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ADEF1 and ADEF2 2 level CG
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@ -42,46 +42,30 @@ Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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*/
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*/
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NAMESPACE_BEGIN(Grid);
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NAMESPACE_BEGIN(Grid);
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template<class Field, class CoarseField, class Aggregation>
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template<class Field>
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class TwoLevelADEF2 : public LinearFunction<Field>
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class TwoLevelCG : public LinearFunction<Field>
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{
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{
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public:
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public:
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RealD Tolerance;
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RealD Tolerance;
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Integer MaxIterations;
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Integer MaxIterations;
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const int mmax = 1;
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GridBase *grid;
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GridBase *grid;
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GridBase *coarsegrid;
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// Fine operator, Smoother, CoarseSolver
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// Fine operator, Smoother, CoarseSolver
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LinearOperatorBase<Field> &_FineLinop;
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LinearOperatorBase<Field> &_FineLinop;
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LinearFunction<Field> &_Smoother;
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LinearFunction<Field> &_Smoother;
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LinearFunction<CoarseField> &_CoarseSolver;
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LinearFunction<CoarseField> &_CoarseSolverPrecise;
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// Need something that knows how to get from Coarse to fine and back again
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// void ProjectToSubspace(CoarseVector &CoarseVec,const FineField &FineVec){
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// void PromoteFromSubspace(const CoarseVector &CoarseVec,FineField &FineVec){
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Aggregation &_Aggregates;
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// more most opertor functions
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// more most opertor functions
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TwoLevelADEF2(RealD tol,
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TwoLevelCG(RealD tol,
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Integer maxit,
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Integer maxit,
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LinearOperatorBase<Field> &FineLinop,
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LinearOperatorBase<Field> &FineLinop,
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LinearFunction<Field> &Smoother,
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LinearFunction<Field> &Smoother,
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LinearFunction<CoarseField> &CoarseSolver,
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GridBase *fine) :
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LinearFunction<CoarseField> &CoarseSolverPrecise,
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Aggregation &Aggregates
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) :
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Tolerance(tol),
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Tolerance(tol),
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MaxIterations(maxit),
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MaxIterations(maxit),
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_FineLinop(FineLinop),
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_FineLinop(FineLinop),
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_Smoother(Smoother),
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_Smoother(Smoother)
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_CoarseSolver(CoarseSolver),
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_CoarseSolverPrecise(CoarseSolverPrecise),
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_Aggregates(Aggregates)
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{
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{
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coarsegrid = Aggregates.CoarseGrid;
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grid = fine;
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grid = Aggregates.FineGrid;
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};
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};
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virtual void operator() (const Field &src, Field &psi)
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virtual void operator() (const Field &src, Field &psi)
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@ -195,47 +179,8 @@ class TwoLevelADEF2 : public LinearFunction<Field>
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public:
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public:
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virtual void PcgM1(Field & in, Field & out)
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virtual void PcgM1(Field & in, Field & out) =0;
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{
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virtual void Vstart(Field & x,const Field & src)=0;
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// [PTM+Q] in = [1 - Q A] M in + Q in = Min + Q [ in -A Min]
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Field tmp(grid);
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Field Min(grid);
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CoarseField PleftProj(coarsegrid);
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CoarseField PleftMss_proj(coarsegrid);
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GridStopWatch SmootherTimer;
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GridStopWatch MatrixTimer;
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SmootherTimer.Start();
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_Smoother(in,Min);
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SmootherTimer.Stop();
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MatrixTimer.Start();
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_FineLinop.HermOp(Min,out);
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MatrixTimer.Stop();
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axpy(tmp,-1.0,out,in); // tmp = in - A Min
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GridStopWatch ProjTimer;
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GridStopWatch CoarseTimer;
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GridStopWatch PromTimer;
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ProjTimer.Start();
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_Aggregates.ProjectToSubspace(PleftProj,tmp);
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ProjTimer.Stop();
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CoarseTimer.Start();
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_CoarseSolver(PleftProj,PleftMss_proj); // Ass^{-1} [in - A Min]_s
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CoarseTimer.Stop();
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PromTimer.Start();
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_Aggregates.PromoteFromSubspace(PleftMss_proj,tmp);// tmp = Q[in - A Min]
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PromTimer.Stop();
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std::cout << GridLogMessage << "PcgM1 breakdown "<<std::endl;
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std::cout << GridLogMessage << "\tSmoother " << SmootherTimer.Elapsed() <<std::endl;
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std::cout << GridLogMessage << "\tMatrix " << MatrixTimer.Elapsed() <<std::endl;
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std::cout << GridLogMessage << "\tProj " << ProjTimer.Elapsed() <<std::endl;
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std::cout << GridLogMessage << "\tCoarse " << CoarseTimer.Elapsed() <<std::endl;
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std::cout << GridLogMessage << "\tProm " << PromTimer.Elapsed() <<std::endl;
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axpy(out,1.0,Min,tmp); // Min+tmp
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}
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virtual void PcgM2(const Field & in, Field & out) {
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virtual void PcgM2(const Field & in, Field & out) {
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out=in;
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out=in;
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@ -249,6 +194,89 @@ class TwoLevelADEF2 : public LinearFunction<Field>
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return dd;
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return dd;
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}
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}
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/////////////////////////////////////////////////////////////////////
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// Only Def1 has non-trivial Vout.
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/////////////////////////////////////////////////////////////////////
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virtual void Vout (Field & in, Field & out,Field & src){
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out = in;
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}
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};
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template<class Field, class CoarseField, class Aggregation>
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class TwoLevelADEF2 : public TwoLevelCG<Field>
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{
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public:
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///////////////////////////////////////////////////////////////////////////////////
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// Need something that knows how to get from Coarse to fine and back again
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// void ProjectToSubspace(CoarseVector &CoarseVec,const FineField &FineVec){
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// void PromoteFromSubspace(const CoarseVector &CoarseVec,FineField &FineVec){
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///////////////////////////////////////////////////////////////////////////////////
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GridBase *coarsegrid;
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Aggregation &_Aggregates;
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LinearFunction<CoarseField> &_CoarseSolver;
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LinearFunction<CoarseField> &_CoarseSolverPrecise;
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///////////////////////////////////////////////////////////////////////////////////
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// more most opertor functions
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TwoLevelADEF2(RealD tol,
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Integer maxit,
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LinearOperatorBase<Field> &FineLinop,
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LinearFunction<Field> &Smoother,
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LinearFunction<CoarseField> &CoarseSolver,
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LinearFunction<CoarseField> &CoarseSolverPrecise,
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Aggregation &Aggregates
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) :
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TwoLevelCG<Field>(tol,maxit,FineLinop,Smoother,Aggregates.FineGrid),
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_CoarseSolver(CoarseSolver),
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_CoarseSolverPrecise(CoarseSolverPrecise),
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_Aggregates(Aggregates)
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{
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coarsegrid = Aggregates.CoarseGrid;
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};
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virtual void PcgM1(Field & in, Field & out)
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{
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// [PTM+Q] in = [1 - Q A] M in + Q in = Min + Q [ in -A Min]
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Field tmp(this->grid);
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Field Min(this->grid);
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CoarseField PleftProj(this->coarsegrid);
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CoarseField PleftMss_proj(this->coarsegrid);
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GridStopWatch SmootherTimer;
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GridStopWatch MatrixTimer;
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SmootherTimer.Start();
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this->_Smoother(in,Min);
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SmootherTimer.Stop();
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MatrixTimer.Start();
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this->_FineLinop.HermOp(Min,out);
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MatrixTimer.Stop();
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axpy(tmp,-1.0,out,in); // tmp = in - A Min
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GridStopWatch ProjTimer;
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GridStopWatch CoarseTimer;
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GridStopWatch PromTimer;
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ProjTimer.Start();
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this->_Aggregates.ProjectToSubspace(PleftProj,tmp);
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ProjTimer.Stop();
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CoarseTimer.Start();
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this->_CoarseSolver(PleftProj,PleftMss_proj); // Ass^{-1} [in - A Min]_s
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CoarseTimer.Stop();
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PromTimer.Start();
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this->_Aggregates.PromoteFromSubspace(PleftMss_proj,tmp);// tmp = Q[in - A Min]
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PromTimer.Stop();
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std::cout << GridLogPerformance << "PcgM1 breakdown "<<std::endl;
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std::cout << GridLogPerformance << "\tSmoother " << SmootherTimer.Elapsed() <<std::endl;
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std::cout << GridLogPerformance << "\tMatrix " << MatrixTimer.Elapsed() <<std::endl;
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std::cout << GridLogPerformance << "\tProj " << ProjTimer.Elapsed() <<std::endl;
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std::cout << GridLogPerformance << "\tCoarse " << CoarseTimer.Elapsed() <<std::endl;
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std::cout << GridLogPerformance << "\tProm " << PromTimer.Elapsed() <<std::endl;
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axpy(out,1.0,Min,tmp); // Min+tmp
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}
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virtual void Vstart(Field & x,const Field & src)
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virtual void Vstart(Field & x,const Field & src)
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{
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{
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///////////////////////////////////
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///////////////////////////////////
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@ -262,65 +290,69 @@ class TwoLevelADEF2 : public LinearFunction<Field>
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// = src_s - (A guess)_s - src_s + (A guess)_s
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// = src_s - (A guess)_s - src_s + (A guess)_s
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// = 0
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// = 0
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///////////////////////////////////
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///////////////////////////////////
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Field r(grid);
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Field r(this->grid);
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Field mmp(grid);
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Field mmp(this->grid);
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CoarseField PleftProj(coarsegrid);
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CoarseField PleftProj(this->coarsegrid);
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CoarseField PleftMss_proj(coarsegrid);
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CoarseField PleftMss_proj(this->coarsegrid);
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_Aggregates.ProjectToSubspace(PleftProj,src);
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this->_Aggregates.ProjectToSubspace(PleftProj,src);
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_CoarseSolverPrecise(PleftProj,PleftMss_proj); // Ass^{-1} r_s
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this->_CoarseSolverPrecise(PleftProj,PleftMss_proj); // Ass^{-1} r_s
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_Aggregates.PromoteFromSubspace(PleftMss_proj,x);
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this->_Aggregates.PromoteFromSubspace(PleftMss_proj,x);
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}
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}
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/////////////////////////////////////////////////////////////////////
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// Only Def1 has non-trivial Vout.
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/////////////////////////////////////////////////////////////////////
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virtual void Vout (Field & in, Field & out,Field & src){
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out = in;
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}
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};
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};
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template<class Field, class CoarseField, class Aggregation>
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template<class Field>
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class TwoLevelADEF1ev : public TwoLevelADEF2<Field,CoarseField,Aggregation>
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class TwoLevelADEF1defl : public TwoLevelCG<Field>
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{
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{
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TwoLevelADEF1ev(RealD tol,
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public:
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const std::vector<Field> &evec;
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const std::vector<RealD> &eval;
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TwoLevelADEF1defl(RealD tol,
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Integer maxit,
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Integer maxit,
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LinearOperatorBase<Field> &FineLinop,
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LinearOperatorBase<Field> &FineLinop,
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LinearFunction<Field> &Smoother,
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LinearFunction<Field> &Smoother,
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LinearFunction<CoarseField> &CoarseSolver,
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std::vector<Field> &_evec,
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LinearFunction<CoarseField> &CoarseSolverPrecise,
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std::vector<RealD> &_eval) :
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Aggregation &Aggregates ) :
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TwoLevelCG<Field>(tol,maxit,FineLinop,Smoother,_evec[0].Grid()),
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TwoLevelADEF2<Field,CoarseField,Aggregation>(tol,maxit,FineLinop,Smoother,CoarseSolver,CoarseSolverPrecise,Aggregates)
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evec(_evec),
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eval(_eval)
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{};
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{};
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// Can just inherit existing Vstart
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// Can just inherit existing Vout
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// Can just inherit existing Vout
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// Can just inherit existing M2
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// Can just inherit existing M2
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// Can just inherit existing M3
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// Can just inherit existing M3
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// Simple vstart - do nothing
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virtual void Vstart(Field & x,const Field & src){};
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// Override PcgM1
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// Override PcgM1
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virtual void PcgM1(Field & in, Field & out)
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virtual void PcgM1(Field & in, Field & out)
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{
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{
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CoarseField PleftProj(this->coarsegrid);
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int N=evec.size();
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CoarseField PleftMss_proj(this->coarsegrid);
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Field tmp(this->grid);
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Field Pin(this->grid);
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Field Pin(this->grid);
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Field Qin(this->grid);
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//MP + Q = M(1-AQ) + Q = M
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//MP + Q = M(1-AQ) + Q = M
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// // If we are eigenvector deflating in coarse space
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// // If we are eigenvector deflating in coarse space
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// // Q = Sum_i |phi_i> 1/lambda_i <phi_i|
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// // Q = Sum_i |phi_i> 1/lambda_i <phi_i|
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// // A Q = Sum_i |phi_i> <phi_i|
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// // A Q = Sum_i |phi_i> <phi_i|
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// // M(1-AQ) = M(1-proj) + Q
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// // M(1-AQ) = M(1-proj) + Q
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this->_Aggregates.ProjectToSubspace(PleftProj,in);
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Qin.Checkerboard()=in.Checkerboard();
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this->_Aggregates.PromoteFromSubspace(PleftProj,tmp);// tmp = Qin
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Qin = Zero();
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Pin = in;
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for (int i=0;i<N;i++) {
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const Field& tmp = evec[i];
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auto ip = TensorRemove(innerProduct(tmp,in));
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axpy(Qin, ip / eval[i],tmp,Qin);
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axpy(Pin, -ip ,tmp,Pin);
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}
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Pin = in - tmp;
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this->_Smoother(Pin,out);
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this->_Smoother(Pin,out);
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this->_CoarseSolver(PleftProj,PleftMss_proj);
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out = out + Qin;
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this->_Aggregates.PromoteFromSubspace(PleftMss_proj,tmp);// tmp = Qin
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out = out + tmp;
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}
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}
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};
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};
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