ViennaCL - The Vienna Computing Library  1.5.2
Data Structures | Namespaces | Functions
spai.hpp File Reference

OpenCL kernel file for sparse approximate inverse operations. More...

#include "viennacl/tools/tools.hpp"
#include "viennacl/ocl/kernel.hpp"
#include "viennacl/ocl/platform.hpp"
#include "viennacl/ocl/utils.hpp"

Go to the source code of this file.

Data Structures

struct  spai< NumericT >
 Main kernel class for generating OpenCL kernels for the sparse approximate inverse preconditioners. More...
 

Namespaces

 viennacl
 Main namespace in ViennaCL. Holds all the basic types such as vector, matrix, etc. and defines operations upon them.
 
 viennacl::linalg
 Provides all linear algebra operations which are not covered by operator overloads.
 
 viennacl::linalg::opencl
 Holds all routines providing OpenCL linear algebra operations.
 
 viennacl::linalg::opencl::kernels
 Contains the OpenCL kernel generation functions for a predefined set of functionality.
 

Functions

template<typename StringType >
void generate_spai_assemble_blocks (StringType &source, std::string const &numeric_string)
 
template<typename StringType >
void generate_spai_block_bv_assembly (StringType &source, std::string const &numeric_string)
 
template<typename StringType >
void generate_spai_block_least_squares (StringType &source, std::string const &numeric_string)
 
template<typename StringType >
void generate_spai_block_q_mult (StringType &source, std::string const &numeric_string)
 
template<typename StringType >
void generate_spai_block_qr (StringType &source, std::string const &numeric_string)
 
template<typename StringType >
void generate_spai_block_qr_assembly (StringType &source, std::string const &numeric_string)
 
template<typename StringType >
void generate_spai_block_qr_assembly_1 (StringType &source, std::string const &numeric_string)
 
template<typename StringType >
void generate_spai_block_r_assembly (StringType &source, std::string const &numeric_string)
 

Detailed Description

OpenCL kernel file for sparse approximate inverse operations.