[ViewVC] Diff of: OpenMD/trunk/src/integrators/NPTi.cpp

Comparing trunk/src/integrators/NPTi.cpp (file contents):
Revision 246 by gezelter, Wed Jan 12 22:41:40 2005 UTC vs.
Revision 963 by tim, Wed May 17 21:51:42 2006 UTC

#	Line 1 \| Line 1
1	<	/*
1	>	/*
2		* Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3		*
4		* The University of Notre Dame grants you ("Licensee") a
#	Line 49 \| Line 49 \| namespace oopse {
49
50		namespace oopse {
51
52	<	// Basic isotropic thermostating and barostating via the Melchionna
53	<	// modification of the Hoover algorithm:
54	<	//
55	<	// Melchionna, S., Ciccotti, G., and Holian, B. L., 1993,
56	<	// Molec. Phys., 78, 533.
57	<	//
58	<	// and
59	<	//
60	<	// Hoover, W. G., 1986, Phys. Rev. A, 34, 2499.
52	>	// Basic isotropic thermostating and barostating via the Melchionna
53	>	// modification of the Hoover algorithm:
54	>	//
55	>	// Melchionna, S., Ciccotti, G., and Holian, B. L., 1993,
56	>	// Molec. Phys., 78, 533.
57	>	//
58	>	// and
59	>	//
60	>	// Hoover, W. G., 1986, Phys. Rev. A, 34, 2499.
61
62	<	NPTi::NPTi ( SimInfo *info) : NPT(info){
62	>	NPTi::NPTi ( SimInfo *info) : NPT(info){
63
64	<	}
64	>	}
65
66	<	void NPTi::evolveEtaA() {
66	>	void NPTi::evolveEtaA() {
67		eta += dt2 * ( instaVol * (instaPress - targetPressure) /
68	<	(OOPSEConstant::pressureConvertNkBTtb2));
68	>	(OOPSEConstant::pressureConvertNkBTtb2));
69		oldEta = eta;
70	<	}
70	>	}
71
72	<	void NPTi::evolveEtaB() {
72	>	void NPTi::evolveEtaB() {
73
74		prevEta = eta;
75		eta = oldEta + dt2 * ( instaVol * (instaPress - targetPressure) /
76	<	(OOPSEConstant::pressureConvertNkBTtb2));
77	<	}
76	>	(OOPSEConstant::pressureConvertNkBTtb2));
77	>	}
78
79	<	void NPTi::calcVelScale() {
79	>	void NPTi::calcVelScale() {
80		vScale = chi + eta;
81	<	}
81	>	}
82
83	<	void NPTi::getVelScaleA(Vector3d& sc, const Vector3d& vel) {
83	>	void NPTi::getVelScaleA(Vector3d& sc, const Vector3d& vel) {
84		sc = vel * vScale;
85	<	}
85	>	}
86
87	<	void NPTi::getVelScaleB(Vector3d& sc, int index ){
87	>	void NPTi::getVelScaleB(Vector3d& sc, int index ){
88		sc = oldVel[index] * vScale;
89	<	}
89	>	}
90
91
92	<	void NPTi::getPosScale(const Vector3d& pos, const Vector3d& COM,
93	<	int index, Vector3d& sc){
92	>	void NPTi::getPosScale(const Vector3d& pos, const Vector3d& COM,
93	>	int index, Vector3d& sc){
94		/*@todo/
95	<	sc = (oldPos[index] + pos)/2.0 -COM;
95	>	sc = (oldPos[index] + pos)/(RealType)2.0 -COM;
96		sc *= eta;
97	<	}
97	>	}
98
99	<	void NPTi::scaleSimBox(){
99	>	void NPTi::scaleSimBox(){
100
101	<	double scaleFactor;
101	>	RealType scaleFactor;
102
103		scaleFactor = exp(dt*eta);
104
105		if ((scaleFactor > 1.1) \|\| (scaleFactor < 0.9)) {
106	<	sprintf( painCave.errMsg,
107	<	"NPTi error: Attempting a Box scaling of more than 10 percent"
108	<	" check your tauBarostat, as it is probably too small!\n"
109	<	" eta = %lf, scaleFactor = %lf\n", eta, scaleFactor
110	<	);
111	<	painCave.isFatal = 1;
112	<	simError();
106	>	sprintf( painCave.errMsg,
107	>	"NPTi error: Attempting a Box scaling of more than 10 percent"
108	>	" check your tauBarostat, as it is probably too small!\n"
109	>	" eta = %lf, scaleFactor = %lf\n", eta, scaleFactor
110	>	);
111	>	painCave.isFatal = 1;
112	>	simError();
113		} else {
114	<	Mat3x3d hmat = currentSnapshot_->getHmat();
115	<	hmat *= scaleFactor;
116	<	currentSnapshot_->setHmat(hmat);
114	>	Mat3x3d hmat = currentSnapshot_->getHmat();
115	>	hmat *= scaleFactor;
116	>	currentSnapshot_->setHmat(hmat);
117		}
118
119	<	}
119	>	}
120
121	<	bool NPTi::etaConverged() {
121	>	bool NPTi::etaConverged() {
122
123		return ( fabs(prevEta - eta) <= etaTolerance );
124	<	}
124	>	}
125
126	<	double NPTi::calcConservedQuantity(){
126	>	RealType NPTi::calcConservedQuantity(){
127
128		chi= currentSnapshot_->getChi();
129		integralOfChidt = currentSnapshot_->getIntegralOfChiDt();
#	Line 138 \| Line 138 \| double NPTi::calcConservedQuantity(){
138		// of freedom).
139		fkBT = info_->getNdf()OOPSEConstant::kB targetTemp;
140
141	<	double conservedQuantity;
142	<	double Energy;
143	<	double thermostat_kinetic;
144	<	double thermostat_potential;
145	<	double barostat_kinetic;
146	<	double barostat_potential;
141	>	RealType conservedQuantity;
142	>	RealType Energy;
143	>	RealType thermostat_kinetic;
144	>	RealType thermostat_potential;
145	>	RealType barostat_kinetic;
146	>	RealType barostat_potential;
147
148		Energy =thermo.getTotalE();
149
#	Line 155 \| Line 155 \| double NPTi::calcConservedQuantity(){
155		barostat_kinetic = 3.0 * NkBT * tb2 * eta * eta /(2.0 * OOPSEConstant::energyConvert);
156
157		barostat_potential = (targetPressure * thermo.getVolume() / OOPSEConstant::pressureConvert) /
158	<	OOPSEConstant::energyConvert;
158	>	OOPSEConstant::energyConvert;
159
160		conservedQuantity = Energy + thermostat_kinetic + thermostat_potential +
161	<	barostat_kinetic + barostat_potential;
161	>	barostat_kinetic + barostat_potential;
162
163		return conservedQuantity;
164	<	}
164	>	}
165
166	<	void NPTi::loadEta() {
166	>	void NPTi::loadEta() {
167		Mat3x3d etaMat = currentSnapshot_->getEta();
168		eta = etaMat(0,0);
169		//if (fabs(etaMat(1,1) - eta) >= oopse::epsilon \|\| fabs(etaMat(1,1) - eta) >= oopse::epsilon \|\| !etaMat.isDiagonal()) {
#	Line 172 \| Line 172 \| void NPTi::loadEta() {
172		// painCave.isFatal = 1;
173		// simError();
174		//}
175	<	}
175	>	}
176
177	<	void NPTi::saveEta() {
177	>	void NPTi::saveEta() {
178		Mat3x3d etaMat(0.0);
179		etaMat(0, 0) = eta;
180		etaMat(1, 1) = eta;
181		etaMat(2, 2) = eta;
182		currentSnapshot_->setEta(etaMat);
183	+	}
184		}
184	–
185	–	}

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Comparing trunk/src/integrators/NPTi.cpp (file contents): Revision 246 by gezelter, Wed Jan 12 22:41:40 2005 UTC vs. Revision 963 by tim, Wed May 17 21:51:42 2006 UTC

Diff Legend

Comparing trunk/src/integrators/NPTi.cpp (file contents):
Revision 246 by gezelter, Wed Jan 12 22:41:40 2005 UTC vs.
Revision 963 by tim, Wed May 17 21:51:42 2006 UTC