Performance and Area Scaling Benefits of FD-SOI Technology for 6-T SRAM Cells at the 22-nm Node

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Performance and Area Scaling Benefits of FD-SOI Technology for 6-T SRAM Cells at the 22-nm Node

机译：FD-SOI技术在22-nm节点上为6-T SRAM单元带来的性能和面积扩展优势

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The performance and threshold voltage variability of fully depleted silicon-on-insulator (FD-SOI) MOSFETs are compared against those of conventional bulk MOSFETs via 3-D device simulation with atomistic doping profiles. Compact (analytical) modeling is then used to estimate six-transistor SRAM cell performance metrics (i.e., read and write margins, and read current) at the 22 nm CMOS technology node. The dependences of these metrics on cell ratio, pull-up ratio, and operating voltage are analyzed for FD-SOI versus bulk SRAM cells. Iso-area and iso-yield comparisons are then made to determine the yield and cell-area benefits of FD-SOI technology, respectively. Finally, the minimum operating voltages $(V_{min})$ required for FD-SOI and bulk SRAM cells to meet the six-sigma yield requirement are compared.

机译：通过采用原子掺杂分布图的3D器件仿真，将完全耗尽的绝缘体上硅（FD-SOI）MOSFET的性能和阈值电压可变性与传统的体MOSFET进行了比较。然后使用紧凑（分析）建模来估计22纳米CMOS技术节点上的六晶体管SRAM单元性能指标（即读取和写入裕量以及读取电流）。针对FD-SOI与大容量SRAM单元，分析了这些指标对单元比率，上拉比率和工作电压的依赖性。然后分别进行等面积和等产量比较，以确定FD-SOI技术的产量和细胞面积收益。最后，比较了FD-SOI和块状SRAM单元满足6σ合格率要求所需的最低工作电压$（V_ {min}）$。

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《Electron Devices, IEEE Transactions on》 |2010年第6期|p.1301-1309|共9页
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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
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关键词
CMOS; MOSFET; SRAM; silicon-on-insulator (SOI); variability;

机译：CMOS;MOSFET;SRAM;绝缘体上硅（SOI）;可变性;

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1. Performance and Yield Benefits of Quasi-Planar Bulk CMOS Technology for 6-T SRAM at the 22-nm Node [J] . Shin C., Damrongplasit N., Sun X., Electron Devices, IEEE Transactions on . 2011,第7期

机译：在22nm节点上使用6T SRAM的准平面体CMOS技术的性能和良率优势
2. Single-Ended 9T SRAM Cell for Near-Threshold Voltage Operation With Enhanced Read Performance in 22-nm FinFET Technology [J] . Yang Younghwi, Park Juhyun, Song Seung Chul, Very Large Scale Integration (VLSI) Systems, IEEE Transactions on . 2015,第11期

机译：具有22nm FinFET技术的增强读取性能的单端9T SRAM单元，用于近阈值电压操作
3. Always-On 674μ W@4GOP/s Error Resilient Binary Neural Networks With Aggressive SRAM Voltage Scaling on a 22-nm IoT End-Node [J] . Alfio Di Mauro, Francesco Conti, Pasquale Davide Schiavone, IEEE transactions on circuits and systems . I , Regular papers . 2020,第11期

机译：始终开启674μW@ 4GOP / S误差弹性二进制神经网络，在22-NM IOT结束节点上具有激进的SRAM电压缩放
4. Comparative analysis of various 9T SRAM cell at 22-nm technology node [C] . Roy Chandaramauleshwar, Islam Aminul 2015 IEEE 2nd International Conference on Recent Trends in Information Systems . 2015

机译：22nm技术节点上各种9T SRAM单元的比较分析
5. Design and Performance Evaluation of 8T SRAM Cell Using FinFET and CMOS at 16nm Technology [D] . Mandadi, Prasanth. 2021

机译：在16NM技术中使用FinFET和CMOS的8T SRAM单元的设计与性能评估
6. An Algorithm for Digital Medicine Testing: A NODE.Health Perspective Intended to Help Emerging Technology Companies and Healthcare Systems Navigate the Trial and Testing Period prior to Full-Scale Adoption [O] . Amy R. Sheon, Brian Van Winkle, Yauheni Solad, 2018

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7. Performance and area scaling benefits of FD-SOI technology for 6-T SRAM cells at the 22nm node [O] . Changhwan Shin, Student Member, Min Hee Cho, 2010

机译：FD-SOI技术在22nm节点上用于6-T SRAM单元的性能和面积扩展优势

Performance and Area Scaling Benefits of FD-SOI Technology for 6-T SRAM Cells at the 22-nm Node

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