Multipliers Using Low Power Adder Cells Using 180nm Technology

2013 International Symposium on Computational and Business Intelligence Pub Date : 2013-08-24 DOI:10.1109/ISCBI.2013.8
Jyoti Gupta, A. Grover, Garish Kumar Wadhwa, Neeti Grover
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引用次数: 9

Abstract

Multiplier is the most commonly used circuit in the digital devices. Multiplication is one of the basic functions used in digital signal processing. Most high performance DSP systems rely on hardware multiplication to achieve high data throughput. There are various types of multipliers available depending upon the application in which they are used. Full adder is the main block of power dissipation in multiplier. So reducing the power dissipation of full adder ultimately reduces the power dissipation of multiplier. In this article 8-bit multipliers based on Gate Diffusion Input (GDI) adder cells are compared using EDA Tanner, simulations are based on 180nm CMOS technology.
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使用180nm技术的低功率加法器倍增器
乘法器是数字器件中最常用的电路。乘法是数字信号处理的基本函数之一。大多数高性能DSP系统依靠硬件乘法来实现高数据吞吐量。根据使用乘数器的应用程序,有各种类型的乘数器可用。全加法器是乘法器的主要功耗模块。因此,降低全加法器的功耗最终会降低乘法器的功耗。本文采用EDA Tanner对基于栅极扩散输入(GDI)加法器单元的8位乘法器进行了比较,并基于180nm CMOS技术进行了仿真。
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2013 International Symposium on Computational and Business Intelligence
2013 International Symposium on Computational and Business Intelligence
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