decomposition.
1063		*/
1064		bool ForceMatrixDecomposition::skipAtomPair(int atom1, int atom2, int cg1, int cg2) {
1065	<	int unique_id_1, unique_id_2, group1, group2;
1065	>	int unique_id_1, unique_id_2;
1066
1067		#ifdef IS_MPI
1068		// in MPI, we have to look up the unique IDs for each atom
1069		unique_id_1 = AtomRowToGlobal[atom1];
1070		unique_id_2 = AtomColToGlobal[atom2];
1071	<	group1 = cgRowToGlobal[cg1];
1072	<	group2 = cgColToGlobal[cg2];
1071	>	// group1 = cgRowToGlobal[cg1];
1072	>	// group2 = cgColToGlobal[cg2];
1073		#else
1074		unique_id_1 = AtomLocalToGlobal[atom1];
1075		unique_id_2 = AtomLocalToGlobal[atom2];
1076	<	group1 = cgLocalToGlobal[cg1];
1077	<	group2 = cgLocalToGlobal[cg2];
1076	>	int group1 = cgLocalToGlobal[cg1];
1077	>	int group2 = cgLocalToGlobal[cg2];
1078		#endif
1079
1080		if (unique_id_1 == unique_id_2) return true;
#	Line 1126 \| Line 1152 \| namespace OpenMD {
1152		idat.A2 = &(atomColData.aMat[atom2]);
1153		}
1154
1129	–	if (storageLayout_ & DataStorage::dslElectroFrame) {
1130	–	idat.eFrame1 = &(atomRowData.electroFrame[atom1]);
1131	–	idat.eFrame2 = &(atomColData.electroFrame[atom2]);
1132	–	}
1133	–
1155		if (storageLayout_ & DataStorage::dslTorque) {
1156		idat.t1 = &(atomRowData.torque[atom1]);
1157		idat.t2 = &(atomColData.torque[atom2]);
1158		}
1159
1160	+	if (storageLayout_ & DataStorage::dslDipole) {
1161	+	idat.dipole1 = &(atomRowData.dipole[atom1]);
1162	+	idat.dipole2 = &(atomColData.dipole[atom2]);
1163	+	}
1164	+
1165	+	if (storageLayout_ & DataStorage::dslQuadrupole) {
1166	+	idat.quadrupole1 = &(atomRowData.quadrupole[atom1]);
1167	+	idat.quadrupole2 = &(atomColData.quadrupole[atom2]);
1168	+	}
1169	+
1170		if (storageLayout_ & DataStorage::dslDensity) {
1171		idat.rho1 = &(atomRowData.density[atom1]);
1172		idat.rho2 = &(atomColData.density[atom2]);
#	Line 1175 \| Line 1206 \| namespace OpenMD {
1206		idat.A2 = &(snap_->atomData.aMat[atom2]);
1207		}
1208
1178	–	if (storageLayout_ & DataStorage::dslElectroFrame) {
1179	–	idat.eFrame1 = &(snap_->atomData.electroFrame[atom1]);
1180	–	idat.eFrame2 = &(snap_->atomData.electroFrame[atom2]);
1181	–	}
1182	–
1209		if (storageLayout_ & DataStorage::dslTorque) {
1210		idat.t1 = &(snap_->atomData.torque[atom1]);
1211		idat.t2 = &(snap_->atomData.torque[atom2]);
1212		}
1213
1214	+	if (storageLayout_ & DataStorage::dslDipole) {
1215	+	idat.dipole1 = &(snap_->atomData.dipole[atom1]);
1216	+	idat.dipole2 = &(snap_->atomData.dipole[atom2]);
1217	+	}
1218	+
1219	+	if (storageLayout_ & DataStorage::dslQuadrupole) {
1220	+	idat.quadrupole1 = &(snap_->atomData.quadrupole[atom1]);
1221	+	idat.quadrupole2 = &(snap_->atomData.quadrupole[atom2]);
1222	+	}
1223	+
1224		if (storageLayout_ & DataStorage::dslDensity) {
1225		idat.rho1 = &(snap_->atomData.density[atom1]);
1226		idat.rho2 = &(snap_->atomData.density[atom2]);
#	Line 1289 \| Line 1325 \| namespace OpenMD {
1325		#endif
1326
1327		RealType rList_ = (largestRcut_ + skinThickness_);
1292	–	RealType rl2 = rList_ * rList_;
1328		Snapshot* snap_ = sman_->getCurrentSnapshot();
1329		Mat3x3d Hmat = snap_->getHmat();
1330		Vector3d Hx = Hmat.getColumn(0);
#	Line 1333 \| Line 1368 \| namespace OpenMD {
1368		for (int j = 0; j < 3; j++) {
1369		scaled[j] -= roundMe(scaled[j]);
1370		scaled[j] += 0.5;
1371	+	// Handle the special case when an object is exactly on the
1372	+	// boundary (a scaled coordinate of 1.0 is the same as
1373	+	// scaled coordinate of 0.0)
1374	+	if (scaled[j] >= 1.0) scaled[j] -= 1.0;
1375		}
1376
1377		// find xyz-indices of cell that cutoffGroup is in.
#	Line 1357 \| 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.
#	Line 1383 \| Line 1426 \| namespace OpenMD {
1426		for (int j = 0; j < 3; j++) {
1427		scaled[j] -= roundMe(scaled[j]);
1428		scaled[j] += 0.5;
1429	+	// Handle the special case when an object is exactly on the
1430	+	// boundary (a scaled coordinate of 1.0 is the same as
1431	+	// scaled coordinate of 0.0)
1432	+	if (scaled[j] >= 1.0) scaled[j] -= 1.0;
1433		}
1434
1435		// find xyz-indices of cell that cutoffGroup is in.

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Comparing branches/development/src/parallel/ForceMatrixDecomposition.cpp (file contents): Revision 1760 by gezelter, Thu Jun 21 19:26:46 2012 UTC vs. Revision 1855 by gezelter, Tue Apr 2 18:31:51 2013 UTC

Diff Legend

Comparing branches/development/src/parallel/ForceMatrixDecomposition.cpp (file contents):
Revision 1760 by gezelter, Thu Jun 21 19:26:46 2012 UTC vs.
Revision 1855 by gezelter, Tue Apr 2 18:31:51 2013 UTC