Simulation analysis of process-induced variability in nanoscale SOI and bulk FinFETs

2012 IEEE International SOI Conference (SOI) Pub Date : 2012-10-01 DOI:10.1109/SOI.2012.6404356
A. Brown, N. Daval, K. Bourdelle, B. Nguyen, A. Asenov
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引用次数: 3

Abstract

3D devices are prone to more complex sources of variability than conventional planar bulk and SOI MOSFETs. Corner simulations and statistical simulations are unique tools to understand the link between the device design and the circuit performance through accurate prediction of the variability. In this work we have demonstrated that SOI can efficiently help to reduce the process-induced FinFET variability, and hence improve the circuit performance. In particular, the better fin height control possible with SOI results in less variability in on-current. We have also established that SOI brings >;5% Isat improvement at identical Fin dimensions, thanks to the BOX isolation compared to the junction isolation depleting the bottom part of the bulk Fin.
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纳米SOI和体finfet中工艺诱导变异性的仿真分析
与传统的平面体和SOI mosfet相比,3D器件容易受到更复杂的变异性来源的影响。拐角模拟和统计模拟是通过准确预测变异性来理解器件设计和电路性能之间联系的独特工具。在这项工作中,我们已经证明了SOI可以有效地帮助减少过程引起的FinFET可变性,从而提高电路性能。特别是,更好的鳍高度控制可能与SOI导致更少的变异性在通流。我们还确定,在相同的翅片尺寸下,SOI带来了> 5%的Isat改善,这要归功于BOX隔离,而不是耗尽大块翅片底部的结隔离。
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2012 IEEE International SOI Conference (SOI)
2012 IEEE International SOI Conference (SOI)
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