基于动态规划的并行化多序列最优对齐

2008 IEEE International Symposium on Parallel and Distributed Processing with Applications Pub Date : 2008-12-10 DOI:10.1109/ISPA.2008.93

M. Helal, H. ElGindy, L. Mullin, B. Gaëta

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引用次数: 8

摘要

与许多高维科学计算问题一样，由于缺乏合适的分区和依赖关系管理方案，动态规划的最优多序列对齐问题未能从多处理器系统带来的计算性能改进中获益。提出了一种基于点对点设计和多维数组索引方法的动态规划多序列对齐并行实现方案。与之前描述的主/从设计相比，这种设计的性能提高了5倍，并且随着所使用的处理器数量的增加而扩展。本研究展示了一种利用多处理器架构并行化多维动态规划和类似算法的方法。

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Parallelizing Optimal Multiple Sequence Alignment by Dynamic Programming

Optimal multiple sequence alignment by dynamic programming, like many highly dimensional scientific computing problems, has failed to benefit from the improvements in computing performance brought about by multi-processor systems, due to the lack of suitable scheme to manage partitioning and dependencies. A scheme for parallel implementation of the dynamic programming multiple sequence alignment is presented, based on a peer to peer design and a multidimensional array indexing method. This design results in up to 5-fold improvement compared to a previously described master/slave design, and scales favourably with the number of processors used. This study demonstrates an approach for parallelising multi-dimensional dynamic programming and similar algorithms utilizing multi-processor architectures.

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2008 IEEE International Symposium on Parallel and Distributed Processing with Applications

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