三维直线网格算法的处理器时间最小化调度

Proceedings The International Conference on Application Specific Array Processors Pub Date : 1995-07-24 DOI:10.1109/ASAP.1995.522902

C. Scheiman, P. Cappello

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引用次数: 8

摘要

本文采用有向无环图(dag)算法模型，研究了n/sub x//spl次/n/sub y//spl次/n/sub z/有向直线网格的优先约束多处理器调度问题。它的完成至少需要n/下标x/+n/下标y/+n/下标z/-2个多处理器步骤。使用尽可能少的处理器的时间最小多处理器调度称为处理器时间最小调度。给出了n/sub x//spl次/n/sub y//spl次/n/sub z/定向网格的下界，并通过构建一个处理器时间最少的多处理器调度来证明这些下界是精确的，该调度可以在拓扑结构为二维网格或倾斜圆柱体的收缩阵列上实现。本文的贡献是双重的:它推广了以前关于立方体网格算法的工作，并提出了一种更优雅的数学方法来推导此类问题的处理器时间下界。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A processor-time-minimal schedule for 3D rectilinear mesh algorithms

The paper, using a directed acyclic graph (dag) model of algorithms, investigates precedence constrained multiprocessor schedules for the n/sub x//spl times/n/sub y//spl times/n/sub z/ directed rectilinear mesh. Its completion requires at least n/sub x/+n/sub y/+n/sub z/-2 multiprocessor steps. Time-minimal multiprocessor schedules that use as few processors as possible are called processor-time-minimal. Lower bounds are shown for the n/sub x//spl times/n/sub y//spl times/n/sub z/ directed mesh, and these bounds are shown to be exact by constructing a processor-time-minimal multiprocessor schedule that can be realized on a systolic array whose topology is either a two dimensional mesh or skewed cylinder. The contribution of this paper is two-fold: It generalizes the previous work on cubical mesh algorithms, and it presents a more elegant mathematical method for deriving processor-time lower bounds for such problems.

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Proceedings The International Conference on Application Specific Array Processors

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