在45nm SOI技术中使用GDI逻辑的低功耗可变尺寸CSLA实现

2015 1st International Conference on Next Generation Computing Technologies (NGCT) Pub Date : 2015-09-01 DOI:10.1109/NGCT.2015.7375078

J. Saji, Shoaib Kamal

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引用次数: 1

摘要

加法器是现代处理器不可或缺的一部分;进位选择加法器(CSLA)是常用的高效加法器之一。但这种效率的代价是更大的面积和更高的功耗。随着时间的推移，晶体管尺寸的缩小缩小了面积;但由于采用CMOS逻辑方式设计，电路仍然比较复杂。因此，本文采用门级修改方法Gate Diffusion Input (GDI)来实现CSLA，以达到降低功耗、延迟和面积的目的。将标准CMOS CSLA与45nm工艺节点上设计的GDI逻辑CSLA进行了比较。分析表明，基于GDI的逻辑风格在晶体管数量方面简单，并且与标准CMOS逻辑风格相比具有更好的性能。

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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A low power variable sized CSLA implementation using GDI logic in 45nm SOI technology

Adders are an integral part of the modern day processor; Carry select adders (CSLA) being one of the commonly used efficient adders. But this efficiency comes with the cost of a larger area and higher power dissipation. Over time, down-scaling the transistor sizes have reduced the area; but due to the CMOS logic style designing, the circuit still remains complex. Hence, in this paper a gate-level modification method called Gate Diffusion Input (GDI) is used to implement the CSLA in order to reduce the power, delay and area. The standard CMOS CSLA is compared with GDI logic CSLA designed in 45nm Technology node. The analysis shows that GDI based logic style is simple in terms of transistor count and provides better performance compared to the standard CMOS logic style.

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2015 1st International Conference on Next Generation Computing Technologies (NGCT)

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