Power-efficient real-time scheduling based on multi-granularity resource reservation for multimedia services

IET Softw. Pub Date : 2017-03-09 DOI:10.1049/iet-sen.2015.0108

Joohyung Sun, Hyeonjoong Cho

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引用次数: 1

Abstract

Recent advances in mobile technologies have led to improved quality of multimedia services (QoMS) in a variety of mobile devices. Because multimedia has become a major form of content consumption for mobile users, satisfying user expectation on QoMS in energy-restricted mobile devices is critical. This need has motivated us to develop an aggressive and conservative low-power work demand analysis with multi-granularity (lpWDA-MG-AGG/CON) algorithm, designed to minimise power consumption in mobile devices by utilising a dynamic voltage scaling technique while simultaneously ensuring QoMS based on a resource reservation scheme. In addition, the authors analytically showed the schedulability of the proposed scheme under the rate monotonic scheduling policy. For performance evaluation, the authors implemented the two lpWDA-MG algorithms and several existing algorithms in a Linux operating system. Specifically, the authors measured power consumption with a power metre and determined that the proposed algorithms consume about 40% less dynamic power than the other existing algorithms. Moreover, the authors found that the proposed algorithms ensure acceptable QoMS.

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基于多粒度资源预留的多媒体业务节能实时调度

移动技术的最新进展已经提高了各种移动设备中多媒体服务(qom)的质量。由于多媒体已经成为移动用户的主要内容消费形式，在能量受限的移动设备上满足用户对qom的期望至关重要。这种需求促使我们开发了一种具有多粒度(lpWDA-MG-AGG/CON)算法的积极和保守的低功耗工作需求分析，旨在通过利用动态电压缩放技术最小化移动设备的功耗，同时确保基于资源保留方案的QoMS。此外，在速率单调调度策略下，分析证明了所提方案的可调度性。为了进行性能评估，作者在Linux操作系统上实现了两种lpWDA-MG算法和几种现有算法。具体来说，作者用功率计测量了功耗，并确定所提出的算法比其他现有算法消耗的动态功率少40%左右。此外，作者发现所提出的算法确保了可接受的qom。

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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