Standby and active leakage current control mechanism of half adder cell

2014 Innovative Applications of Computational Intelligence on Power, Energy and Controls with their impact on Humanity (CIPECH) Pub Date : 2014-11-01 DOI:10.1109/CIPECH.2014.7019091

Preeti Kushwah, S. Akashe

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引用次数: 1

Abstract

The proposed paper shows the half adder circuit with low power consumption preferred for arithmetic operations. Leakage power dissipation problem of electronics systems has attracted a lot of attention from engineers and researchers over the years. In the CMOS circuits Power dissipation occurs due to increasing leakage current in deep-sub micrometer regimes which is becoming a significant contributor as threshold voltage, channel length, and gate oxide thickness are reduced. The half adder circuit composed of XOR gate and AND logic gate, which have many transistor. Power consumption (leakage power) in the CMOS technology half adder circuit achieving better performance for maintain the speed, power dissipation, size, reliability of the device. SVL (Self-controllable Voltage Level) technique provides better leakage power reduction with minimum area and it not only reduces power but also retains data during standby period in half adder. Simulation work has been done in 45 nm technology, in this technology power consumption (leakage power) have provided for half adder circuit.

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半加法器电池备用和主动漏电流控制机构

提出了一种低功耗的半加法器电路，适合于算术运算。多年来，电子系统的泄漏功耗问题一直受到工程师和研究者的广泛关注。在CMOS电路中，随着阈值电压、沟道长度和栅极氧化物厚度的减小，泄漏电流的增加会导致功耗的增加。半加法器电路由异或门和与逻辑门组成，具有多个晶体管。功耗(漏功率)在CMOS技术半加法器电路中实现较好的性能，以保持器件的速度、功耗、尺寸、可靠性。在半加法器中，SVL(自可控电压电平)技术以最小的面积提供了更好的泄漏功率降低效果，并且在待机期间既降低了功率又保留了数据。仿真工作已经在45纳米技术上完成，在该技术中功耗(漏功率)已经提供了半加法器电路。

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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2014 Innovative Applications of Computational Intelligence on Power, Energy and Controls with their impact on Humanity (CIPECH)

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