一种生成数据分布以优化通信的方法

[1992] Proceedings of the Fourth IEEE Symposium on Parallel and Distributed Processing Pub Date : 1992-12-01 DOI:10.1109/SPDP.1992.242712

S. Gupta, S. Kaushik, Chua-Huang Huang, John R. Johnson, Rodney W. Johnson, P. Sadayappan

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引用次数: 10

摘要

作者提出了一种基于张量积的代数理论，用于描述正则数据分布(如块分布、循环分布和块循环分布)的语义。这些发行版是在高性能Fortran中提出的，这是一项为大规模并行计算开发Fortran扩展的持续努力。该代数理论已被用于设计和实现共享内存和矢量多处理器上的块递归算法。在本工作中，作者将这一理论扩展到从张量积公式中生成具有显式数据分布命令的程序。描述了一种生成优化通信的数据分布的方法。该方法通过生成具有快速傅里叶变换数据分布的高效程序来证明。

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A methodology for generating data distributions to optimize communication

The authors present an algebraic theory, based on the tensor product for describing the semantics of regular data distributions such as block, cyclic, and block-cyclic distributions. These distributions have been proposed in high performance Fortran, an ongoing effort for developing a Fortran extension for massively parallel computing. This algebraic theory has been used for designing and implementing block recursive algorithms on shared-memory and vector multiprocessors. In the present work, the authors extend this theory to generate programs with explicit data distribution commands from tensor product formulas. A methodology to generate data distributions that optimize communication is described. This methodology is demonstrated by generating efficient programs with data distribution for the fast Fourier transform.<>

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[1992] Proceedings of the Fourth IEEE Symposium on Parallel and Distributed Processing

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