一种新型16位高速可变进位跳加器

2017 3rd International Conference on Computational Intelligence & Communication Technology (CICT) Pub Date : 2017-02-01 DOI:10.1109/CIACT.2017.7977359

Anjali Arora, V. Niranjan

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引用次数: 7

摘要

加法器是算术电路的基本组成部分。加法器有两种形式:固定舞台尺寸和可变舞台尺寸。本文分析了固定级进位跳加器和可变级进位跳加器的结构，并在原有结构的基础上提出了一种新的16位高速可变级进位跳加器。提议的加法器有七个阶段，第一阶段和最后阶段各为1位，它一直稳步增加，直到中间阶段，这是最庞大的，因此是核阶段。该加法器的延迟和功耗分别降低了61.75%和8%。该加法器采用90nm CMOS技术在Cadence Virtuoso中实现和仿真。值得一提的是，在不增加任何功耗和电路复杂性的情况下，所提出的加法器的延迟改进已经实现。本文提出的加法器适用于高速、低功耗的VLSI算术电路。

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 new 16-bit high speed and variable stage carry skip adder

Adders are basic integral part of arithmetic circuits. The adders have been realized with two styles: fixed stage size and variable stage size. In this paper, fixed stage and variable stage carry skip adder configurations have been analyzed and then a new 16-bit high speed variable stage carry skip adder is proposed by modifying the existing structure. The proposed adder has seven stages where first and last stage are of 1 bit each, it keeps increasing steadily till the middle stage which is the bulkiest and hence is the nucleus stage. The delay and power consumption in the proposed adder is reduced by 61.75% and 8% respectively. The proposed adder is implemented and simulated using 90 nm CMOS technology in Cadence Virtuoso. It is pertinent to mention that the delay improvement in the proposed adder has been achieved without increase in any power consumption and circuit complexity. The adder proposed in this work is suitable for high speed and low power VLSI based arithmetic circuits.

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来源期刊

2017 3rd International Conference on Computational Intelligence & Communication Technology (CICT)

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