A Heuristic-Based Approach for Reducing the Power Consumption of Real-Time Embedded Systems

V. Radulescu, S. Andrei, A. Cheng
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引用次数: 3

Abstract

The current trend in designing power-efficient devices is concerning not only Personal Computer-like (PC) systems, but also real-time embedded systems. While a lot of research has been done on minimizing the total energy of a system, adapting the scheduling techniques for lower energy consumption has been less popular. Nevertheless, this can prove highly efficient, as the Central Processing Units (CPUs) are usually responsible for the largest part of the whole system's energy consumption. This paper presents an approach on improving the energy consumption of a real-time system. Starting with a given feasible schedule for a non-preemptive, single-instance, n-task set, power saving is achieved by reducing the CPU frequency whenever possible, without breaking the task deadlines. The goal can be described in analytical terms as a multivariate optimization problem. Due to the complexity of the resulting problem, the use of heuristic techniques provides good chances for finding the desired optimum. To the best of our knowledge, the use of these methods for the power-aware scheduling problem has not been attempted.
一种基于启发式的实时嵌入式系统功耗降低方法
目前设计节能设备的趋势不仅涉及类个人计算机系统,而且涉及实时嵌入式系统。虽然已经有很多关于最小化系统总能量的研究,但采用更低能耗的调度技术却不太受欢迎。然而,这可以证明是非常高效的,因为中央处理单元(cpu)通常负责整个系统能耗的最大部分。本文提出了一种提高实时系统能耗的方法。对于非抢占式、单实例、n任务集,从给定的可行调度开始,在不破坏任务截止日期的情况下,通过尽可能降低CPU频率来实现节能。这个目标可以用解析术语描述为一个多变量优化问题。由于结果问题的复杂性,启发式技术的使用为找到理想的最优提供了很好的机会。据我们所知,还没有人尝试使用这些方法来解决功率感知调度问题。
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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