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

Comparing branches/development/src/parallel/ForceMatrixDecomposition.cpp (file contents):
Revision 1550 by gezelter, Wed Apr 27 18:38:15 2011 UTC vs.
Revision 1551 by gezelter, Thu Apr 28 18:38:21 2011 UTC

#	Line 52 \| Line 52 \| namespace OpenMD {
52		*/
53
54		void ForceMatrixDecomposition::distributeInitialData() {
55	+	snap_ = sman_->getCurrentSnapshot();
56	+	storageLayout_ = sman_->getStorageLayout();
57		#ifdef IS_MPI
58	<	Snapshot* snap = sman_->getCurrentSnapshot();
59	<	int nLocal = snap->getNumberOfAtoms();
60	<	int nGroups = snap->getNumberOfCutoffGroups();
59	<
58	>	int nLocal = snap_->getNumberOfAtoms();
59	>	int nGroups = snap_->getNumberOfCutoffGroups();
60	>
61		AtomCommIntRow = new Communicator<Row,int>(nLocal);
62		AtomCommRealRow = new Communicator<Row,RealType>(nLocal);
63		AtomCommVectorRow = new Communicator<Row,Vector3d>(nLocal);
#	Line 76 \| Line 77 \| namespace OpenMD {
77		int nAtomsInCol = AtomCommIntColumn->getSize();
78		int nGroupsInRow = cgCommIntRow->getSize();
79		int nGroupsInCol = cgCommIntColumn->getSize();
80	+
81	+	// Modify the data storage objects with the correct layouts and sizes:
82	+	atomRowData.resize(nAtomsInRow);
83	+	atomRowData.setStorageLayout(storageLayout_);
84	+	atomColData.resize(nAtomsInCol);
85	+	atomColData.setStorageLayout(storageLayout_);
86	+	cgRowData.resize(nGroupsInRow);
87	+	cgRowData.setStorageLayout(DataStorage::dslPosition);
88	+	cgColData.resize(nGroupsInCol);
89	+	cgColData.setStorageLayout(DataStorage::dslPosition);
90
91		vector<vector<RealType> > pot_row(N_INTERACTION_FAMILIES,
92		vector<RealType> (nAtomsInRow, 0.0));
93		vector<vector<RealType> > pot_col(N_INTERACTION_FAMILIES,
94		vector<RealType> (nAtomsInCol, 0.0));
95	<
95	>
96	>
97		vector<RealType> pot_local(N_INTERACTION_FAMILIES, 0.0);
98
99		// gather the information for atomtype IDs (atids):
#	Line 109 \| Line 121 \| namespace OpenMD {
121
122
123		void ForceMatrixDecomposition::distributeData() {
124	+	snap_ = sman_->getCurrentSnapshot();
125	+	storageLayout_ = sman_->getStorageLayout();
126		#ifdef IS_MPI
113	–	Snapshot* snap = sman_->getCurrentSnapshot();
127
128		// gather up the atomic positions
129	<	AtomCommVectorRow->gather(snap->atomData.position,
130	<	snap->atomIData.position);
131	<	AtomCommVectorColumn->gather(snap->atomData.position,
132	<	snap->atomJData.position);
129	>	AtomCommVectorRow->gather(snap_->atomData.position,
130	>	atomRowData.position);
131	>	AtomCommVectorColumn->gather(snap_->atomData.position,
132	>	atomColData.position);
133
134		// gather up the cutoff group positions
135	<	cgCommVectorRow->gather(snap->cgData.position,
136	<	snap->cgIData.position);
137	<	cgCommVectorColumn->gather(snap->cgData.position,
138	<	snap->cgJData.position);
135	>	cgCommVectorRow->gather(snap_->cgData.position,
136	>	cgRowData.position);
137	>	cgCommVectorColumn->gather(snap_->cgData.position,
138	>	cgColData.position);
139
140		// if needed, gather the atomic rotation matrices
141	<	if (snap->atomData.getStorageLayout() & DataStorage::dslAmat) {
142	<	AtomCommMatrixRow->gather(snap->atomData.aMat,
143	<	snap->atomIData.aMat);
144	<	AtomCommMatrixColumn->gather(snap->atomData.aMat,
145	<	snap->atomJData.aMat);
141	>	if (storageLayout_ & DataStorage::dslAmat) {
142	>	AtomCommMatrixRow->gather(snap_->atomData.aMat,
143	>	atomRowData.aMat);
144	>	AtomCommMatrixColumn->gather(snap_->atomData.aMat,
145	>	atomColData.aMat);
146		}
147
148		// if needed, gather the atomic eletrostatic frames
149	<	if (snap->atomData.getStorageLayout() & DataStorage::dslElectroFrame) {
150	<	AtomCommMatrixRow->gather(snap->atomData.electroFrame,
151	<	snap->atomIData.electroFrame);
152	<	AtomCommMatrixColumn->gather(snap->atomData.electroFrame,
153	<	snap->atomJData.electroFrame);
149	>	if (storageLayout_ & DataStorage::dslElectroFrame) {
150	>	AtomCommMatrixRow->gather(snap_->atomData.electroFrame,
151	>	atomRowData.electroFrame);
152	>	AtomCommMatrixColumn->gather(snap_->atomData.electroFrame,
153	>	atomColData.electroFrame);
154		}
155		#endif
156		}
157
158		void ForceMatrixDecomposition::collectIntermediateData() {
159	+	snap_ = sman_->getCurrentSnapshot();
160	+	storageLayout_ = sman_->getStorageLayout();
161		#ifdef IS_MPI
147	–	Snapshot* snap = sman_->getCurrentSnapshot();
162
163	<	if (snap->atomData.getStorageLayout() & DataStorage::dslDensity) {
164	<
165	<	AtomCommRealRow->scatter(snap->atomIData.density,
166	<	snap->atomData.density);
167	<
168	<	int n = snap->atomData.density.size();
163	>	if (storageLayout_ & DataStorage::dslDensity) {
164	>
165	>	AtomCommRealRow->scatter(atomRowData.density,
166	>	snap_->atomData.density);
167	>
168	>	int n = snap_->atomData.density.size();
169		std::vector<RealType> rho_tmp(n, 0.0);
170	<	AtomCommRealColumn->scatter(snap->atomJData.density, rho_tmp);
170	>	AtomCommRealColumn->scatter(atomColData.density, rho_tmp);
171		for (int i = 0; i < n; i++)
172	<	snap->atomData.density[i] += rho_tmp[i];
172	>	snap_->atomData.density[i] += rho_tmp[i];
173		}
174		#endif
175		}
176
177		void ForceMatrixDecomposition::distributeIntermediateData() {
178	+	snap_ = sman_->getCurrentSnapshot();
179	+	storageLayout_ = sman_->getStorageLayout();
180		#ifdef IS_MPI
181	<	Snapshot* snap = sman_->getCurrentSnapshot();
182	<	if (snap->atomData.getStorageLayout() & DataStorage::dslFunctional) {
183	<	AtomCommRealRow->gather(snap->atomData.functional,
184	<	snap->atomIData.functional);
185	<	AtomCommRealColumn->gather(snap->atomData.functional,
170	<	snap->atomJData.functional);
181	>	if (storageLayout_ & DataStorage::dslFunctional) {
182	>	AtomCommRealRow->gather(snap_->atomData.functional,
183	>	atomRowData.functional);
184	>	AtomCommRealColumn->gather(snap_->atomData.functional,
185	>	atomColData.functional);
186		}
187
188	<	if (snap->atomData.getStorageLayout() & DataStorage::dslFunctionalDerivative) {
189	<	AtomCommRealRow->gather(snap->atomData.functionalDerivative,
190	<	snap->atomIData.functionalDerivative);
191	<	AtomCommRealColumn->gather(snap->atomData.functionalDerivative,
192	<	snap->atomJData.functionalDerivative);
188	>	if (storageLayout_ & DataStorage::dslFunctionalDerivative) {
189	>	AtomCommRealRow->gather(snap_->atomData.functionalDerivative,
190	>	atomRowData.functionalDerivative);
191	>	AtomCommRealColumn->gather(snap_->atomData.functionalDerivative,
192	>	atomColData.functionalDerivative);
193		}
194		#endif
195		}
196
197
198		void ForceMatrixDecomposition::collectData() {
199	<	#ifdef IS_MPI
200	<	Snapshot* snap = sman_->getCurrentSnapshot();
201	<
202	<	int n = snap->atomData.force.size();
199	>	snap_ = sman_->getCurrentSnapshot();
200	>	storageLayout_ = sman_->getStorageLayout();
201	>	#ifdef IS_MPI
202	>	int n = snap_->atomData.force.size();
203		vector<Vector3d> frc_tmp(n, V3Zero);
204
205	<	AtomCommVectorRow->scatter(snap->atomIData.force, frc_tmp);
205	>	AtomCommVectorRow->scatter(atomRowData.force, frc_tmp);
206		for (int i = 0; i < n; i++) {
207	<	snap->atomData.force[i] += frc_tmp[i];
207	>	snap_->atomData.force[i] += frc_tmp[i];
208		frc_tmp[i] = 0.0;
209		}
210
211	<	AtomCommVectorColumn->scatter(snap->atomJData.force, frc_tmp);
211	>	AtomCommVectorColumn->scatter(atomColData.force, frc_tmp);
212		for (int i = 0; i < n; i++)
213	<	snap->atomData.force[i] += frc_tmp[i];
213	>	snap_->atomData.force[i] += frc_tmp[i];
214
215
216	<	if (snap->atomData.getStorageLayout() & DataStorage::dslTorque) {
216	>	if (storageLayout_ & DataStorage::dslTorque) {
217
218	<	int nt = snap->atomData.force.size();
218	>	int nt = snap_->atomData.force.size();
219		vector<Vector3d> trq_tmp(nt, V3Zero);
220
221	<	AtomCommVectorRow->scatter(snap->atomIData.torque, trq_tmp);
221	>	AtomCommVectorRow->scatter(atomRowData.torque, trq_tmp);
222		for (int i = 0; i < n; i++) {
223	<	snap->atomData.torque[i] += trq_tmp[i];
223	>	snap_->atomData.torque[i] += trq_tmp[i];
224		trq_tmp[i] = 0.0;
225		}
226
227	<	AtomCommVectorColumn->scatter(snap->atomJData.torque, trq_tmp);
227	>	AtomCommVectorColumn->scatter(atomColData.torque, trq_tmp);
228		for (int i = 0; i < n; i++)
229	<	snap->atomData.torque[i] += trq_tmp[i];
229	>	snap_->atomData.torque[i] += trq_tmp[i];
230		}
231
232	<	int nLocal = snap->getNumberOfAtoms();
232	>	int nLocal = snap_->getNumberOfAtoms();
233
234		vector<vector<RealType> > pot_temp(N_INTERACTION_FAMILIES,
235		vector<RealType> (nLocal, 0.0));
#	Line 227 \| Line 242 \| namespace OpenMD {
242		}
243		#endif
244		}
245	+
246
247	+	Vector3d ForceMatrixDecomposition::getIntergroupVector(int cg1, int cg2){
248	+	Vector3d d;
249	+
250	+	#ifdef IS_MPI
251	+	d = cgColData.position[cg2] - cgRowData.position[cg1];
252	+	#else
253	+	d = snap_->cgData.position[cg2] - snap_->cgData.position[cg1];
254	+	#endif
255	+
256	+	snap_->wrapVector(d);
257	+	return d;
258	+	}
259	+
260	+
261	+	Vector3d ForceMatrixDecomposition::getAtomToGroupVectorRow(int atom1, int cg1){
262	+
263	+	Vector3d d;
264	+
265	+	#ifdef IS_MPI
266	+	d = cgRowData.position[cg1] - atomRowData.position[atom1];
267	+	#else
268	+	d = snap_->cgData.position[cg1] - snap_->atomData.position[atom1];
269	+	#endif
270	+
271	+	snap_->wrapVector(d);
272	+	return d;
273	+	}
274	+
275	+	Vector3d ForceMatrixDecomposition::getAtomToGroupVectorColumn(int atom2, int cg2){
276	+	Vector3d d;
277	+
278	+	#ifdef IS_MPI
279	+	d = cgColData.position[cg2] - atomColData.position[atom2];
280	+	#else
281	+	d = snap_->cgData.position[cg2] - snap_->atomData.position[atom2];
282	+	#endif
283	+
284	+	snap_->wrapVector(d);
285	+	return d;
286	+	}
287	+
288	+	Vector3d ForceMatrixDecomposition::getInteratomicVector(int atom1, int atom2){
289	+	Vector3d d;
290	+
291	+	#ifdef IS_MPI
292	+	d = atomColData.position[atom2] - atomRowData.position[atom1];
293	+	#else
294	+	d = snap_->atomData.position[atom2] - snap_->atomData.position[atom1];
295	+	#endif
296	+
297	+	snap_->wrapVector(d);
298	+	return d;
299	+	}
300	+
301	+	void ForceMatrixDecomposition::addForceToAtomRow(int atom1, Vector3d fg){
302	+	#ifdef IS_MPI
303	+	atomRowData.force[atom1] += fg;
304	+	#else
305	+	snap_->atomData.force[atom1] += fg;
306	+	#endif
307	+	}
308	+
309	+	void ForceMatrixDecomposition::addForceToAtomColumn(int atom2, Vector3d fg){
310	+	#ifdef IS_MPI
311	+	atomColData.force[atom2] += fg;
312	+	#else
313	+	snap_->atomData.force[atom2] += fg;
314	+	#endif
315	+
316	+	}
317	+
318	+	// filling interaction blocks with pointers
319	+	InteractionData ForceMatrixDecomposition::fillInteractionData(int atom1, int atom2) {
320	+
321	+	InteractionData idat;
322	+	#ifdef IS_MPI
323	+	if (storageLayout_ & DataStorage::dslAmat) {
324	+	idat.A1 = atomRowData.aMat[atom1];
325	+	idat.A2 = atomColData.aMat[atom2];
326	+	}
327	+
328	+	if (storageLayout_ & DataStorage::dslElectroFrame) {
329	+	idat.eFrame1 = atomRowData.electroFrame[atom1];
330	+	idat.eFrame2 = atomColData.electroFrame[atom2];
331	+	}
332	+
333	+	if (storageLayout_ & DataStorage::dslTorque) {
334	+	idat.t1 = atomRowData.torque[atom1];
335	+	idat.t2 = atomColData.torque[atom2];
336	+	}
337	+
338	+	if (storageLayout_ & DataStorage::dslDensity) {
339	+	idat.rho1 = atomRowData.density[atom1];
340	+	idat.rho2 = atomColData.density[atom2];
341	+	}
342	+
343	+	if (storageLayout_ & DataStorage::dslFunctionalDerivative) {
344	+	idat.dfrho1 = atomRowData.functionalDerivative[atom1];
345	+	idat.dfrho2 = atomColData.functionalDerivative[atom2];
346	+	}
347	+	#endif
348	+
349	+	}
350	+	InteractionData ForceMatrixDecomposition::fillSkipData(int atom1, int atom2){
351	+	}
352	+	SelfData ForceMatrixDecomposition::fillSelfData(int atom1) {
353	+	}
354	+
355	+
356		} //end namespace OpenMD

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Comparing branches/development/src/parallel/ForceMatrixDecomposition.cpp (file contents): Revision 1550 by gezelter, Wed Apr 27 18:38:15 2011 UTC vs. Revision 1551 by gezelter, Thu Apr 28 18:38:21 2011 UTC

Diff Legend

Comparing branches/development/src/parallel/ForceMatrixDecomposition.cpp (file contents):
Revision 1550 by gezelter, Wed Apr 27 18:38:15 2011 UTC vs.
Revision 1551 by gezelter, Thu Apr 28 18:38:21 2011 UTC