从顺序代码探索快速并行应用和多处理器设计空间

2015 International Conference on Hardware/Software Codesign and System Synthesis (CODES+ISSS) Pub Date : 2015-10-04 DOI:10.1109/CODESISSS.2015.7331379

V. Schwambach, Sébastien Cleyet-Merle, Alain Issard, S. Mancini

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引用次数: 0

摘要

在设计特定应用的多处理器时，会出现两个关键问题:(i)如何确定多处理器平台的尺寸，以最小的面积和功耗满足应用需求;(ii)如何并行化目标应用程序，以最大限度地利用平台。在本文中，我们提出了一种从顺序应用轨迹和并行化场景出发的早期联合并行应用和多处理器设计空间探索的方法。我们描述了它在Parana中的实现，Parana是一个快速跟踪驱动的模拟器，针对意法半导体STxP70专用多处理器上的OpenMP应用程序。NAS并行基准测试和两个计算机视觉应用程序的结果显示，与参考周期近似模拟器相比，误差范围小于10%，建模工作量更少，执行时间快了一个数量级。

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Fast parallel application and multiprocessor design space exploration from sequential code

When designing an application-specific multiprocessor, two key questions arise: (i) how to size the multiprocessor platform to meet application requirements with lowest area and power consumption; and (ii) how to parallelize the target application in order maximize the utilization of the platform. In this paper, we present a methodology for early joint parallel application and multiprocessor design space exploration from sequential application traces and parallelization scenarios. We describe its implementation in Parana, a fast trace-driven simulator, targeting OpenMP applications on the STMicroelectronics' STxP70 Application-Specific Multiprocessor. Results for a NAS Parallel Benchmark and two computer vision applications show an error margin of less than 10% compared to the reference cycle-approximate simulator, with lower modeling effort and one order of magnitude faster execution time.

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来源期刊

2015 International Conference on Hardware/Software Codesign and System Synthesis (CODES+ISSS)

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