High speed area reduced 64-bit static hybrid carry-lookahead/carry-select adder

2011 18th IEEE International Conference on Electronics, Circuits, and Systems Pub Date : 2011-12-01 DOI:10.1109/ICECS.2011.6122312

Habib Ghasemizadeh Tamar, Akbar Ghasemizadeh Tamar, K. Hadidi, A. Khoei, P. Hoseini

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引用次数: 11

Abstract

In carry-select adders (CSAs), using a single ripple carry adder and a first zero finder (FZF) circuit instead of dual ripple carry adder has an impressive impact on reduction of number of transistors and so power consumption of adder. On the other hand, combination of CSA and carry-lookahead adder (CLA) improves speed of this adder. In this paper a 64-bit static adder with structure of a hybrid CLA/CSA is presented. This adder operates with low power and occupies lower area in comparison to conventional CSA circuit due to using a first zero finder circuit. Besides by three basic changes in the critical path of adder, speed is improved considerably; First of all we used a high speed compact CLA as partial adder in each block, then a block carry generator (BCG) circuit is used for faster carry propagation and finally we replaced multiplexer gate with a XNOR gate. This circuit is implemented in TSMC 0.18μm CMOS technology at 1.8V power supply. Critical path delay of this adder decreased to 592ps, equivalent to 7.6 FO4 (fanout-of-4) inverter delays.

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高速减面积64位静态混合式预携/选择加法器

在进位选择加法器(csa)中，使用单纹波进位加法器和第一寻零器(FZF)电路代替双纹波进位加法器，对减少晶体管数量和加法器功耗有显著的影响。另一方面，CSA和超前进位加法器(CLA)的结合提高了该加法器的速度。本文提出了一种64位静态加法器，具有CLA/CSA混合结构。与传统的CSA电路相比，由于使用了第一个寻零电路，该加法器工作功耗低，占地面积小。此外，对加法器的关键路径进行了三个基本的改变，使速度有了很大的提高;首先，我们在每个块中使用高速紧凑型CLA作为部分加法器，然后使用块携带发生器(BCG)电路进行更快的携带传播，最后用XNOR门代替多路复用门。该电路采用台积电0.18μm CMOS工艺，在1.8V电源下实现。该加法器的关键路径延迟降至592ps，相当于7.6 FO4(扇出-4)逆变器延迟。

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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2011 18th IEEE International Conference on Electronics, Circuits, and Systems

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