Algorithms for power-aware resource activation

2014 21st International Conference on High Performance Computing (HiPC) Pub Date : 2014-12-01 DOI:10.1109/HiPC.2014.7116891

Sonika Arora, Archita Agarwal, Venkatesan T. Chakaravarthy, Yogish Sabharwal

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Abstract

We study the problem of minimally activating a resource that is shared by multiple jobs. In a power-aware computing environment, the resource needs to be activated (powered-up) so that it can service the jobs. Each job specifies an interval during which its needs the services of the resource and the duration (time length) for which it requires the resource to be active. Our goal is to activate the resource for a minimum amount of time, while satisfying all the jobs. We study two variants of this problem, the contiguous and the non-contiguous cases. In the contiguous case, each job requires that its demand for the resource be serviced with a set of contiguous timeslots whereas in the non-contiguous case, the demand of a job may be serviced with a set of non-contiguous timeslots. For the contiguous case, we present an optimal polynomial time algorithm; this improves the best known result, which is an approximation algorithm having a ratio of 2. For the non-contiguous case, we present efficient algorithms for finding optimal and approximate solutions.

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功率感知资源激活算法

我们研究了最小化激活由多个作业共享的资源的问题。在对功率敏感的计算环境中，需要激活(加电)资源，以便为作业提供服务。每个作业指定一个需要资源服务的时间间隔，以及需要资源处于活动状态的持续时间(时间长度)。我们的目标是在满足所有作业的同时，在最短的时间内激活资源。我们研究了这一问题的两种变体，即连续和非连续情况。在连续的情况下，每个作业要求用一组连续的时隙来满足其对资源的需求，而在非连续的情况下，作业的需求可以用一组不连续的时隙来满足。对于连续情况，我们给出了一个最优多项式时间算法;这改进了最著名的结果，它是一个比率为2的近似算法。对于不连续的情况，我们给出了寻找最优解和近似解的有效算法。

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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2014 21st International Conference on High Performance Computing (HiPC)

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