*** empty log message ***

diis.h

@@ -9,6 +9,9 @@
 #include "la_traits.h"
 #include "auxstorage.h"
 
+//Pulay memorial book  remarks - for numerical stabilization small addition to diagonal
+#define DIISEPS 1e-9 
+
 // Typically, T is some solution vector in form of NRVec, NRMat, or NRSMat over double or complex<double> fields
 // actually it can be anything what has operator=(const T&), clear(), dot() , axpy(), norm() and copyonwrite(), and LA_traits<T>::normtype and elementtype
 // and get() and put() if external storage is requested
@@ -22,21 +25,23 @@ class DIIS
 	int cyclicshift; //circular buffer of last dim vectors
 	typedef typename LA_traits<T>::elementtype Te;
 	NRSMat<Te> bmat;
-	AuxStorage<Te> *st;
-	T *stor;
+	AuxStorage<Te> *st, *errst;
+	T *stor, *errstor;
 public:
-	DIIS() {dim=0;}; //for array of diis
+	DIIS() {dim=0; st=NULL; stor=NULL;}; //for array of diis
 	DIIS(const int n, const bool core=1);
 	void setup(const int n, const bool core=1);
 	~DIIS();
-	typename LA_traits<T>::normtype extrapolate(T &vec); //vec is input/output; returns square residual norm
+	typename LA_traits<T>::normtype extrapolate(T &vec, const T &errvec); //vec is input/output; returns square residual norm
 	};
 
 template<typename T>
 DIIS<T>::DIIS(const int n, const bool core) : dim(n), incore(core), bmat(n,n)
 {
 st=incore?NULL: new AuxStorage<Te>;
+errst=incore?NULL: new AuxStorage<Te>;
 stor= incore? new T[dim] : NULL;
+errstor= incore? new T[dim] : NULL;
 bmat= (Te)0; for(int i=1; i<n; ++i) bmat(0,i) = (Te)-1; 
 aktdim=cyclicshift=0;
 }
@@ -48,7 +53,9 @@ dim=n;
 incore=core;
 bmat.resize(n);
 st=incore?NULL: new AuxStorage<Te>;
+errst=incore?NULL: new AuxStorage<Te>;
 stor= incore? new T[dim] : NULL;
+errstor= incore? new T[dim] : NULL;
 bmat= (Te)0; for(int i=1; i<n; ++i) bmat(0,i) = (Te)-1;
 aktdim=cyclicshift=0;
 }
@@ -58,12 +65,15 @@ template<typename T>
 DIIS<T>::~DIIS()
 {
 if(st) delete st;
+if(errst) delete errst;
 if(stor) delete[] stor;
+if(errstor) delete[] errstor;
 }
 
 
+
 template<typename T>
-typename LA_traits<T>::normtype DIIS<T>::extrapolate(T &vec)
+typename LA_traits<T>::normtype DIIS<T>::extrapolate(T &vec, const T &errvec)
 {
 if(!dim) laerror("attempt to extrapolate from uninitialized DIIS");
 //if dim exceeded, shift 
@@ -78,46 +88,44 @@ else
 	++aktdim;
 
 //store vector
-if(incore) stor[(aktdim-1+cyclicshift)%dim]=vec;
-else st->put(vec,(aktdim-1+cyclicshift)%dim);
+if(incore) 
+	{
+	stor[(aktdim-1+cyclicshift)%dim]=vec;
+	errstor[(aktdim-1+cyclicshift)%dim]=errvec;
+	}
+else 
+	{
+	st->put(vec,(aktdim-1+cyclicshift)%dim);
+	errst->put(errvec,(aktdim-1+cyclicshift)%dim);
+	}
 
 if(aktdim==1) return (typename LA_traits<T>::normtype)1000000000;
 
-//calculate difference; 
-vec.copyonwrite();
-if(incore) vec.axpy((Te)-1,stor[(aktdim-2+cyclicshift)%dim]);
-else
-	{
-	T tmp=vec;
-	st->get(tmp,(aktdim-2+cyclicshift)%dim);
-	vec.axpy((Te)-1,tmp);
-	}
 
-//calculate overlaps of differences (if storage is cheap, they could rather be stored than recomputed)
-typename LA_traits<T>::normtype norm=vec.norm();
-bmat(aktdim-1,aktdim-1)= norm*norm;
+//calculate overlaps of the new error with old ones
+typename LA_traits<T>::normtype norm=errvec.norm();
+bmat(aktdim-1,aktdim-1)= norm*norm + DIISEPS;
 if(incore)
 	for(int i=1; i<aktdim-1; ++i) 
-		bmat(i,aktdim-1)=vec.dot(stor[(i+cyclicshift)%dim] - stor[(i-1+cyclicshift)%dim]);
+		bmat(i,aktdim-1)=errvec.dot(errstor[(i+cyclicshift)%dim]);
 else
 	{
-	T tmp=vec;
-	T tmp2=vec; //copy dimensions
-	st->get(tmp2,(0+cyclicshift)%dim);
+	T tmp = vec; tmp.copyonwrite(); //copy dimensions
 	for(int i=1; i<aktdim-1; ++i) 
 		{
 		st->get(tmp,(i+cyclicshift)%dim);
-		tmp2 -= tmp;
-		bmat(i,aktdim-1)= -vec.dot(tmp2);
-		tmp2=tmp;
+		bmat(i,aktdim-1)= errvec.dot(tmp);
 		}
 	}
 
+
 //prepare rhs-solution vector
 NRVec<Te> rhs(dim);
 rhs= (Te)0; rhs[0]= (Te)-1;
 
 //solve for coefficients
+//@@@@@@ implement checking for bad condition number and eliminating old vectors
+//@@@ explicit solution - cf. remarks in Pulay memorial book
 {
 NRSMat<Te> amat=bmat;
 linear_solve(amat,rhs,NULL,aktdim);