The Ramification of Single Event Transient effect on Efficient Charge Recovery Logic circuit

Amanda Sara Philip, Sreekala K.S.
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Abstract

The evolution of modern Complementary Metal Oxide Semiconductor technology has led to the scaling of the transistor size to nanometers. This has resulted in significant advantages for integrated circuits such as higher speed, smaller circuit dimension, and lower operating voltage. However, this smaller dimension and lower operating voltage are highly susceptible to operational disturbances such as signal coupling, substrate noise, and single event effects caused by ionizing particles. Single event transient occurs whilst a excessive power particle hits a time independent logic circuit. The charge unloaded by these particles root a temporary voltage disturbance to load incorrect data. In this work, the impact of Single Event Transient on different parameters associated with Efficient Charge Recovery Logic circuit was analyzed. The technology node used for this analysis is 180 nanometers and 90 nanometers using Cadence Virtuoso.The result shows that on scaling the effect of Single Event Transient increases and the power dissipation is also increased by 32.4% .
单事件瞬态效应对高效电荷恢复逻辑电路的影响
现代互补金属氧化物半导体技术的发展使晶体管的尺寸达到了纳米级。这为集成电路带来了显著的优势,如更高的速度、更小的电路尺寸和更低的工作电压。然而,这种较小的尺寸和较低的工作电压极易受到操作干扰,如信号耦合、衬底噪声和电离粒子引起的单事件效应。当过量的功率粒子撞击与时间无关的逻辑电路时,会发生单事件暂态。这些粒子所卸载的电荷会产生暂时的电压扰动,从而加载不正确的数据。本文分析了单事件暂态对高效电荷恢复逻辑电路相关参数的影响。该分析使用的技术节点是180纳米和90纳米,使用Cadence Virtuoso。结果表明,单事件暂态效应随比例增大而增大,功耗也增加了32.4%。
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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