静态CMOS加法器中基于信号步进的多模多阈值CMOS技术

2012 International Symposium on Electronic System Design (ISED) Pub Date : 2012-12-19 DOI:10.1109/ISED.2012.14

Shashikant Sharma, M. Pattanaik, B. Raj

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引用次数: 1

摘要

本文介绍了一种基于高性能信号步进的多模多阈值CMOS技术，该技术减少了待机漏电流，并提供了一种更好的方法来控制休眠模式到主动模式转换期间的地弹跳噪声。分析了基于信号步进的多模多阈值CMOS技术的低功耗16位全加法，以降低待机泄漏电流和地反射噪声。此外，为了验证基于信号步进的多模多阈值CMOS技术的有效性，在室温下，对电源电压为1V的BPTM 90nm低功耗16位全加法器进行了仿真。结果表明，与标准三模MTCMOS技术相比，该技术可降低95.80%的地面反射噪声和19.24%的待机泄漏电流。

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Signal Stepping Based Multimode Multi-threshold CMOS Technique for Ground Bounce Noise Reduction in Static CMOS Adders

In this paper a high performance signal stepping based multimode multi-threshold CMOS technique is introduced which reduces standby leakage current and provides a better way to control the ground bounce noise during sleep to active mode transition using one additional mode i.e. wait mode. Analysis of signal stepping based multimode multi-threshold CMOS technique using low power 16-bit full adder has been done for reduction of standby leakage current and ground bounce noise. Further, to see the effectiveness of signal stepping based multimode multi-threshold CMOS technique, simulation has been done for low power 16 bit full adder in BPTM 90nm technology with supply voltage of 1V at room temperature. Results show that this technique reduces ground bounce noise by 95.80 % and standby leakage current by 19.24% as compared to the standard trimode MTCMOS technique.

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2012 International Symposium on Electronic System Design (ISED)

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