Fast Ripple-Carry Adders in Standard-Cell CMOS VLSI

2011 IEEE 20th Symposium on Computer Arithmetic Pub Date : 2011-07-25 DOI:10.1109/ARITH.2011.23
N. Burgess
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引用次数: 16

Abstract

This paper presents a number of new high-radix ripple-carry adder designs based on Ling's addition technique and a recently-published expansion thereof. The proposed adders all have one inverting CMOS cell per stage along the carry-in to carry-out critical path and, at 16-b word lengths, the fastest of them matches the speed of a 16-b prefix adder for only 63% of the area. These adders will be of use in VLSI circuits implementing modern wireless DSP algorithms and in Floating-Point Unit exponent logic, both of which typically use short word length arithmetic.
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标准单元CMOS VLSI中的快速纹波进位加法器
本文介绍了基于Ling的加法技术的一些新的高基数纹波进位加法器设计以及最近发表的对其的扩展。所提出的加法器在携带到执行关键路径上每级都有一个反相CMOS单元,并且在16b字长的情况下,它们中最快的加法器的速度与16b前缀加法器的速度相匹配,只有63%的面积。这些加法器将用于实现现代无线DSP算法的VLSI电路和浮点单元指数逻辑,这两者通常使用短字长度算法。
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2011 IEEE 20th Symposium on Computer Arithmetic
2011 IEEE 20th Symposium on Computer Arithmetic
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