基于部分可重构计算平台的并行多模式数据流架构的架构到任务优化系统(ATOS)

Proceedings. International Conference on Parallel Computing in Electrical Engineering Pub Date : 2002-09-22 DOI:10.1109/PCEE.2002.1115192

F. Chayab, L. Kirischian, L. Szajek

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引用次数: 2

摘要

本文提出了一种广泛的并行多模式数据流嵌入式计算系统的自动化体系结构综合方法。该方法基于多模式体系结构的自动合成方法。该方法允许找到多模式数据流应用程序(任务)与其并行处理体系结构之间的最佳对应关系。该方法已在一个基于部分可重构计算平台(PRCP)的架构-任务优化系统(ATOS)中实现。据估计，ATOS可以在几秒钟内以数据流图的形式为应用程序合成一个完整的体系结构，包括在PRCP上进行仿真和性能测量。所提出的方法可以显著降低研发设计阶段的成本和广泛的并行多模式嵌入式计算系统的上市时间。

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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Architecture-to-task optimization system (ATOS) for parallel multi-mode data-flow architectures on a base of a partially reconfigurable computing platform

This paper presents an approach of automated architecture synthesis for a wide class of parallel multi-mode data-flow embedded computing systems. This approach is based on the method of automated synthesis of multi-mode architectures. This method allows finding the best correspondence between a multi-mode data-flow application (task) and its parallel processing architecture. This method has been implemented in an architecture-to-task optimization system (ATOS) based on a partially reconfigurable computing platform (PRCP). It was estimated that ATOS could synthesize a complete architecture for an application presented in the form of a data-flow graph within a few seconds including emulation and performance measurements on the PRCP. The proposed approach can dramatically decrease the cost of the R&D design stage and time-to-market for a wide range of parallel multi-mode embedded computing systems.

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Proceedings. International Conference on Parallel Computing in Electrical Engineering

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