Self-timed full adder designs based on hybrid input encoding

Padmanabhan Balasubramanian, Doug Edwards, C. Brej
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引用次数: 11

Abstract

Self-timed full adder designs based on commercial synchronous resources (standard cells), constructed using a mix of complete delay-insensitive codes adopted for inputs are described in this paper. While one of the adder designs incorporates redundancy into the logic, the other design does not. Comparisons have been carried out with respect to various self-timed full adder designs which employ only a single widely used delay-insensitive input encoding for both the inputs and outputs. It has been found out from exhaustive simulations that incorporating redundancy into the logic actually benefits in terms of delay, but a non-redundant implementation proves to be beneficial with respect to power and area parameters.
基于混合输入编码的自定时全加法器设计
本文描述了基于商业同步资源(标准单元)的自定时全加法器设计,该加法器采用混合的完全延迟不敏感码作为输入。虽然其中一种加法器设计将冗余集成到逻辑中,但另一种设计没有。对各种自定时全加法器设计进行了比较,这些设计仅采用一种广泛使用的延迟不敏感输入编码用于输入和输出。从详尽的模拟中发现,在逻辑中加入冗余实际上有利于延迟,但非冗余的实现被证明在功率和面积参数方面是有益的。
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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