Optimal Task Scheduling by Removing Inter-Core Communication Overhead for Streaming Applications on MPSoC

2010 16th IEEE Real-Time and Embedded Technology and Applications Symposium Pub Date : 2010-04-01 DOI:10.1109/RTAS.2010.19

Yi Wang, Duo Liu, M. Wang, Zhiwei Qin, Z. Shao

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引用次数: 38

Abstract

In this paper, we jointly optimize computation and communication task scheduling for streaming applications on MPSoC. The objective is to minimize schedule length by totally removing inter-core communication overhead. By minimizing schedule length, the system performance can be improved by adopting a smaller period or exploring the slacks generated for energy reduction with DVS. To guarantee the schedulability of communication tasks, we perform the schedulability analysis, and theoretically obtain the upper bound of the times needed to reschedule each computation task. Based on the analysis, we formulate the scheduling problem as an ILP (Integer Linear Programming) formulation and obtain an optimal solution. We evaluate our technique with a set of benchmarks from both real-life streaming applications and synthetic task graphs. The simulation results show that our technique can achieve a 27.72% reduction in schedule length and a 13.38% reduction in energy consumption on average compared with the previous work.

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通过消除MPSoC上流应用程序的核间通信开销来优化任务调度

在本文中，我们共同优化了MPSoC上流应用的计算和通信任务调度。目标是通过完全消除核间通信开销来最小化调度长度。通过最小化调度长度，可以通过采用更小的周期或探索分布式交换机为节能而产生的松弛来提高系统性能。为了保证通信任务的可调度性，我们进行了可调度性分析，从理论上得到了每个计算任务重新调度所需时间的上界。在此基础上，我们将调度问题表述为整数线性规划(ILP)形式，并得到了最优解。我们使用一组来自现实生活中的流应用程序和合成任务图的基准来评估我们的技术。仿真结果表明，与以前的工作相比，我们的技术平均可以减少27.72%的进度长度和13.38%的能耗。

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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2010 16th IEEE Real-Time and Embedded Technology and Applications Symposium

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