Using checksum to reduce power consumption of display systems for low-motion content

2009 IEEE International Conference on Computer Design Pub Date : 2009-10-04 DOI:10.1109/ICCD.2009.5413176

Kyungtae Han, Zhen Fang, Paul Diefenbaugh, Richard Forand, R. Iyer, D. Newell

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引用次数: 8

Abstract

Power consumption of the display subsytem has been a relatively less explored area compared to other components of a mobile device including computing, storage, and networking units, although the former often constitutes one of the most power-hungry portions of the system. Typical applications on a mobile device such as web browsing and text editing tend to have rather static image content; each frame hardly changes from the previous one. Efficiently detecting and handling no-motion scenarios is thus critical to extend the battery life. This paper focuses on image change detection. We propose to use checksum to detect image changes. Specifically, CRC hardware is used to optimize the power consumption of 1) refresh of a local display and 2) data compression for wireless remote display. Compared with a traditional, pixel-by-pixel comparison approach, using checksum for image change detection is not only fast, but also reduces accesses to the frame buffer, resulting in significant power savings. We have built a FPGA prototype to verify that CRC can capture image changes well enough to ensure a “visually lossless” quality.

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使用校验和来降低低运动内容显示系统的功耗

与移动设备的其他组件(包括计算、存储和网络单元)相比，显示子系统的功耗一直是一个相对较少探索的领域，尽管前者通常构成系统中最耗电的部分之一。移动设备上的典型应用程序(如网页浏览和文本编辑)往往具有相当静态的图像内容;每一帧与前一帧几乎没有变化。因此，有效地检测和处理无运动场景对于延长电池寿命至关重要。本文主要研究图像变化检测。我们建议使用校验和来检测图像的变化。具体来说，CRC硬件用于优化1)本地显示的刷新和2)无线远程显示的数据压缩的功耗。与传统的逐像素比较方法相比，使用校验和进行图像变化检测不仅速度快，而且减少了对帧缓冲区的访问，从而大大节省了功耗。我们已经建立了一个FPGA原型来验证CRC可以很好地捕获图像变化，以确保“视觉无损”的质量。

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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2009 IEEE International Conference on Computer Design

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