Many-core architecture-oriented sparse matrix vector multiplication many-core optimization method

A technology of sparse matrix and optimization method, which is applied in the field of sparse matrix vector multiplication many-core optimization for many-core architecture, can solve severe load balancing, poor Spmv many-core optimization effect, and inability to effectively utilize CPU and many-core coprocessors Data transmission bandwidth and other issues to achieve the effect of improving locality, good application prospects, and improving many-core acceleration performance

Inactive Publication Date: 2021-03-26
JIANGNAN INST OF COMPUTING TECH
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Problems solved by technology

This method can effectively alleviate the discrete memory access problem in sparse matrix-vector multiplication. However, the sparse matrices generated in unstructured grid CFD applications are often extremely sparse (each row of a sparse matrix often has only a few non-zero elements) and the number of non-zero elements The distribution has a ...

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  • Many-core architecture-oriented sparse matrix vector multiplication many-core optimization method

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Embodiment

[0031] Embodiment: a kind of sparse matrix-vector multiplication many-core optimization method for many-core architecture comprises the following steps:

[0032] S1, known: number of rows is m, the sparse matrix A that column number is n, length is the vector x of n; Solution length is the vector y of m, and y=Ax is the dot product of sparse matrix A and vector x;

[0033] S1, define x vector block size blk_x_size, divide x vector element into blocks according to x vector element subscript x vector is carried out into blocks;

[0034] S2. According to the block information of the x vector, that is, the x vector block number information where the x vector element obtained by solving in S1 is located, the original sparse matrix, that is, the x vector block corresponding to the column number of each row of non-zero elements in the sparse matrix A, is counted. Numbering, thus counting the numbering information of the x vector block required for each row of the sparse matrix when t...

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Abstract

The invention discloses a many-core architecture-oriented sparse matrix vector multiplication many-core optimization method. The method comprises the following steps of S1, knowing a sparse matrix A of which the row number is m and the column number is n and a vector x of which the length is n; solving a vector y with the length of m, wherein y = Ax is the dot product of the sparse matrix A and the vector x; the method comprises the following steps: S1, defining the size blkxsize of an x vector block, and partitioning the x vector element according to an x vector element subscript to partitionan x vector; and S2, counting the number of the x vector block corresponding to the column number of each row of non-zero elements in the original sparse matrix, namely the sparse matrix A. Accordingto the blocking information of the x vector, namely the number information of the x vector block where the x vector element obtained by solving in the step S1 is located, thereby counting the numberinformation of the x vector block required by each row of the sparse matrix when the sparse matrix vector is multiplied. According to the method, the overall many-core acceleration performance is improved, the locality of data access is improved, and the optimization effect on unstructured grid CFD application is obvious.

Description

technical field [0001] The invention belongs to the technical field of sparse matrix-vector multiplication, and in particular relates to a multi-core optimization method for sparse matrix-vector multiplication oriented to many-core architecture. Background technique [0002] With the deepening of unstructured grid CFD application research and the rapid development of supercomputer technology, the many-core acceleration of sparse matrix-vector multiplication has become one of the focuses of CFD application optimization research. [0003] Due to the loose distribution of non-zero elements of the sparse matrix generated by the CFD application of unstructured grids, and the large span of different non-zero element numbers, one of the calculation cores of the program - Sparse Matrix-Vector Multiplication (Spmv) has a very obvious discrete memory access problem. This has also become a difficulty in the many-core optimization of non-institutional grid CFD applications. [0004] As...

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Application Information

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IPC IPC(8): G06F30/28G06F113/08G06F119/14
Inventor 郭恒陈鑫刘鑫陈德训李芳徐金秀孙唯哲
Owner JIANGNAN INST OF COMPUTING TECH
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