Single-trap-induced random telegraph noise for FinFET, Si/Ge Nanowire FET, Tunnel FET, SRAM and logic circuits

Ming-Long Fan; Shao-Yu Yang; Vita Pi-Ho Hu; Yin-Nien Chen; Pin Su; Ching-Te Chuang

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Single-trap-induced random telegraph noise for FinFET, Si/Ge Nanowire FET, Tunnel FET, SRAM and logic circuits

机译：用于FinFET，Si / Ge纳米线FET，隧道FET，SRAM和逻辑电路的单阱感应随机电报噪声

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In this paper, we comprehensively review the impacts of single-trap-induced random telegraph noise (RTN) on FinFET, Ge/Si Nanowire FET and Tunnel FET (TFET). The resulting influences on the thermionic-based current conduction such as FinFET, Si-NW FET and Ge-NW FET (at low drain bias) as well as interband tunneling dominated current conduction such as TFET and high-drain-biased Ge-NW FET are extensively addressed in device and circuit level. The location of the trap is shown to have profound impacts and the impacts vary with bias conditions and trap types. The worst-case analysis of the stability/performance and leakage/delay for all possible trapping/detrapping RTN combinations are investigated for FinFET, Si-/Ge-NW FETs and TFET based 6T/8T SRAM cells and logic circuits.

机译：在本文中，我们全面回顾了单阱诱发的随机电报噪声（RTN）对FinFET，Ge / Si纳米线FET和隧道FET（TFET）的影响。结果对基于热电子的电流传导（例如FinFET，Si-NW FET和Ge-NW FET（处于低漏极偏置））以及带间隧穿主导的电流传导（例如TFET和高漏极偏置的Ge-NW FET）产生影响在设备和电路级别上得到了广泛解决。陷阱的位置显示出具有深远的影响，并且影响会随偏置条件和陷阱类型的不同而变化。针对FinFET，Si- / Ge-NW FET和基于TFET的6T / 8T SRAM单元和逻辑电路，研究了所有可能的捕获/捕获RTN组合的稳定性/性能和泄漏/延迟的最坏情况分析。

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《Microelectronics & Reliability》 |2014年第4期|698-711|共14页
作者
Ming-Long Fan; Shao-Yu Yang; Vita Pi-Ho Hu; Yin-Nien Chen; Pin Su; Ching-Te Chuang;
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National Chiao Tung University, 1001 Ta-Hsueh Rd., Hsinchu 30010, Taiwan;

National Chiao Tung University, 1001 Ta-Hsueh Rd., Hsinchu 30010, Taiwan;

National Chiao Tung University, 1001 Ta-Hsueh Rd., Hsinchu 30010, Taiwan;

National Chiao Tung University, 1001 Ta-Hsueh Rd., Hsinchu 30010, Taiwan;

National Chiao Tung University, 1001 Ta-Hsueh Rd., Hsinchu 30010, Taiwan;

National Chiao Tung University, 1001 Ta-Hsueh Rd., Hsinchu 30010, Taiwan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
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正文语种 eng
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1. Analysis of Single-Trap-Induced Random Telegraph Noise and its Interaction With Work Function Variation for Tunnel FET [J] . Fan M.-L., Hu V.P.-H., Chen Y.-N., Electron Devices, IEEE Transactions on . 2013,第6期

机译：隧道FET的单诱捕随机电报噪声及其与功函数变化的相互作用分析
2. Comparative performance analysis of silicon nanowire tunnel FETs and MOSFETs on plastic substrates in flexible logic circuit applications [J] . Myeongwon Lee, Youngin Jeon, Kyung Sik Son, Physica status solidi . 2012,第7期

机译：柔性逻辑电路应用中塑料基板上的硅纳米线隧道FET和MOSFET的比较性能分析
3. Random telegraph noise in gate-all-around silicon nanowire MOSFETs induced by a single charge trap or random interface traps [J] . Kola Sekhar Reddy, Li Miming, Thoti Narasimhulu Journal of Computational Electronics . 2020,第1期

机译：单个电荷陷阱或随机接口陷阱在全栅硅纳米线MOSFET中产生的随机电报噪声
4. Impacts of single trap induced random telegraph noise on Si and Ge nanowire FETs, 6T SRAM cells and logic circuits [C] . Yang Shao-Yu, Chen Yin-Nien, Fan Ming-Long, International Conference on IC Design Technology . 2013

机译：单阱诱发的随机电报噪声对Si和Ge纳米线FET，6T SRAM单元和逻辑电路的影响
5. FinFET-based SRAM and Monolithic 3-D Integrated Circuit Design [D] . Guler, Abdullah. 2019

机译：基于FinFET的SRAM和单片3-D集成电路设计
6. Novel 14-nm Scallop-Shaped FinFETs (S-FinFETs) on Bulk-Si Substrate [O] . Weijia Xu, Huaxiang Yin, Xiaolong Ma, 2015

机译：体硅衬底上的新型14nm扇贝形FinFET（S-FinFET）
7. A Dual Port 8T SRAM Cell Using FinFET CMOS Logic for Leakage Reduction and Enhanced Read Write Stability [O] . Chusen Duari, Shilpi Birla, Amit Kumar Singh 2020

机译：使用FinFET和CMOS逻辑的双端口8T SRAM单元进行泄漏减少和增强的读写稳定性

Single-trap-induced random telegraph noise for FinFET, Si/Ge Nanowire FET, Tunnel FET, SRAM and logic circuits

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