低功率全加法器专用晶体管尺寸

2009 20th IEEE International Conference on Application-specific Systems, Architectures and Processors Pub Date : 2009-07-07 DOI:10.1109/ASAP.2009.23

F. Eslami, A. Baniasadi, Mostafa Farahani

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引用次数: 1

摘要

先前提出的晶体管尺寸算法假设所有输入转换都同等重要。在这项工作中，我们表明这不是一个准确的假设，因为输入跃迁出现在不同的频率。我们利用这一现象，并介绍了应用特定的晶体管尺寸。在特定应用晶体管尺寸中，更高的优先级给予更频繁的转换。我们将我们的技术应用于两个现代低功耗全加法器(即混合cmos和TFA)，并表明有可能进一步降低功耗和PDP。通过使用我们的技术，TFA和混合cmos加法器的平均PDP分别提高了6%和9%。我们使用TFA和混合cmos fa设计的ALU能耗分别降低了2.7%和4%。

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Application Specific Transistor Sizing for Low Power Full Adders

Previously suggested transistor sizing algorithms assume that all input transitions are equally important. In this work we show that this is not an accurate assumption as input transitions appear in different frequencies. We take advantage from this phenomenon and introduce Application Specific Transistor Sizing. In Application Specific Transistor Sizing higher priority is given to more frequent transitions. We apply our technique to two modern and low-power full adders (i.e., hybrid-CMOS and TFA) and show that it is possible to further reduce power dissipation and PDP. By using our technique we improve average PDP by 6% and 9% for TFA and hybrid-CMOS adders respectively. We reduce ALU energy consumption for ALU designs using TFA and hybrid-CMOS FAs by 2.7% and 4 % respectively.

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来源期刊

2009 20th IEEE International Conference on Application-specific Systems, Architectures and Processors

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