基于性能预测的动态可重构嵌入式系统运行时优化

2013 23rd International Conference on Field programmable Logic and Applications Pub Date : 2013-10-24 DOI:10.1109/FPL.2013.6645523

Giovanni Mariani, V. Sima, G. Palermo, V. Zaccaria, G. Marchiori, C. Silvano, K. Bertels

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引用次数: 3

摘要

增加动态可重构平台开发的一个关键工具是运行时资源管理器。该系统模块通过减少操作系统的开销，在多程序环境中协调软件和可重构硬件资源的使用。介绍了一种面向动态可重构平台的两层运行时资源管理器。上层由几个应用程序级管理器(每个应用程序一个)组成，它们根据资源约束和性能预测提供最合适的映射。较低的层次由集中的系统级资源管理器组成，它将硬件/软件资源分配给每个应用程序。我们提出了一个视频监控案例研究，其中提出的资源管理技术的性能平均优于现有技术的28%，引入的计算时间开销在2%以内。

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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Run-time optimization of a dynamically reconfigurable embedded system through performance prediction

A key tool to increase the exploitation of dynamic reconfigurable platforms is the run-time resource manager. This system module coordinates the usage of both software and reconfigurable hardware resources in the context of a multi-programmed environment, by alleviating the operating system's induced overhead. This paper introduces a two-layers run-time resource manager for dynamic reconfigurable platforms. The upper level is composed of several application-level managers (one for each application) that provide the most suitable mapping based on resource constraints and performance prediction. The lower level is composed of a centralized system-level resource manager that assigns the HW/SW resources to each application. We present a video surveillance case study in which the proposed resource management technique outperforms the performance of the state of the art by 28% on average, introducing a computational time overhead within 2%.

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2013 23rd International Conference on Field programmable Logic and Applications

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