使用3D电路设计布局的垂直场效应管器件的挑战和机遇

2016 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) Pub Date : 2016-10-01 DOI:10.1109/S3S.2016.7804409

A. Veloso, T. Huynh-Bao, E. Rosseel, V. Paraschiv, K. Devriendt, E. Vecchio, C. Delvaux, B. T. Chan, M. Ercken, Z. Tao, W. Li, E. Altamirano-Sanchez, J. Versluijs, S. Brus, P. Matagne, N. Waldron, J. Ryckaert, D. Mocuta, N. Collaert

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引用次数: 11

摘要

我们报告了具有栅极全能(GAA)配置的垂直纳米线FET器件(vnwfet)，它为进一步实现CMOS缩放和提高电路布局效率提供了有希望的机会。与使用横向gaa - nwfet构建的单元相比，它们可以将SRAM位单元的密度提高30%，具有更好的读写稳定性，更小的最小工作电压(Vmin)和更低的待机泄漏值。此外，这些器件的垂直堆叠也为SRAM 3D缩放开辟了道路，本文提出的设计可以使垂直方向上的两级晶体管每比特减少39%的SRAM面积。两个垂直堆叠的vnwfet具有相同的掺杂类型(n/n或p/p)，并且可以通过利用无结(JL)概念及其过程简单性来降低实现的复杂性，这也是本工作中探讨的主题。

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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Challenges and opportunities of vertical FET devices using 3D circuit design layouts

We report on vertical nanowire FET devices (VNWFETs) with a gate-all-around (GAA) configuration, which offer promising opportunities to enable further CMOS scaling and increased circuit layout efficiency. They allow up to 30% denser SRAM bitcells with improved read and write stability, smaller minimum operating voltages (Vmin), and lower standby leakage values as compared to cells built with lateral GAA-NWFETs. Furthermore, vertical stacking of these devices also opens the path for SRAM 3D scaling, with a design presented here that can enable, with two levels of transistors in the vertical direction, to reduce by 39% the SRAM area per bit. The two vertically stacked VNWFETs are of the same doping type (n/n or p/p), and a lower complexity of implementation may be possible by taking advantage of the junctionless (JL) concept and its process simplicity, a topic also explored in this work.

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2016 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S)

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