implements an m-way jagged partitioning heuristic using the second dimension as the main dimension.
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#include <twod/m_way_jag_2d.hpp>
Detailed Description
template<typename T, typename Pr, T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, false > &prefixSumArray, int length, int *cutIndexes, T) onedalgoY = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, false> >::nicol_plus, T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, true > &prefixSumArray, int length, int *cutIndexes, T) onedalgoX = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, true> >::nicol_plus>
class twod::JagMHeurVer< T, Pr, onedalgoY, onedalgoX >
implements an m-way jagged partitioning heuristic using the second dimension as the main dimension.
This class is implemented as a wrapper to twod::JagMHeurHor.
- Parameters:
-
| T | data type of instance matrix |
| Pr | data type of 2D matrix |
| onedalgoY | 1d partitioning algorithm to be used to fix columns. If unspecified, uses oned::NicolPlus |
| onedalgoX | 1d partitioning algorithm to be used to fix rows. If unspecified, uses oned::NicolPlus |
List of all members.
Constructor & Destructor Documentation
template<typename T , typename Pr , T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, false > &prefixSumArray, int length, int *cutIndexes, T) onedalgoY = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, false> >::nicol_plus, T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, true > &prefixSumArray, int length, int *cutIndexes, T) onedalgoX = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, true> >::nicol_plus>
template<typename T , typename Pr , T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, false > &prefixSumArray, int length, int *cutIndexes, T) onedalgoY = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, false> >::nicol_plus, T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, true > &prefixSumArray, int length, int *cutIndexes, T) onedalgoX = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, true> >::nicol_plus>
Member Function Documentation
template<typename T , typename Pr , T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, false > &prefixSumArray, int length, int *cutIndexes, T) onedalgoY, T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, true > &prefixSumArray, int length, int *cutIndexes, T) onedalgoX>
Applies 2d heuristic jagged partitioning to a given 2d prefixSumArray
- Parameters:
-
[in] | procCount | is the number of processors |
[in] | prefixSumArray | first column and first row consists of zero only. But the borders of rectangles in rect_list never touch this area (index 0 in row or column) |
[out] | parts | must be allocated before calling this function |
- Returns:
- the load of the most loaded rectangle in the generated partition.
Implements twod::PartBase< T, Pr >.
template<typename T , typename Pr , T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, false > &prefixSumArray, int length, int *cutIndexes, T) onedalgoY = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, false> >::nicol_plus, T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, true > &prefixSumArray, int length, int *cutIndexes, T) onedalgoX = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, true> >::nicol_plus>
selects the number of stripes in the main dimension.
- Parameters:
-
| P | number of stripes in the main dimension. If 0, the number of stripes will be computed at runtime by taking the square root of the number of processors. If -1, the number of stripes is ceil(sqrt(m*prefixsizeX/prefixsizeY)). -1 is the default. |
Member Data Documentation
template<typename T , typename Pr , T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, false > &prefixSumArray, int length, int *cutIndexes, T) onedalgoY = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, false> >::nicol_plus, T(*)(int procCount, const util::Aggreg2Dto1D< T, util::TransposePrefix2D< T, Pr >, true > &prefixSumArray, int length, int *cutIndexes, T) onedalgoX = oned::NicolPlus<T, util::Aggreg2Dto1D<T, util::TransposePrefix2D<T, Pr>, true> >::nicol_plus>
The documentation for this class was generated from the following files: