Flow Time Minimization under Energy Constraints

2007 Asia and South Pacific Design Automation Conference Pub Date : 2007-01-23 DOI:10.1109/ASPDAC.2007.358098

Jian-Jia Chen, K. Iwama, Tei-Wei Kuo, Hsueh-I Lu

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引用次数: 2

Abstract

Power-aware and energy-efficient designs play important roles for modern hardware and software designs, especially for embedded systems. This paper targets a scheduling problem on a processor with the capability of dynamic voltage scaling (DVS), which could reduce the power consumption by slowing down the processor speed. The objective of the targeting problem is to minimize the average flow time of a set of jobs under a given energy constraint, where the flow time of a job is defined as the interval length between the arrival and the completion of the job. We consider two types of processors, which have a continuous spectrum of the available speeds or have only a finite number of discrete speeds. Two algorithms are given: (1) An algorithm is proposed to derive optimal solutions for processors with a continuous spectrum of the available speeds. (2) A greedy algorithm is designed for the derivation of optimal solutions for processors with a finite number of discrete speeds. The proposed algorithms are extended to cope with jobs with different weights for the minimization of the average weighted flow time. The proposed algorithms are also evaluated with comparisons to schedules which execute jobs at a common effective speed.

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能量约束下的流时间最小化

功耗感知和节能设计在现代硬件和软件设计中，特别是嵌入式系统中起着重要的作用。本文针对具有动态电压缩放(DVS)能力的处理器的调度问题，通过降低处理器的速度来降低功耗。目标问题的目标是在给定能量约束下使一组作业的平均流程时间最小，其中作业的流程时间定义为作业到达和完成之间的间隔长度。我们考虑两种类型的处理器，它们具有连续的可用速度谱或只有有限数量的离散速度。给出了两种算法:(1)提出了一种求解具有连续可用速度谱的处理器的最优解的算法。(2)设计了一种贪心算法，用于求解具有有限个离散速度的处理器的最优解。为了使平均加权流时间最小，将所提算法扩展到处理不同权值的作业。本文还将所提出的算法与以共同有效速度执行作业的调度进行了比较。

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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2007 Asia and South Pacific Design Automation Conference

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