绝热8位乘法器的设计与性能比较

2016 IEEE Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER) Pub Date : 2016-08-01 DOI:10.1109/DISCOVER.2016.7806237

RAVISH ARADHYA H V, H. R. Madan, M. S. Suraj, Megaraj T. Mahadikar, R. Muniraj, Mohammed Moiz

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引用次数: 13

摘要

晶体管制程技术的进步以总功耗为代价缩小了芯片面积。绝热逻辑是VLSI中最有前途的低功耗技术之一，它以牺牲延迟为代价实现了低功耗。在任何数字硬件中，基本构建模块都有很大的功耗和传播延迟。其中乘法器在数字信号处理(DSP)和图像处理应用中起着至关重要的作用。本文提出了基于ECRL的8位乘法器设计，并与CMOS设计进行了比较。采用分解逻辑减小进位传播延迟的华莱士-达达混合乘法器是参考设计。提出了8位Vedic- dadda混合乘法器和8位Vedic乘法器的功率优化设计。利用Hspice对CMOS和ECRL中设计的乘法器的功率和时延进行了计算。与华莱士-达达混合乘法器相比，8位吠陀乘法器的功率降低了约19.3%。总体而言，与CMOS设计相比，所提出的基于ECRL的乘法器功耗降低了约77%。

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Design and performance comparison of adiabatic 8-bit multipliers

The advancement of transistor process technology reduces chip area at the cost of the total power consumption. Adiabatic logic, one of the promising low power techniques in VLSI gives low power dissipation at the expense of delay. In any digital hardware, the fundamental building blocks contribute to significant power dissipation and propagation delay. Multipliers are one among them which are of prime importance in Digital Signal Processing (DSP) and Image Processing applications. The present work proposes ECRL based 8-bit multiplier designs and compares them with the CMOS designs. Wallace-Dadda hybrid multiplier which uses Decomposition Logic to reduce the carry propagation delay is considered to be the reference design. 8-bit Vedic-Dadda hybrid multiplier and 8-bit Vedic multiplier are presented as power optimized designs. Hspice is used to obtain the power and delay values of the designed multipliers in CMOS and ECRL. 8-bit Vedic multiplier provides a power reduction of about 19.3% as compared to Wallace-Dadda hybrid multiplier. Overall, the proposed ECRL based multiplier dissipates about 77% less power, as compared to CMOS designs.

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2016 IEEE Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER)

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