A Lightweight Pseudo CPU Hotplug Mechanism for Mobile Devices

2016 10th International Conference on Next Generation Mobile Applications, Security and Technologies (NGMAST) Pub Date : 2016-08-01 DOI:10.1109/NGMAST.2016.14

Kyoung Don Jang, Donghyun Kang, Do Hyoung Kim, H. Park, Y. Eom

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引用次数: 1

Abstract

Power efficiency has become one of the most important issues in mobile devices because of their limited battery size. However, many mobile applications and processors negatively accelerate power consumption of mobile devices. Previous work (e.g., CPU hotplug) may be inappropriate in mobile devices due to their slow responsiveness because it has to migrate all processes running on a CPU, which is to be turned off to save power consumption, to another CPU, thereby resulting in slow responsiveness. In this paper, we propose a novel mechanism, called pseudo CPU hotplug, which efficiently guarantees fast responsiveness while reducing the power consumption of mobile devices. Our mechanism eliminates almost all overhead of operation system such as that of synchronous task migration, and leaves only architecture-dependent overhead of entering deep idle mode. Our evaluation results clearly show that pseudo CPU hotplug outperforms the traditional CPU hotplug mechanism by up to 997 times in terms of response latency. In addition, our mechanism increases the time spent in deep idle mode more than 30% compared to normal status.

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移动设备的轻量级伪CPU热插拔机制

由于移动设备的电池尺寸有限，电源效率已成为移动设备中最重要的问题之一。然而，许多移动应用程序和处理器加速了移动设备的功耗。以前的工作(例如CPU热插拔)可能不适合移动设备，因为它们的响应速度较慢，因为它必须将在一个CPU上运行的所有进程迁移到另一个CPU上，为了节省功耗而关闭CPU，从而导致响应速度较慢。在本文中，我们提出了一种新的机制，称为伪CPU热插拔，可以有效地保证快速响应，同时降低移动设备的功耗。我们的机制消除了操作系统的几乎所有开销，例如同步任务迁移，只留下与体系结构相关的进入深度空闲模式的开销。我们的评估结果清楚地表明，在响应延迟方面，伪CPU热插拔机制比传统的CPU热插拔机制性能高出997倍。此外，与正常状态相比，我们的机制将深度空闲模式的时间增加了30%以上。

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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2016 10th International Conference on Next Generation Mobile Applications, Security and Technologies (NGMAST)

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