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library
LibUtilities
LinearAlgebra
StorageSmvBsr.hpp
Go to the documentation of this file.
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///////////////////////////////////////////////////////////////////////////////
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//
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// File: StorageSmvBsr.hpp
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//
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// For more information, please see: http://www.nektar.info
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//
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// The MIT License
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//
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// Copyright (c) 2006 Division of Applied Mathematics, Brown University (USA),
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// Department of Aeronautics, Imperial College London (UK), and Scientific
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// Computing and Imaging Institute, University of Utah (USA).
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//
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// License for the specific language governing rights and limitations under
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// Permission is hereby granted, free of charge, to any person obtaining a
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// copy of this software and associated documentation files (the "Software"),
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// to deal in the Software without restriction, including without limitation
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// the rights to use, copy, modify, merge, publish, distribute, sublicense,
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// and/or sell copies of the Software, and to permit persons to whom the
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// Software is furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included
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// in all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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// DEALINGS IN THE SOFTWARE.
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//
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// Description: 0-based sparse BSR storage class with own unrolled and
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// LibSMV multiply kernels.
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//
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///////////////////////////////////////////////////////////////////////////////
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#ifndef NEKTAR_LIB_UTILITIES_LINEAR_ALGEBRA_STORAGE_SMV_BSR_HPP
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#define NEKTAR_LIB_UTILITIES_LINEAR_ALGEBRA_STORAGE_SMV_BSR_HPP
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#include <map>
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#include <vector>
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#include <utility>
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#include <fstream>
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#include <
LibUtilities/LinearAlgebra/MatrixStorageType.h
>
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#include <
LibUtilities/LinearAlgebra/SparseMatrixFwd.hpp
>
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#include <boost/call_traits.hpp>
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namespace
Nektar
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{
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/*
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* Zero-based BSR (Block Sparse Row) storage class with its sparse
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* multiply kernels built upon dense multiply kernels provided by
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* LibSMV library. It also includes its own unrolled multiply kernels
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* up to 4x4 matrices, provided 'just in case' LibSMV library
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* is not available. When matrix is larger than either one
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* supported by LibSMV library or 4x4 (whichever is greater), the
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* multiply kernel calls dense dgemv from BLAS.
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*
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* The BSR sparse format assumes sparse matrix is a CSR collection of
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* dense square blocks of same size. In contrast with Nist BSR class
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* this one uses zero-based storage. The constructor takes input matrix in
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* block coordinate storage (BCO) sparse format.
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*
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*/
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template
<
typename
T>
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class
StorageSmvBsr
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{
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public
:
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typedef
T
DataType
;
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typedef
Array<OneD, DataType>
DataVectorType
;
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typedef
Array<OneD, const DataType>
ConstDataVectorType
;
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typedef
Array<OneD, IndexType>
IndexVectorType
;
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typedef
void
(*
MultiplyKernel
)(
const
double
*,
const
double
*,
double
*);
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/// \internal
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/// \brief Forward iterator through nonzero (double) elements of the matrix
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/// that mimics forward iteration of BCOMatType.
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/// It's a dirty hack, not a real iterator in the C++ sense.
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class
const_iterator
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{
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struct
IterType
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{
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CoordType
first
;
//< (row, column)
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DataType
second
;
//< value
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IndexType
nnzindex
;
//< index of this nnz entry
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IndexType
storageindex
;
//< offset of this nnz entry in the storage
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};
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public
:
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const_iterator
(
MatrixStorage
matType,
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IndexType
begin
,
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IndexType
end
,
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IndexType
blkDim,
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const
DataVectorType
& val,
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const
IndexVectorType
& indx,
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const
IndexVectorType
& pntr);
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const_iterator
(
const
const_iterator
& src);
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~const_iterator
();
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const_iterator
operator++
(
int
);
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const_iterator
&
operator++
();
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const
IterType
&
operator*
();
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const
IterType
*
operator->
();
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const
bool
operator==
(
const
const_iterator
& rhs);
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const
bool
operator!=
(
const
const_iterator
& rhs);
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// one way conversion: iterator -> const_iterator
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// operator const_iterator<T const, Tag>() const;
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private
:
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void
forward
();
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CoordType
storageIndexToFullCoord
(
IndexType
storageIndex);
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MatrixStorage
m_matType
;
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IterType
m_iter
;
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IndexType
m_begin
;
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IndexType
m_end
;
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IndexType
m_blkDim
;
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const
DataVectorType
&
m_val
;
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const
IndexVectorType
&
m_indx
;
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const
IndexVectorType
&
m_pntr
;
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};
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public
:
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// Constructs zero-based BSR sparse matrix based on input BCO storage
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LIB_UTILITIES_EXPORT
StorageSmvBsr
(
const
IndexType
blkRows,
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const
IndexType
blkCols,
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const
IndexType
blkDim,
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const
BCOMatType
& bcoMat,
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const
MatrixStorage
matType =
eFULL
);
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// Copy constructor
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LIB_UTILITIES_EXPORT
StorageSmvBsr
(
const
StorageSmvBsr
& src);
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LIB_UTILITIES_EXPORT
~StorageSmvBsr
();
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LIB_UTILITIES_EXPORT
const
IndexType
GetRows
()
const
;
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LIB_UTILITIES_EXPORT
const
IndexType
GetColumns
()
const
;
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LIB_UTILITIES_EXPORT
const
IndexType
GetNumNonZeroEntries
()
const
;
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LIB_UTILITIES_EXPORT
const
IndexType
GetNumStoredDoubles
()
const
;
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LIB_UTILITIES_EXPORT
const
IndexType
GetBlkSize
()
const
;
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LIB_UTILITIES_EXPORT
const
DataType
GetFillInRatio
()
const
;
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LIB_UTILITIES_EXPORT
const
size_t
GetMemoryUsage
(
IndexType
nnz,
IndexType
nRows)
const
;
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LIB_UTILITIES_EXPORT
const_iterator
begin
()
const
;
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LIB_UTILITIES_EXPORT
const_iterator
end
()
const
;
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LIB_UTILITIES_EXPORT
const
typename
boost::call_traits<DataType>::const_reference
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GetValue
(
IndexType
row,
IndexType
column)
const
;
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LIB_UTILITIES_EXPORT
void
Multiply
(
const
DataType
* in,
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DataType
* out);
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LIB_UTILITIES_EXPORT
void
Multiply
(
const
DataVectorType
&in,
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DataVectorType
&out);
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LIB_UTILITIES_EXPORT
void
MultiplyLight
(
const
DataVectorType
&in,
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DataVectorType
&out);
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protected
:
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// converts input vector of BCO blocks
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// to the internal zero-based BSR representation
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void
processBcoInput
(
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const
IndexType
blkRows,
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const
IndexType
blkColumns,
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const
IndexType
blkDim,
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const
BCOMatType
& bcoMat);
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void
Multiply_1x1
(
const
int
mb,
const
int
kb,
const
double
* val,
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const
int
* bindx,
const
int
* bpntrb,
const
int
* bpntre,
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const
double
* b,
double
* c);
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void
Multiply_2x2
(
const
int
mb,
const
int
kb,
const
double
* val,
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const
int
* bindx,
const
int
* bpntrb,
const
int
* bpntre,
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const
double
* b,
double
* c);
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void
Multiply_3x3
(
const
int
mb,
const
int
kb,
const
double
* val,
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const
int
* bindx,
const
int
* bpntrb,
const
int
* bpntre,
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const
double
* b,
double
* c);
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void
Multiply_4x4
(
const
int
mb,
const
int
kb,
const
double
* val,
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const
int
* bindx,
const
int
* bpntrb,
const
int
* bpntre,
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const
double
* b,
double
* c);
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void
Multiply_generic
(
const
int
mb,
const
int
kb,
const
double
* val,
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const
int
* bindx,
const
int
* bpntrb,
const
int
* bpntre,
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const
double
* b,
double
* c);
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#ifdef NEKTAR_USING_SMV
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void
Multiply_libsmv(
const
int
mb,
const
int
kb,
const
double
* val,
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const
int
* bindx,
const
int
* bpntrb,
const
int
* bpntre,
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const
double
* b,
double
* c);
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#endif
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// interface to lowest level LibSMV multiply kernels
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MultiplyKernel
m_mvKernel
;
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MatrixStorage
m_matType
;
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IndexType
m_blkRows
;
// number of block rows
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IndexType
m_blkCols
;
// number of block columns
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IndexType
m_blkDim
;
// rank of each block
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IndexType
m_bnnz
;
//< number of nonzero blocks
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IndexType
m_nnz
;
//< number of factual nonzero entries in the sparse matrix
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DataVectorType
m_val
;
// values of non-zero entries
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IndexVectorType
m_indx
;
// column indices of non-zero entries
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IndexVectorType
m_pntr
;
// m_pntr(i) contains index in m_val of first non-zero element in row i
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private
:
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};
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}
// namespace
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#endif //NEKTAR_LIB_UTILITIES_LINEAR_ALGEBRA_STORAGE_SMV_BSR_HPP
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