A Nano-Electro-Mechanical Switch Based Power Gating for Effective Stand-by Power Reduction in FinFET Technologies

Sumit Saha; U. Sajesh Kumar; Maryam Shojaei Baghini; Mayank Goel; V. Ramgopal Rao

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A Nano-Electro-Mechanical Switch Based Power Gating for Effective Stand-by Power Reduction in FinFET Technologies

机译：FinFET技术中基于纳米机电开关的功率门控可有效降低待机功耗

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In this letter, we show that using the experimentally demonstrated nano-electro-mechanical-switches (NEMS) and our design methodology, the standby power dissipation can be reduced to negligible levels in 14-nm bulk FinFET technologies. Using two realistic NEMS structures, demonstrated in the literature for power gating applications, a design window is derived for achieving the targeted specifications without compromising on the performance and area. Cantilever NEMS requires less area as compared with the suspended NEMS, but reliability is a concern. We demonstrate that for a 17-stage ring oscillator circuit, the NEMS power gating will perform better than the FinFET-based power gating when the TON/TOFF ratio is less than 0.002.

机译：在这封信中，我们表明，使用经过实验证明的纳米电子机械开关（NEMS）和我们的设计方法，可以将14nm批量FinFET技术的待机功耗降低到可以忽略的水平。使用文献中针对功率门控应用展示的两个现实的NEMS结构，得出了一个设计窗口，可在不影响性能和面积的前提下实现目标规格。与悬吊的NEMS相比，悬臂NEMS需要的面积更少，但是可靠性是一个问题。我们证明，对于17级环形振荡器电路，当TON / TOFF比小于0.002时，NEMS电源门控的性能将优于基于FinFET的电源门控。

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来源
《IEEE Electron Device Letters》 |2017年第5期|681-684|共4页
作者
Sumit Saha; U. Sajesh Kumar; Maryam Shojaei Baghini; Mayank Goel; V. Ramgopal Rao;
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作者单位

Department of Electrical Engineering, IIT Bombay, Mumbai, India;

Department of Electrical Engineering, IIT Bombay, Mumbai, India;

Department of Electrical Engineering, IIT Bombay, Mumbai, India;

Intel Mobile Communication, Bengaluru, India;

IIT Bombay, Mumbai, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Nanoelectromechanical systems; FinFETs; Switches; Switching circuits; Logic gates; Integrated circuit modeling; Hardware design languages;

机译：纳米机电系统;FinFET;开关;开关电路;逻辑门;集成电路建模;硬件设计语言;

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2. Threshold-Voltage Reduction of FinFETs by Ta/Mo Interdiffusion Dual Metal-Gate Technology for Low-Operating-Power Application [J] . Matsukawa T., Endo K., Liu Y., IEEE Transactions on Electron Devices . 2008,第9期

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A Nano-Electro-Mechanical Switch Based Power Gating for Effective Stand-by Power Reduction in FinFET Technologies

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