Arithmetic and architectural design to reduce leakage in nano-scale digital circuits

2007 18th European Conference on Circuit Theory and Design Pub Date : 2007-08-01 DOI:10.1109/ECCTD.2007.4529610
P. Nilsson
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引用次数: 6

Abstract

Most of the power consumption, in standard CMOS, has in the past been related to the dynamic activities. However, in nano-meter scale technologies the static power, i.e. leakage, is an important contribution to the total power consumption. This paper discusses static and dynamic power reduction methodologies on architectural and arithmetical level. Techniques to reduce the static power consumption in digital applications for nano-scale CMOS technologies are addressed. A 79% arithmetic reduction of the static power consumption is indicated, by using serial arithmetic instead of bit-parallel. Digit-serial arithmetic shows power reductions between 32 and 67%, depending on the digit size and technology.
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纳米数字电路中减少漏电的算法和结构设计
在过去的标准CMOS中,大部分功耗与动态活动有关。然而,在纳米级技术中,静电,即泄漏,是总功耗的重要贡献。本文从体系结构和算法两个层面讨论了静态和动态降功耗方法。讨论了在数字应用中降低纳米级CMOS技术静态功耗的技术。通过使用串行算法而不是位并行,表明静态功耗的算术降低79%。数字串行算法显示,根据数字大小和技术的不同,功耗降低在32%到67%之间。
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2007 18th European Conference on Circuit Theory and Design
2007 18th European Conference on Circuit Theory and Design
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