doc/html/Stokhos__CGDivisionExpansionStrategy_8hpp_source.html

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#ifndef STOKHOS_CG_DIVISION_EXPANSION_STRATEGY_HPP

#define STOKHOS_CG_DIVISION_EXPANSION_STRATEGY_HPP


#include "Stokhos_DivisionExpansionStrategy.hpp"

#include "Stokhos_OrthogPolyBasis.hpp"

#include "Stokhos_Sparse3Tensor.hpp"

#include "Stokhos_DiagPreconditioner.hpp"

#include "Stokhos_JacobiPreconditioner.hpp"

#include "Stokhos_GSPreconditioner.hpp"

#include "Stokhos_SchurPreconditioner.hpp"

#include "Stokhos_InversePreconditioner.hpp"

#include "Stokhos_BlockPreconditioner.hpp"


#include "Teuchos_TimeMonitor.hpp"

#include "Teuchos_RCP.hpp"

#include "Teuchos_SerialDenseMatrix.hpp"

#include "Teuchos_BLAS.hpp"

#include "Teuchos_LAPACK.hpp"


#include <iostream>


namespace Stokhos {


  template <typename ordinal_type, typename value_type, typename node_type>


  class CGDivisionExpansionStrategy :

    public DivisionExpansionStrategy<ordinal_type,value_type,node_type> {

  public:


    CGDivisionExpansionStrategy(

      const Teuchos::RCP<const Stokhos::OrthogPolyBasis<ordinal_type, value_type> >& basis_,

      const Teuchos::RCP<const Stokhos::Sparse3Tensor<ordinal_type, value_type> >& Cijk_,

      const ordinal_type prec_iter_,

      const value_type tol_,

      const ordinal_type PrecNum_,

      const ordinal_type max_it_,

      const ordinal_type linear_,

      const ordinal_type diag_,

      const ordinal_type equil_);


    virtual ~CGDivisionExpansionStrategy() {}


    // Division operation:  c = \alpha*(a/b) + beta*c

    virtual void divide(

      Stokhos::OrthogPolyApprox<ordinal_type, value_type, node_type>& c,

      const value_type& alpha,

      const Stokhos::OrthogPolyApprox<ordinal_type, value_type, node_type>& a,

      const Stokhos::OrthogPolyApprox<ordinal_type, value_type, node_type>& b,

      const value_type& beta);


  private:


    // Prohibit copying

    CGDivisionExpansionStrategy(

      const CGDivisionExpansionStrategy&);


    // Prohibit Assignment

    CGDivisionExpansionStrategy& operator=(

      const CGDivisionExpansionStrategy& b);


    ordinal_type CG(

      const Teuchos::SerialDenseMatrix<ordinal_type, value_type> &  A,

      Teuchos::SerialDenseMatrix<ordinal_type,value_type> & X,

      const Teuchos::SerialDenseMatrix<ordinal_type,value_type> & B,

      ordinal_type max_iter,

      value_type tolerance,

      ordinal_type prec_iter,

      ordinal_type order,

      ordinal_type dim,

      ordinal_type PrecNum,

      const Teuchos::SerialDenseMatrix<ordinal_type, value_type> & M,

      ordinal_type diag);


  protected:


    Teuchos::RCP<const Stokhos::OrthogPolyBasis<ordinal_type, value_type> > basis;


    typedef Stokhos::Sparse3Tensor<ordinal_type, value_type> Cijk_type;


    Teuchos::RCP<const Cijk_type> Cijk;


    Teuchos::RCP< Teuchos::SerialDenseMatrix<ordinal_type,value_type> > A, X, B, M;


    ordinal_type prec_iter;


    value_type tol;


    ordinal_type PrecNum;


    ordinal_type max_it;


    ordinal_type linear;


    ordinal_type diag;


    ordinal_type equil;


  }; // class CGDivisionExpansionStrategy


} // namespace Stokhos


template <typename ordinal_type, typename value_type, typename node_type>


Stokhos::CGDivisionExpansionStrategy<ordinal_type,value_type,node_type>::

CGDivisionExpansionStrategy(

  const Teuchos::RCP<const Stokhos::OrthogPolyBasis<ordinal_type, value_type> >& basis_,

  const Teuchos::RCP<const Stokhos::Sparse3Tensor<ordinal_type, value_type> >& Cijk_,

  const ordinal_type prec_iter_,

  const value_type tol_,

  const ordinal_type PrecNum_,

  const ordinal_type max_it_,

  const ordinal_type linear_,

  const ordinal_type diag_,

  const ordinal_type equil_):

  basis(basis_),

  Cijk(Cijk_),

  prec_iter(prec_iter_),

  tol(tol_),

  PrecNum(PrecNum_),

  max_it(max_it_),

  linear(linear_),

  diag(diag_),

  equil(equil_)


{

  ordinal_type sz = basis->size();

  A = Teuchos::rcp(new Teuchos::SerialDenseMatrix<ordinal_type,value_type>(

         sz, sz));

  B = Teuchos::rcp(new Teuchos::SerialDenseMatrix<ordinal_type,value_type>(

         sz, 1));

  X = Teuchos::rcp(new Teuchos::SerialDenseMatrix<ordinal_type,value_type>(

         sz, 1));

  M = Teuchos::rcp(new Teuchos::SerialDenseMatrix<ordinal_type,value_type>(

                     sz, sz));


}


template <typename ordinal_type, typename value_type, typename node_type>

void


Stokhos::CGDivisionExpansionStrategy<ordinal_type,value_type,node_type>::

divide(Stokhos::OrthogPolyApprox<ordinal_type, value_type, node_type>& c,

       const value_type& alpha,

       const Stokhos::OrthogPolyApprox<ordinal_type, value_type, node_type>& a,

       const Stokhos::OrthogPolyApprox<ordinal_type, value_type, node_type>& b,

       const value_type& beta)

{

#ifdef STOKHOS_TEUCHOS_TIME_MONITOR

  TEUCHOS_FUNC_TIME_MONITOR("Stokhos::CGDivisionStrategy::divide()");

#endif


  ordinal_type sz = basis->size();

  ordinal_type pa = a.size();

  ordinal_type pb = b.size();


  ordinal_type pc;

  if (pb > 1)

    pc = sz;

  else

    pc = pa;

  if (c.size() != pc)

    c.resize(pc);


  const value_type* ca = a.coeff();

  const value_type* cb = b.coeff();


  value_type* cc = c.coeff();


  if (pb > 1) {

    // Compute A

    A->putScalar(0.0);

    typename Cijk_type::k_iterator k_begin = Cijk->k_begin();

    typename Cijk_type::k_iterator k_end = Cijk->k_end();


    if (pb < Cijk->num_k())

      k_end = Cijk->find_k(pb);

    value_type cijk;

    ordinal_type i,j,k;

    for (typename Cijk_type::k_iterator k_it=k_begin; k_it!=k_end; ++k_it) {

      k = index(k_it);

      for (typename Cijk_type::kj_iterator j_it = Cijk->j_begin(k_it);

     j_it != Cijk->j_end(k_it); ++j_it) {

  j = index(j_it);

  for (typename Cijk_type::kji_iterator i_it = Cijk->i_begin(j_it);

       i_it  != Cijk->i_end(j_it); ++i_it) {

    i = index(i_it);

    cijk = value(i_it);

    (*A)(i,j) += cijk*cb[k];

  }

      }

    }


    // Compute B

    B->putScalar(0.0);

    for (ordinal_type i=0; i<pa; i++)

      (*B)(i,0) = ca[i]*basis->norm_squared(i);


    Teuchos::SerialDenseMatrix<ordinal_type,value_type> D(sz, 1);

    //Equilibrate the linear system

    if (equil == 1){

      //Create diag mtx of max row entries

      for (ordinal_type i=0; i<sz; i++){

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> r(Teuchos::View, *A, 1, sz, i, 0);

  D(i,0)=sqrt(r.normOne());

      }


      //Compute inv(D)*A*inv(D)

      for (ordinal_type i=0; i<sz; i++){

  for (ordinal_type j=0; j<sz; j++){

    (*A)(i,j)=(*A)(i,j)/(D(i,0)*D(j,0));

  }

      }


      //Scale b by inv(D)

      for (ordinal_type i=0; i<sz; i++){

  (*B)(i,0)=(*B)(i,0)/D(i,0);

      }


    }


    if (linear == 1){

      //Compute M, the linear matrix to be used in the preconditioner


      pb = basis->dimension()+1;


      M->putScalar(0.0);

      if (pb < Cijk->num_k())

  k_end = Cijk->find_k(pb);

      for (typename Cijk_type::k_iterator k_it=k_begin; k_it!=k_end; ++k_it) {

  k = index(k_it);

  for ( typename Cijk_type::kj_iterator j_it = Cijk->j_begin(k_it);

        j_it != Cijk->j_end(k_it); ++j_it) {

    j = index(j_it);

    for ( typename Cijk_type::kji_iterator i_it = Cijk->i_begin(j_it);

    i_it  != Cijk->i_end(j_it); ++i_it) {

      i = index(i_it);

      cijk = value(i_it);

      (*M)(i,j) += cijk*cb[k];

    }

  }

      }


      //Scale M

      if (equil == 1){

  //Compute inv(D)*M*inv(D)

  for (ordinal_type i=0; i<sz; i++){

    for (ordinal_type j=0; j<sz; j++){

      (*M)(i,j)=(*M)(i,j)/(D(i,0)*D(j,0));

    }

  }

      }

      CG(*A,*X,*B, max_it, tol, prec_iter, basis->order(), basis->dimension(), PrecNum, *M, diag);

    }


    else{


      CG(*A,*X,*B, max_it, tol, prec_iter, basis->order(), basis->dimension(), PrecNum, *A, diag);

    }


    if (equil == 1 ) {

      //Rescale X

      for (ordinal_type i=0; i<sz; i++){

  (*X)(i,0)=(*X)(i,0)/D(i,0);

      }

    }


    // Compute c

    for (ordinal_type i=0; i<pc; i++)

      cc[i] = alpha*(*X)(i,0) + beta*cc[i];

  }

  else {

    for (ordinal_type i=0; i<pc; i++)

      cc[i] = alpha*ca[i]/cb[0] + beta*cc[i];

  }

}


template <typename ordinal_type, typename value_type, typename node_type>

ordinal_type


Stokhos::CGDivisionExpansionStrategy<ordinal_type,value_type,node_type>::

CG(const Teuchos::SerialDenseMatrix<ordinal_type, value_type> & A,

   Teuchos::SerialDenseMatrix<ordinal_type,value_type> & X,

   const Teuchos::SerialDenseMatrix<ordinal_type,value_type> & B,

   ordinal_type max_iter,

   value_type tolerance,

   ordinal_type prec_iter,

   ordinal_type order ,

   ordinal_type m,

   ordinal_type PrecNum,

   const Teuchos::SerialDenseMatrix<ordinal_type, value_type> & M,

   ordinal_type diag)


{

  ordinal_type n = A.numRows();

  ordinal_type k=0;

  value_type resid;

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> Ax(n,1);

  Ax.multiply(Teuchos::NO_TRANS,Teuchos::NO_TRANS,1.0, A, X, 0.0);

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> r(Teuchos::Copy,B);

  r-=Ax;

  resid=r.normFrobenius();

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> p(r);

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> rho(1,1);

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> oldrho(1,1);

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> pAp(1,1);

  Teuchos::SerialDenseMatrix<ordinal_type, value_type> Ap(n,1);

  value_type b;

  value_type a;

  while (resid > tolerance && k < max_iter){

    Teuchos::SerialDenseMatrix<ordinal_type, value_type> z(r);

    //Solve Mz=r

    if (PrecNum != 0){

      if (PrecNum == 1){

  Stokhos::DiagPreconditioner<ordinal_type, value_type> precond(M);

  precond.ApplyInverse(r,z,prec_iter);

      }

      else if (PrecNum == 2){

  Stokhos::JacobiPreconditioner<ordinal_type, value_type> precond(M);

  precond.ApplyInverse(r,z,2);

      }

      else if (PrecNum == 3){

  Stokhos::GSPreconditioner<ordinal_type, value_type> precond(M,0);

  precond.ApplyInverse(r,z,1);

      }

      else if (PrecNum == 4){

  Stokhos::SchurPreconditioner<ordinal_type, value_type> precond(M, order, m, diag);

  precond.ApplyInverse(r,z,prec_iter);

      }

    }

    rho.multiply(Teuchos::TRANS,Teuchos::NO_TRANS,1.0, r, z, 0.0);


    if (k==0){

      p.assign(z);

      rho.multiply(Teuchos::TRANS, Teuchos::NO_TRANS, 1.0, r, z, 0.0);

    }

    else {

      b=rho(0,0)/oldrho(0,0);

      p.scale(b);

      p+=z;

    }

    Ap.multiply(Teuchos::NO_TRANS,Teuchos::NO_TRANS,1.0, A, p, 0.0);

    pAp.multiply(Teuchos::TRANS,Teuchos::NO_TRANS,1.0, p, Ap, 0.0);

    a=rho(0,0)/pAp(0,0);

    Teuchos::SerialDenseMatrix<ordinal_type, value_type> scalep(p);

    scalep.scale(a);

    X+=scalep;

    Ap.scale(a);

    r-=Ap;

    oldrho.assign(rho);

    resid=r.normFrobenius();

    k++;

  }


  //std::cout << "iteration count  " << k << std::endl;

  return 0;

}


 #endif // STOKHOS_DIVISION_EXPANSION_STRATEGY_HPP

j
j
Definition Sacado_Fad_Exp_MP_Vector.hpp:527

sqrt
sqrt(expr.val())

Stokhos_BlockPreconditioner.hpp

Stokhos_DiagPreconditioner.hpp

Stokhos_DivisionExpansionStrategy.hpp

Stokhos_GSPreconditioner.hpp

Stokhos_InversePreconditioner.hpp

Stokhos_JacobiPreconditioner.hpp

Stokhos_OrthogPolyBasis.hpp

Stokhos_SchurPreconditioner.hpp

Stokhos_Sparse3Tensor.hpp

Stokhos::CGDivisionExpansionStrategy::M
Teuchos::RCP< Teuchos::SerialDenseMatrix< ordinal_type, value_type > > M
Definition Stokhos_CGDivisionExpansionStrategy.hpp:134

Stokhos::CGDivisionExpansionStrategy::linear
ordinal_type linear
Definition Stokhos_CGDivisionExpansionStrategy.hpp:145

Stokhos::CGDivisionExpansionStrategy::Cijk
Teuchos::RCP< const Cijk_type > Cijk
Triple product.
Definition Stokhos_CGDivisionExpansionStrategy.hpp:131

Stokhos::CGDivisionExpansionStrategy::B
Teuchos::RCP< Teuchos::SerialDenseMatrix< ordinal_type, value_type > > B
Definition Stokhos_CGDivisionExpansionStrategy.hpp:134

Stokhos::CGDivisionExpansionStrategy::Cijk_type
Stokhos::Sparse3Tensor< ordinal_type, value_type > Cijk_type
Short-hand for Cijk.
Definition Stokhos_CGDivisionExpansionStrategy.hpp:128

Stokhos::CGDivisionExpansionStrategy::PrecNum
ordinal_type PrecNum
Definition Stokhos_CGDivisionExpansionStrategy.hpp:141

Stokhos::CGDivisionExpansionStrategy::~CGDivisionExpansionStrategy
virtual ~CGDivisionExpansionStrategy()
Destructor.
Definition Stokhos_CGDivisionExpansionStrategy.hpp:89

Stokhos::CGDivisionExpansionStrategy::prec_iter
ordinal_type prec_iter
Tolerance for CG.
Definition Stokhos_CGDivisionExpansionStrategy.hpp:137

Stokhos::CGDivisionExpansionStrategy::max_it
ordinal_type max_it
Definition Stokhos_CGDivisionExpansionStrategy.hpp:143

Stokhos::CGDivisionExpansionStrategy::CGDivisionExpansionStrategy
CGDivisionExpansionStrategy(const CGDivisionExpansionStrategy &)

Stokhos::CGDivisionExpansionStrategy::equil
ordinal_type equil
Definition Stokhos_CGDivisionExpansionStrategy.hpp:149

Stokhos::CGDivisionExpansionStrategy::CGDivisionExpansionStrategy
CGDivisionExpansionStrategy(const Teuchos::RCP< const Stokhos::OrthogPolyBasis< ordinal_type, value_type > > &basis_, const Teuchos::RCP< const Stokhos::Sparse3Tensor< ordinal_type, value_type > > &Cijk_, const ordinal_type prec_iter_, const value_type tol_, const ordinal_type PrecNum_, const ordinal_type max_it_, const ordinal_type linear_, const ordinal_type diag_, const ordinal_type equil_)
Constructor.
Definition Stokhos_CGDivisionExpansionStrategy.hpp:157

Stokhos::CGDivisionExpansionStrategy::CG
ordinal_type CG(const Teuchos::SerialDenseMatrix< ordinal_type, value_type > &A, Teuchos::SerialDenseMatrix< ordinal_type, value_type > &X, const Teuchos::SerialDenseMatrix< ordinal_type, value_type > &B, ordinal_type max_iter, value_type tolerance, ordinal_type prec_iter, ordinal_type order, ordinal_type dim, ordinal_type PrecNum, const Teuchos::SerialDenseMatrix< ordinal_type, value_type > &M, ordinal_type diag)
Definition Stokhos_CGDivisionExpansionStrategy.hpp:336

Stokhos::CGDivisionExpansionStrategy::basis
Teuchos::RCP< const Stokhos::OrthogPolyBasis< ordinal_type, value_type > > basis
Basis.
Definition Stokhos_CGDivisionExpansionStrategy.hpp:125

Stokhos::CGDivisionExpansionStrategy::operator=
CGDivisionExpansionStrategy & operator=(const CGDivisionExpansionStrategy &b)

Stokhos::CGDivisionExpansionStrategy::diag
ordinal_type diag
Definition Stokhos_CGDivisionExpansionStrategy.hpp:147

Stokhos::CGDivisionExpansionStrategy::divide
virtual void divide(Stokhos::OrthogPolyApprox< ordinal_type, value_type, node_type > &c, const value_type &alpha, const Stokhos::OrthogPolyApprox< ordinal_type, value_type, node_type > &a, const Stokhos::OrthogPolyApprox< ordinal_type, value_type, node_type > &b, const value_type &beta)
Definition Stokhos_CGDivisionExpansionStrategy.hpp:194

Stokhos::CGDivisionExpansionStrategy::X
Teuchos::RCP< Teuchos::SerialDenseMatrix< ordinal_type, value_type > > X
Definition Stokhos_CGDivisionExpansionStrategy.hpp:134

Stokhos::CGDivisionExpansionStrategy::tol
value_type tol
Definition Stokhos_CGDivisionExpansionStrategy.hpp:139

Stokhos::CGDivisionExpansionStrategy::A
Teuchos::RCP< Teuchos::SerialDenseMatrix< ordinal_type, value_type > > A
Dense matrices for linear system.
Definition Stokhos_CGDivisionExpansionStrategy.hpp:134

Stokhos::DiagPreconditioner
Definition Stokhos_DiagPreconditioner.hpp:57

Stokhos::DiagPreconditioner::ApplyInverse
virtual ordinal_type ApplyInverse(const Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Input, Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Result, ordinal_type m) const
Returns the result of a Operator inverse applied to a Teuchos::SerialDenseMatrix Input in Result.
Definition Stokhos_DiagPreconditioner.hpp:67

Stokhos::DivisionExpansionStrategy::DivisionExpansionStrategy
DivisionExpansionStrategy()
Constructor.
Definition Stokhos_DivisionExpansionStrategy.hpp:58

Stokhos::GSPreconditioner
Definition Stokhos_GSPreconditioner.hpp:57

Stokhos::GSPreconditioner::ApplyInverse
virtual ordinal_type ApplyInverse(const Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Input, Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Result, ordinal_type m) const
Returns the result of a Operator inverse applied to a Teuchos::SerialDenseMatrix Input in Result.
Definition Stokhos_GSPreconditioner.hpp:70

Stokhos::JacobiPreconditioner
Definition Stokhos_JacobiPreconditioner.hpp:56

Stokhos::JacobiPreconditioner::ApplyInverse
virtual ordinal_type ApplyInverse(const Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Input, Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Result, ordinal_type m) const
Returns the result of a Operator inverse applied to a Teuchos::SerialDenseMatrix Input in Result.
Definition Stokhos_JacobiPreconditioner.hpp:67

Stokhos::OrthogPolyApprox
Class to store coefficients of a projection onto an orthogonal polynomial basis.
Definition Stokhos_OrthogPolyApprox.hpp:63

Stokhos::OrthogPolyApprox::resize
void resize(ordinal_type sz)
Resize coefficient array (coefficients are preserved)
Definition Stokhos_OrthogPolyApproxImp.hpp:152

Stokhos::OrthogPolyApprox::coeff
pointer coeff()
Return coefficient array.
Definition Stokhos_OrthogPolyApproxImp.hpp:168

Stokhos::OrthogPolyApprox::size
ordinal_type size() const
Return size.
Definition Stokhos_OrthogPolyApproxImp.hpp:160

Stokhos::OrthogPolyBasis
Abstract base class for multivariate orthogonal polynomials.
Definition Stokhos_OrthogPolyBasis.hpp:74

Stokhos::ordinal_type

Stokhos::SchurPreconditioner
Definition Stokhos_SchurPreconditioner.hpp:57

Stokhos::SchurPreconditioner::ApplyInverse
virtual ordinal_type ApplyInverse(const Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Input, Teuchos::SerialDenseMatrix< ordinal_type, value_type > &Result, ordinal_type prec_iters) const
Returns the result of a Operator inverse applied to a Teuchos::SerialDenseMatrix Input in Result.
Definition Stokhos_SchurPreconditionerImp.hpp:106

Stokhos::Sparse3Tensor
Data structure storing a sparse 3-tensor C(i,j,k) in a a compressed format.
Definition Stokhos_Sparse3Tensor.hpp:56

Stokhos::Sparse3Tensor::k_iterator
kji_sparse_array::const_iterator k_iterator
Iterator for looping over k entries.
Definition Stokhos_Sparse3Tensor.hpp:79

Stokhos::Sparse3Tensor::value
SparseArrayIterator< index_iterator, value_iterator >::value_reference value(const SparseArrayIterator< index_iterator, value_iterator > &it)
Definition Stokhos_Sparse3Tensor.hpp:315

Stokhos::Sparse3Tensor::index
SparseArrayIterator< index_iterator, value_iterator >::value_type index(const SparseArrayIterator< index_iterator, value_iterator > &it)
Definition Stokhos_Sparse3Tensor.hpp:295

Stokhos::Sparse3Tensor::kji_iterator
j_sparse_array::const_iterator kji_iterator
Iterator for looping over i entries given k and j.
Definition Stokhos_Sparse3Tensor.hpp:88

Stokhos::Sparse3Tensor::kj_iterator
ji_sparse_array::const_iterator kj_iterator
Iterator for looping over j entries given k.
Definition Stokhos_Sparse3Tensor.hpp:85

CG
@ CG
Definition linear2d_diffusion_collocation.cpp:66

Stokhos
Top-level namespace for Stokhos classes and functions.
Definition Stokhos_AbstractPreconditionerFactory.hpp:48