Energy Efficient Distributed Systems for Storage-Based Applications

2011 International Conference on Broadband and Wireless Computing, Communication and Applications Pub Date : 2011-10-26 DOI:10.1109/BWCCA.2011.39

Takuro Inoue, A. Aikebaier, T. Enokido, M. Takizawa

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引用次数: 1

Abstract

In order to realize digital ecosystems, the total electric power consumption of servers to perform application processes has to be reduced in information systems. Applications are classified into three types, computation, communication, and storage types of applications. In the computation and communication types of applications, CPU and communication resources of computers are mainly consumed, respectively. In this paper, we consider storage-type applications which access to storage drives like hard disk (HDD) and propose a power consumption model of a computer to performed the storage type applications. First, we measure how much electric power of a whole computer is consumed to perform application processes which access to storage drive. Then, we discuss a power consumption model of a computer to perform storage application processes by abstracting most factors dominating the power consumption of a computer from the experimental results. Here, the power consumption of a computer is maximum if at least one process is performed. The maximum power consumption depends on types concurrent processes. Otherwise, the power consumption is minimum.

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基于存储应用的节能分布式系统

为了实现数字生态系统，必须降低信息系统中执行应用程序的服务器的总功耗。应用分为计算类应用、通信类应用和存储类应用。在计算类和通信类应用中，主要消耗的是计算机的CPU资源和通信资源。在本文中，我们考虑了访问存储驱动器(如硬盘(HDD))的存储类型应用程序，并提出了执行存储类型应用程序的计算机功耗模型。首先，我们测量了整个计算机在执行访问存储驱动器的应用程序过程中消耗了多少电力。然后，通过从实验结果中抽象出影响计算机功耗的大部分因素，讨论了计算机执行存储应用过程的功耗模型。在这里，如果至少执行一个进程，计算机的功耗是最大的。最大功耗取决于并发进程的类型。否则，功耗最小。

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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来源期刊

2011 International Conference on Broadband and Wireless Computing, Communication and Applications

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