有效的代码生成自动并行和优化

Second International Symposium on Parallel and Distributed Computing, 2003. Proceedings. Pub Date : 2003-10-13 DOI:10.1109/ISPDC.2003.1267639

C. Bastoul

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引用次数: 66

摘要

超级编译器在计算最密集的内核中寻找语句实例的最佳执行顺序。广泛的研究表明，多面体模型为寻找和执行有用的程序转换提供了方便的抽象。然而，目前的多面体代码生成算法由于主要处理单模或至少是可逆变换函数而缺乏灵活性。此外，对于大型问题(包含许多语句)，它们的复杂性是具有挑战性的。本文讨论了一个能处理非非模、不可逆函数的一般变换框架。本文给出了迄今为止已知的最佳算法之一的完整改进版本，以实际执行代码生成。实验证据证明了我们的框架处理现实问题的能力。

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Efficient code generation for automatic parallelization and optimization

Supercompilers look for the best execution order of the statement instances in the most compute intensive kernels. It has been extensively shown that the polyhedral model provides convenient abstractions to find and perform the useful program transformations. Nevertheless, the current polyhedral code generation algorithms lack for flexibility by adressing mainly unimodular or at least invertible transformation functions. Moreover, their complexity is challenging for large problems (with many statements). In this paper, we discuss a general transformation framework able to deal with non-unimodular, non-invertible functions. A completed and improved version of one of the best algorithms known so far is presented to actually perform the code generation. Experimental evidence proves the ability of our framework to handle real-life problems.

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Second International Symposium on Parallel and Distributed Computing, 2003. Proceedings.

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