A System Level Fine-Grained Dynamic Voltage and Frequency Scaling for Portable Embedded Systems with Multiple Frequency Adjustable Components

2007 IEEE International Conference on Portable Information Devices Pub Date : 2007-05-25 DOI:10.1109/PORTABLE.2007.56

Ku He, Yibo Chen, Rong Luo

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引用次数: 2

Abstract

This paper presents a system level dynamic voltage and frequency scaling (DVFS) technique targeted toward non realtime applications running on a portable embedded system with multiple frequency-adjustable components. The key idea is to balance the frequency of processor core and memory. Some applications may be I/O bound, some may be CPU bound, and the others may be Memory bound. The proposed DVFS technique relies on pre-collected statistical information of different applications to calculate the expected workload for each coming time slice, and then, it adjusts the frequency of processor core, memory, and system bus to meet the timing constraints(with acceptable penalty) and achieves the maximum energy saving. The proposed technique has been tested on the PXA27x (XScale based) [8] embedded platform and the result was exciting, the processor energy saving can achieve up to 70% in memory bound applications, and the timing performance degradation was less than 5%. In CPU bound applications, the energy saving is relatively small, about 20~40%.

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具有多频率可调元件的便携式嵌入式系统系统级细粒度动态电压和频率缩放

本文提出了一种系统级动态电压频率缩放(DVFS)技术，该技术是针对运行在具有多频率可调元件的便携式嵌入式系统上的非实时应用而设计的。关键思想是平衡处理器核心和内存的频率。有些应用程序可能是I/O绑定的，有些可能是CPU绑定的，还有一些可能是内存绑定的。所提出的DVFS技术依赖于预先收集的不同应用程序的统计信息来计算每个时间片的预期工作负载，然后调整处理器核心、内存和系统总线的频率以满足时间约束(可接受的惩罚)，并实现最大的节能。该技术已在PXA27x(基于XScale的)[8]嵌入式平台上进行了测试，结果令人兴奋，在内存受限应用中，处理器节能高达70%，而时序性能下降小于5%。在CPU受限的应用中，节能相对较小，约为20~40%。

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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2007 IEEE International Conference on Portable Information Devices

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