Single-rate approximations of cyclo-static synchronous dataflow graphs

Software and Compilers for Embedded Systems Pub Date : 2014-06-10 DOI:10.1145/2609248.2609249

R. D. Groote, P. Hölzenspies, J. Kuper, G. Smit

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引用次数: 6

Abstract

Exact analysis of synchronous dataflow (sdf) graphs is often considered too costly, because of the expensive transformation of the graph into a single-rate equivalent. As an alternative, several authors have proposed approximate analyses. Existing approaches to approximation are based on the operational semantics of an sdf graph. We propose an approach to approximation that is based on functional semantics. This generalises earlier work done on multi-rate sdf graphs towards cyclo-static sdf (csdf) graphs. We take, as a starting point, a mathematical characterisation, and derive two transformations of a csdf graph into hsdf graphs. These hsdf graphs have the same size as the csdf graph, and are approximations: their respective temporal behaviours are optimistic and pessimistic with respect to the temporal behaviour of the csdf graph. Analysis results computed for these single-rate approximations give bounds on the analysis results of the csdf graph. As an illustration, we show how these single-rate approximations may be used to compute bounds on the buffer sizes required to reach a given throughput.

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循环静态同步数据流图的单速率近似

对同步数据流(sdf)图的精确分析通常被认为代价太高，因为将图转换为单速率等价图的代价太高。作为一种替代方法，一些作者提出了近似分析。现有的逼近方法是基于sdf图的操作语义。我们提出了一种基于功能语义的近似方法。这将早期在多速率sdf图上所做的工作推广到循环静态sdf (csdf)图。我们以数学表征为出发点，推导出csdf图到hsdf图的两个变换。这些hsdf图与csdf图具有相同的大小，并且是近似值:相对于csdf图的时间行为，它们各自的时间行为是乐观的和悲观的。对这些单速率近似计算的分析结果给出了csdf图分析结果的界。作为示例，我们将展示如何使用这些单速率近似来计算达到给定吞吐量所需的缓冲区大小的界限。

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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Software and Compilers for Embedded Systems

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