/usr/include/trilinos/Stokhos_LinearSparse3Tensor.hpp is in libtrilinos-stokhos-dev 12.10.1-3.
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#ifndef STOKHOS_LINEAR_SPARSE_3_TENSOR_HPP
#define STOKHOS_LINEAR_SPARSE_3_TENSOR_HPP
#include "Kokkos_Core.hpp"
#include "Stokhos_Multiply.hpp"
#include "Stokhos_ProductBasis.hpp"
#include "Stokhos_Sparse3Tensor.hpp"
#include "Teuchos_ParameterList.hpp"
#include "Stokhos_TinyVec.hpp"
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
namespace Stokhos {
/** \brief Sparse product tensor with replicated entries
* to provide subsets with a given coordinate.
*/
template< typename ValueType , class ExecutionSpace , int BlockSize >
class LinearSparse3Tensor {
public:
typedef ExecutionSpace execution_space ;
typedef typename execution_space::size_type size_type ;
typedef ValueType value_type ;
static const int block_size = BlockSize;
private:
typedef Kokkos::View< value_type[], execution_space > value_array_type ;
value_array_type m_value ;
size_type m_dim ;
size_type m_aligned_dim ;
size_type m_nnz ;
size_type m_flops ;
bool m_symmetric ;
public:
inline
~LinearSparse3Tensor() {}
inline
LinearSparse3Tensor() :
m_value() ,
m_dim() ,
m_aligned_dim(),
m_nnz(0) ,
m_flops(0) ,
m_symmetric(false) {}
inline
LinearSparse3Tensor( const LinearSparse3Tensor & rhs ) :
m_value( rhs.m_value ) ,
m_dim( rhs.m_dim ),
m_aligned_dim( rhs.m_aligned_dim ),
m_nnz( rhs.m_nnz ) ,
m_flops( rhs.m_flops ) ,
m_symmetric( rhs.m_symmetric ) {}
inline
LinearSparse3Tensor & operator = ( const LinearSparse3Tensor & rhs )
{
m_value = rhs.m_value ;
m_dim = rhs.m_dim ;
m_aligned_dim = rhs.m_aligned_dim;
m_nnz = rhs.m_nnz;
m_flops = rhs.m_flops;
m_symmetric = rhs.m_symmetric;
return *this ;
}
/** \brief Dimension of the tensor. */
KOKKOS_INLINE_FUNCTION
size_type dimension() const { return m_dim ; }
/** \brief Dimension of the tensor. */
KOKKOS_INLINE_FUNCTION
size_type aligned_dimension() const { return m_aligned_dim ; }
/** \brief Number of sparse entries. */
KOKKOS_INLINE_FUNCTION
size_type entry_count() const
{ return m_value.dimension_0(); }
/** \brief Is tensor built from symmetric PDFs. */
KOKKOS_INLINE_FUNCTION
bool symmetric() const
{ return m_symmetric; }
/** \brief Value for entry 'entry' */
KOKKOS_INLINE_FUNCTION
const value_type & value( const size_type entry ) const
{ return m_value( entry ); }
/** \brief Number of non-zero's */
KOKKOS_INLINE_FUNCTION
size_type num_non_zeros() const
{ return m_nnz; }
/** \brief Number flop's per multiply-add */
KOKKOS_INLINE_FUNCTION
size_type num_flops() const
{ return m_flops; }
template <typename OrdinalType>
static LinearSparse3Tensor
create( const Stokhos::ProductBasis<OrdinalType,ValueType>& basis,
const Stokhos::Sparse3Tensor<OrdinalType,ValueType>& Cijk,
const Teuchos::ParameterList& params)
{
const bool symmetric = params.get<bool>("Symmetric");
// Allocate tensor data -- currently assuming isotropic
const size_type dim = basis.size();
LinearSparse3Tensor tensor ;
tensor.m_dim = dim;
tensor.m_aligned_dim = dim;
if (tensor.m_aligned_dim % block_size)
tensor.m_aligned_dim += block_size - tensor.m_aligned_dim % block_size;
tensor.m_symmetric = symmetric;
tensor.m_nnz = symmetric ? 2 : 3 ;
tensor.m_value = value_array_type( "value" , tensor.m_nnz );
// Create mirror, is a view if is host memory
typename value_array_type::HostMirror
host_value = Kokkos::create_mirror_view( tensor.m_value );
// Get Cijk values
Teuchos::Array< Teuchos::RCP<const Stokhos::OneDOrthogPolyBasis<OrdinalType,ValueType> > > bases = basis.getCoordinateBases();
Teuchos::RCP< Stokhos::Dense3Tensor<OrdinalType,ValueType> > cijk =
bases[0]->computeTripleProductTensor();
// For non-isotropic, need to take products of these over basis components
host_value(0) = (*cijk)(0,0,0);
host_value(1) = (*cijk)(0,1,1);
if (!symmetric)
host_value(2) = (*cijk)(1,1,1);
// Copy data to device if necessary
Kokkos::deep_copy( tensor.m_value , host_value );
tensor.m_flops = 8*dim;
if (!symmetric)
tensor.m_flops += 2*dim ;
return tensor ;
}
};
template< class Device , typename OrdinalType , typename ValueType , int BlockSize >
LinearSparse3Tensor<ValueType, Device,BlockSize>
create_linear_sparse_3_tensor(
const Stokhos::ProductBasis<OrdinalType,ValueType>& basis,
const Stokhos::Sparse3Tensor<OrdinalType,ValueType>& Cijk,
const Teuchos::ParameterList& params)
{
return LinearSparse3Tensor<ValueType, Device, BlockSize>::create(
basis, Cijk, params );
}
template < typename ValueType, typename Device, int BlockSize >
class BlockMultiply< LinearSparse3Tensor< ValueType , Device , BlockSize > >
{
public:
typedef typename Device::size_type size_type ;
typedef LinearSparse3Tensor< ValueType , Device , BlockSize > tensor_type ;
template< typename MatrixValue , typename VectorValue >
KOKKOS_INLINE_FUNCTION
static void apply( const tensor_type & tensor ,
const MatrixValue * const a ,
const VectorValue * const x ,
VectorValue * const y )
{
const size_type block_size = tensor_type::block_size;
typedef TinyVec<ValueType,block_size,true> TV;
const size_type dim = tensor.dimension();
const ValueType c0 = tensor.value(0);
const ValueType c1 = tensor.value(1);
const ValueType a0 = a[0];
const ValueType x0 = x[0];
if (block_size > 1) {
TV vc0(c0), vc1(c1), va0(a0), vx0(x0), vy0;
TV ai, ai2, xi, yi;
const MatrixValue *aa = a;
const VectorValue *xx = x;
VectorValue *yy = y;
vy0.zero();
const size_type nBlock = dim / block_size;
const size_type iEnd = nBlock * block_size;
if (tensor.symmetric()) {
size_type i=0;
for ( ; i < iEnd; i+=block_size,aa+=block_size,xx+=block_size,yy+=block_size) {
ai.aligned_load(aa);
ai2 = ai;
xi.aligned_load(xx);
yi.aligned_load(yy);
// y[i] += c1*(a0*xi + ai*x0);
ai.times_equal(vx0);
ai2.times_equal(xi);
xi.times_equal(va0);
xi.plus_equal(ai);
xi.times_equal(vc1);
yi.plus_equal(xi);
yi.aligned_scatter(yy);
// y0 += c1*ai*xi;
ai2.times_equal(vc1);
vy0.plus_equal(ai2);
}
ValueType y0 = vy0.sum();
// Do remaining entries with a scalar loop
for ( ; i < dim; ++i) {
const ValueType ai = *aa++;
const ValueType xi = *xx++;
*yy++ += c1*(a0*xi + ai*x0);
y0 += c1*ai*xi;
}
y[0] += y0 + (c0-3.0*c1)*a0*x0;
}
else {
const ValueType c2 = tensor.value(2);
TV vc2(c2);
size_type i=0;
for ( ; i < iEnd; i+=block_size,aa+=block_size,xx+=block_size,yy+=block_size) {
ai.aligned_load(aa);
ai2 = ai;
xi.aligned_load(xx);
yi.aligned_load(yy);
// y[i] += c1*(a0*xi + ai*x0) + c2*aixi;
ai.times_equal(vx0);
ai2.times_equal(xi);
xi.times_equal(va0);
xi.plus_equal(ai);
xi.times_equal(vc1);
yi.plus_equal(xi);
ai = ai2;
ai.times_equal(vc2);
yi.plus_equal(ai);
yi.aligned_scatter(yy);
// y0 += c1*aixi;
ai2.times_equal(vc1);
vy0.plus_equal(ai2);
}
ValueType y0 = vy0.sum();
// Do remaining entries with a scalar loop
for ( ; i < dim; ++i) {
const ValueType ai = *aa++;
const ValueType xi = *xx++;
const ValueType aixi = ai*xi;
*yy++ += c1*(a0*xi + ai*x0) + c2*aixi;
y0 += c1*aixi;
}
y[0] += y0 + (c0-3.0*c1-c2)*a0*x0;
}
}
else {
ValueType y0 = c0*a0*x0;
if (tensor.symmetric()) {
for ( size_type i = 1; i < dim; ++i) {
const ValueType ai = a[i];
const ValueType xi = x[i];
y[i] += c1*(a0*xi + ai*x0);
y0 += c1*ai*xi;
}
y[0] += y0;
}
else {
const ValueType c2 = tensor.value(2);
for ( size_type i = 1; i < dim; ++i) {
const ValueType ai = a[i];
const ValueType xi = x[i];
const ValueType aixi = ai*xi;
y[i] += c1*(a0*xi + ai*x0) + c2*aixi;
y0 += c1*aixi;
}
y[0] += y0;
}
}
}
KOKKOS_INLINE_FUNCTION
static size_type matrix_size( const tensor_type & tensor )
{ return tensor.dimension(); }
KOKKOS_INLINE_FUNCTION
static size_type vector_size( const tensor_type & tensor )
{ return tensor.dimension(); }
};
} /* namespace Stokhos */
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
#endif /* #ifndef STOKHOS_LINEAR_SPARSE_3_TENSOR_HPP */
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