避免高斯消去的通信

2008 SC - International Conference for High Performance Computing, Networking, Storage and Analysis Pub Date : 2008-11-15 DOI:10.1109/SC.2008.5214287

L. Grigori, J. Demmel, Hua Xiang

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引用次数: 67

摘要

针对分布在二维循环布局中的密集矩阵的LU分解问题，提出了一种通信避免算法CALU。该算法基于一种新的旋转策略，在实践中具有较好的稳定性。新算法在其执行的通信量方面是最优的(达到多对数因子)。我们的实验表明，CALU可以减少并行时间，特别是当延迟时间是整体时间的重要因素时。块列(CALU的一个子例程)的分解在IBM POWER 5系统上比ScaLAPACK的相应例程PDGETF2性能高4.37倍，在Cray XT4系统上比PDGETF2性能高5.58倍。在阶为104的方阵上，CALU比来自ScaLAPACK的相应例程PDGETRF的性能在IBM POWER 5上高出1.24倍，在Cray XT4上高出1.31倍。

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Communication Avoiding Gaussian elimination

We present CALU, a Communication Avoiding algorithm for the LU factorization of dense matrices distributed in a two-dimensional cyclic layout. The algorithm is based on a new pivoting strategy, which is stable in practice. The new algorithm is optimal (up to polylogarithmic factors) in the amount of communication it performs. Our experiments show that CALU leads to a reduction in the parallel time, in particular when the latency time is an important factor of the overall time. The factorization of a block-column, a subroutine of CALU, outperforms the corresponding routine PDGETF2 from ScaLAPACK up to a factor of 4.37 on an IBM POWER 5 system and up to a factor of 5.58 on a Cray XT4 system. On square matrices of order 104, CALU outperforms the corresponding routine PDGETRF from ScaLAPACK by a factor of 1.24 on IBM POWER 5 and by a factor of 1.31 on Cray XT4.

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2008 SC - International Conference for High Performance Computing, Networking, Storage and Analysis

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