doc/html/Stokhos__LanczosPCEBasisImp_8hpp_source.html

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#include "Teuchos_Assert.hpp"

#include "Teuchos_BLAS.hpp"

#include "Teuchos_TimeMonitor.hpp"


template <typename ordinal_type, typename value_type>


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

LanczosPCEBasis(

   ordinal_type p,

   const Teuchos::RCP< const Stokhos::OrthogPolyApprox<ordinal_type, value_type> >& pce_,

   const Teuchos::RCP< const Stokhos::Quadrature<ordinal_type, value_type> >& quad_,

   bool normalize,

   bool limit_integration_order_) :

  RecurrenceBasis<ordinal_type, value_type>("Lanczos PCE", p, normalize),

  pce(pce_),

  quad(quad_),

  limit_integration_order(limit_integration_order_),

  nqp(quad->size()),

  pce_weights(Teuchos::Copy,

        const_cast<value_type*>(quad->getQuadWeights().getRawPtr()),

        nqp),

  pce_vals(nqp),

  u0(nqp),

  lanczos_vecs(nqp, p+1),

  fromStieltjesMat(),

  new_pce()

{

  // Evaluate PCE at quad points

  const Teuchos::Array< Teuchos::Array<value_type> >& quad_points =

    quad->getQuadPoints();

  const Teuchos::Array< Teuchos::Array<value_type> >& basis_values =

    quad->getBasisAtQuadPoints();

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

    pce_vals[i] = pce->evaluate(quad_points[i], basis_values[i]);

    u0[i] = value_type(1);

  }


  // Setup rest of basis

  this->setup();

}


template <typename ordinal_type, typename value_type>


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

~LanczosPCEBasis()

{

}


template <typename ordinal_type, typename value_type>

void


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

getQuadPoints(ordinal_type quad_order,

        Teuchos::Array<value_type>& quad_points,

        Teuchos::Array<value_type>& quad_weights,

        Teuchos::Array< Teuchos::Array<value_type> >& quad_values) const

{

#ifdef STOKHOS_TEUCHOS_TIME_MONITOR

  TEUCHOS_FUNC_TIME_MONITOR("Stokhos::LanczosPCEBasis -- compute Gauss points");

#endif


  // Call base class

  ordinal_type num_points =

    static_cast<ordinal_type>(std::ceil((quad_order+1)/2.0));


  // We can't always reliably generate quadrature points of order > 2*p

  // when using sparse grids for the underlying quadrature

  if (limit_integration_order && quad_order > 2*this->p)

    quad_order = 2*this->p;

  Stokhos::RecurrenceBasis<ordinal_type,value_type>::getQuadPoints(quad_order,

                   quad_points,

                   quad_weights,

                   quad_values);


  // Fill in the rest of the points with zero weight

  if (quad_weights.size() < num_points) {

    ordinal_type old_size = quad_weights.size();

    quad_weights.resize(num_points);

    quad_points.resize(num_points);

    quad_values.resize(num_points);

    for (ordinal_type i=old_size; i<num_points; i++) {

      quad_weights[i] = value_type(0);

      quad_points[i] = quad_points[0];

      quad_values[i].resize(this->p+1);

      this->evaluateBases(quad_points[i], quad_values[i]);

    }

  }

}


template <typename ordinal_type, typename value_type>

Teuchos::RCP<Stokhos::OneDOrthogPolyBasis<ordinal_type,value_type> >


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

cloneWithOrder(ordinal_type p) const

{

   return Teuchos::rcp(new Stokhos::LanczosPCEBasis<ordinal_type,value_type>(

       p,*this));

}


template <typename ordinal_type, typename value_type>

value_type


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

getNewCoeffs(ordinal_type i) const

{

  return new_pce[i];

}


template <typename ordinal_type, typename value_type>

void


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

transformCoeffsFromLanczos(const value_type *in, value_type *out) const

{

  Teuchos::BLAS<ordinal_type, value_type> blas;

  ordinal_type sz = fromStieltjesMat.numRows();

  blas.GEMV(Teuchos::NO_TRANS, sz, this->p+1,

      value_type(1.0), fromStieltjesMat.values(), sz,

      in, ordinal_type(1), value_type(0.0), out, ordinal_type(1));

}


template <typename ordinal_type, typename value_type>

bool


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

computeRecurrenceCoefficients(ordinal_type n,

            Teuchos::Array<value_type>& alpha,

            Teuchos::Array<value_type>& beta,

            Teuchos::Array<value_type>& delta,

            Teuchos::Array<value_type>& gamma) const

{

  Teuchos::Array<value_type> nrm(n);

  vectorspace_type vs(pce_weights);

  operator_type A(pce_vals);


  // Create space to store lanczos vectors -- use lanczos_vecs if

  // we are requesting p+1 vectors

  Teuchos::RCP<matrix_type> lv;

  if (n == this->p+1)

    lv = Teuchos::rcp(&lanczos_vecs, false);

  else

    lv = Teuchos::rcp(new matrix_type(nqp,n));


  if (this->normalize)

    lanczos_type::computeNormalized(n, vs, A, u0, *lv, alpha, beta, nrm);

  else

    lanczos_type::compute(n, vs, A, u0, *lv, alpha, beta, nrm);


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

    delta[i] = value_type(1.0);

  }

  if (this->normalize)

    gamma = beta;

  else

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

      gamma[i] = value_type(1.0);


  return this->normalize;

}


template <typename ordinal_type, typename value_type>

void


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

setup()

{

  RecurrenceBasis<ordinal_type,value_type>::setup();


  // Compute transformation matrix back to original basis

  ordinal_type sz = pce->size();

  fromStieltjesMat.shape(sz, this->p+1);

  fromStieltjesMat.putScalar(0.0);

  const Teuchos::Array< Teuchos::Array<value_type> >& basis_values =

    quad->getBasisAtQuadPoints();

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

    for (ordinal_type j=0; j<=this->p; j++) {

      for (ordinal_type k=0; k<nqp; k++)

  fromStieltjesMat(i,j) +=

    pce_weights[k]*lanczos_vecs(k,j)*basis_values[k][i];

      fromStieltjesMat(i,j) /= pce->basis()->norm_squared(i);

    }

  }


  // Project original PCE into the new basis

  new_pce.resize(this->p+1);

  vector_type u(sz);

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

    u[i] = (*pce)[i]*pce->basis()->norm_squared(i);

  new_pce.multiply(Teuchos::TRANS, Teuchos::NO_TRANS, 1.0, fromStieltjesMat, u,

       0.0);

  for (ordinal_type i=0; i<=this->p; i++)

    new_pce[i] /= this->norms[i];

}


template <typename ordinal_type, typename value_type>


Stokhos::LanczosPCEBasis<ordinal_type, value_type>::

LanczosPCEBasis(ordinal_type p, const LanczosPCEBasis& basis) :

  RecurrenceBasis<ordinal_type, value_type>(p, basis),

  pce(basis.pce),

  quad(basis.quad),

  limit_integration_order(basis.limit_integration_order),

  nqp(basis.nqp),

  pce_weights(basis.pce_weights),

  pce_vals(basis.pce_vals),

  u0(basis.u0),

  lanczos_vecs(nqp, p+1),

  fromStieltjesMat(),

  new_pce()

{

  this->setup();

}


Copy
Copy

j
j
Definition Sacado_Fad_Exp_MP_Vector.hpp:527

Stokhos::LanczosPCEBasis
Generates three-term recurrence using the Lanczos procedure applied to a polynomial chaos expansion i...
Definition Stokhos_LanczosPCEBasis.hpp:85

Stokhos::LanczosPCEBasis::cloneWithOrder
virtual Teuchos::RCP< OneDOrthogPolyBasis< ordinal_type, value_type > > cloneWithOrder(ordinal_type p) const
Clone this object with the option of building a higher order basis.
Definition Stokhos_LanczosPCEBasisImp.hpp:131

Stokhos::LanczosPCEBasis::~LanczosPCEBasis
~LanczosPCEBasis()
Destructor.
Definition Stokhos_LanczosPCEBasisImp.hpp:84

Stokhos::LanczosPCEBasis::matrix_type
lanczos_type::matrix_type matrix_type
Definition Stokhos_LanczosPCEBasis.hpp:169

Stokhos::LanczosPCEBasis::pce
Teuchos::RCP< const Stokhos::OrthogPolyApprox< ordinal_type, value_type > > pce
PCE Lanczos procedure is based on.
Definition Stokhos_LanczosPCEBasis.hpp:173

Stokhos::LanczosPCEBasis::setup
virtual void setup()
Setup basis after computing recurrence coefficients.
Definition Stokhos_LanczosPCEBasisImp.hpp:198

Stokhos::LanczosPCEBasis::pce_vals
vector_type pce_vals
Values of PCE at quadrature points.
Definition Stokhos_LanczosPCEBasis.hpp:188

Stokhos::LanczosPCEBasis::nqp
ordinal_type nqp
Number of quadrature points.
Definition Stokhos_LanczosPCEBasis.hpp:182

Stokhos::LanczosPCEBasis::lanczos_vecs
matrix_type lanczos_vecs
Lanczos vectors.
Definition Stokhos_LanczosPCEBasis.hpp:194

Stokhos::LanczosPCEBasis::vectorspace_type
WeightedVectorSpace< ordinal_type, value_type > vectorspace_type
Definition Stokhos_LanczosPCEBasis.hpp:166

Stokhos::LanczosPCEBasis::fromStieltjesMat
matrix_type fromStieltjesMat
Matrix mapping coefficients in Stieltjes basis back to original basis.
Definition Stokhos_LanczosPCEBasis.hpp:197

Stokhos::LanczosPCEBasis::computeRecurrenceCoefficients
virtual bool computeRecurrenceCoefficients(ordinal_type n, Teuchos::Array< value_type > &alpha, Teuchos::Array< value_type > &beta, Teuchos::Array< value_type > &delta, Teuchos::Array< value_type > &gamma) const
Compute recurrence coefficients.
Definition Stokhos_LanczosPCEBasisImp.hpp:160

Stokhos::LanczosPCEBasis::operator_type
DiagonalOperator< ordinal_type, value_type > operator_type
Definition Stokhos_LanczosPCEBasis.hpp:167

Stokhos::LanczosPCEBasis::quad
Teuchos::RCP< const Stokhos::Quadrature< ordinal_type, value_type > > quad
Quadrature object.
Definition Stokhos_LanczosPCEBasis.hpp:176

Stokhos::LanczosPCEBasis::transformCoeffsFromLanczos
void transformCoeffsFromLanczos(const value_type *in, value_type *out) const
Map expansion coefficients from this basis to original.
Definition Stokhos_LanczosPCEBasisImp.hpp:148

Stokhos::LanczosPCEBasis::getNewCoeffs
value_type getNewCoeffs(ordinal_type i) const
Get new coefficients in this new basis.
Definition Stokhos_LanczosPCEBasisImp.hpp:140

Stokhos::LanczosPCEBasis::getQuadPoints
virtual void getQuadPoints(ordinal_type quad_order, Teuchos::Array< value_type > &points, Teuchos::Array< value_type > &weights, Teuchos::Array< Teuchos::Array< value_type > > &values) const
Get Gauss quadrature points, weights, and values of basis at points.
Definition Stokhos_LanczosPCEBasisImp.hpp:91

Stokhos::LanczosPCEBasis::pce_weights
vector_type pce_weights
Quadrature weights.
Definition Stokhos_LanczosPCEBasis.hpp:185

Stokhos::LanczosPCEBasis::u0
vector_type u0
Initial Lanczos vector.
Definition Stokhos_LanczosPCEBasis.hpp:191

Stokhos::LanczosPCEBasis::new_pce
vector_type new_pce
Projection of pce in new basis.
Definition Stokhos_LanczosPCEBasis.hpp:200

Stokhos::LanczosPCEBasis::limit_integration_order
bool limit_integration_order
Flag indicating whether to limit the integration order.
Definition Stokhos_LanczosPCEBasis.hpp:179

Stokhos::LanczosPCEBasis::vector_type
lanczos_type::vector_type vector_type
Definition Stokhos_LanczosPCEBasis.hpp:170

Stokhos::LanczosPCEBasis::LanczosPCEBasis
LanczosPCEBasis(ordinal_type p, const Teuchos::RCP< const Stokhos::OrthogPolyApprox< ordinal_type, value_type > > &pce, const Teuchos::RCP< const Stokhos::Quadrature< ordinal_type, value_type > > &quad, bool normalize, bool limit_integration_order)
Constructor.
Definition Stokhos_LanczosPCEBasisImp.hpp:48

Stokhos::Lanczos::computeNormalized
static void computeNormalized(ordinal_type k, const vectorspace_type &vs, const operator_type &A, const vector_type &u_init, matrix_type &u, Teuchos::Array< value_type > &alpha, Teuchos::Array< value_type > &beta, Teuchos::Array< value_type > &nrm_sqrd)
Compute Lanczos basis.
Definition Stokhos_Lanczos.hpp:194

Stokhos::Lanczos::compute
static void compute(ordinal_type k, const vectorspace_type &vs, const operator_type &A, const vector_type &u_init, matrix_type &u, Teuchos::Array< value_type > &alpha, Teuchos::Array< value_type > &beta, Teuchos::Array< value_type > &nrm_sqrd)
Compute Lanczos basis.
Definition Stokhos_Lanczos.hpp:130

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

Stokhos::ordinal_type

Stokhos::ProductContainer::size
ordinal_type size() const
Return size.
Definition Stokhos_ProductContainerImp.hpp:139

Stokhos::ProductContainer::resize
void resize(const Teuchos::RCP< const Epetra_BlockMap > &map)
Resize to map map.
Definition Stokhos_ProductContainerImp.hpp:122

Stokhos::Quadrature
Abstract base class for quadrature methods.
Definition Stokhos_Quadrature.hpp:54

Stokhos::RecurrenceBasis::norms
Teuchos::Array< value_type > norms
Norms.
Definition Stokhos_RecurrenceBasis.hpp:334

Stokhos::RecurrenceBasis::normalize
bool normalize
Normalize basis.
Definition Stokhos_RecurrenceBasis.hpp:310

Stokhos::RecurrenceBasis::size
virtual ordinal_type size() const
Return total size of basis (given by order() + 1).
Definition Stokhos_RecurrenceBasisImp.hpp:123

Stokhos::RecurrenceBasis::evaluateBases
virtual void evaluateBases(const value_type &point, Teuchos::Array< value_type > &basis_pts) const
Evaluate each basis polynomial at given point point.
Definition Stokhos_RecurrenceBasisImp.hpp:240

Stokhos::RecurrenceBasis::alpha
Teuchos::Array< value_type > alpha
Recurrence  coefficients.
Definition Stokhos_RecurrenceBasis.hpp:322

Stokhos::RecurrenceBasis::beta
Teuchos::Array< value_type > beta
Recurrence  coefficients.
Definition Stokhos_RecurrenceBasis.hpp:325

Stokhos::RecurrenceBasis::p
ordinal_type p
Order of basis.
Definition Stokhos_RecurrenceBasis.hpp:307

Stokhos::RecurrenceBasis::gamma
Teuchos::Array< value_type > gamma
Recurrence  coefficients.
Definition Stokhos_RecurrenceBasis.hpp:331

Stokhos::RecurrenceBasis::delta
Teuchos::Array< value_type > delta
Recurrence  coefficients.
Definition Stokhos_RecurrenceBasis.hpp:328

Stokhos::RecurrenceBasis::setup
virtual void setup()
Setup basis after computing recurrence coefficients.
Definition Stokhos_RecurrenceBasisImp.hpp:89

Stokhos::RecurrenceBasis::getQuadPoints
virtual void getQuadPoints(ordinal_type quad_order, Teuchos::Array< value_type > &points, Teuchos::Array< value_type > &weights, Teuchos::Array< Teuchos::Array< value_type > > &values) const
Compute quadrature points, weights, and values of basis polynomials at given set of points points.
Definition Stokhos_RecurrenceBasisImp.hpp:344

Stokhos::RecurrenceBasis::RecurrenceBasis
RecurrenceBasis(const std::string &name, ordinal_type p, bool normalize, GrowthPolicy growth=SLOW_GROWTH)
Constructor to be called by derived classes.
Definition Stokhos_RecurrenceBasisImp.hpp:49

Teuchos
Definition Sacado_UQ_PCE_Traits.hpp:136