一种10nm高性能低功耗CMOS技术，具有第三代FinFET晶体管，自对准四面图，主动栅极接触和钴本地互连

2017 IEEE International Electron Devices Meeting (IEDM) Pub Date : 2017-12-01 DOI:10.1109/IEDM.2017.8268472

C. Auth, A. Aliyarukunju, M. Asoro, D. Bergstrom, V. Bhagwat, J. Birdsall, N. Bisnik, M. Buehler, V. Chikarmane, G. Ding, Q. Fu, H. Gomez, W. Han, D. Hanken, M. Haran, M. Hattendorf, R. Heussner, H. Hiramatsu, B. Ho, S. Jaloviar, I. Jin, S. Joshi, S. Kirby, S. Kosaraju, H. Kothari, G. Leatherman, K. Lee, J. Leib, A. Madhavan, K. Marla, H. Meyer, T. Mule, C. Parker, S. Parthasarathy, C. Pelto, L. Pipes, I. Post, M. Prince, A. Rahman, S. Rajamani, A. Saha, J. D. Santos, M. Sharma, V. Sharma, J. Shin, P. Sinha, P. Smith, M. Sprinkle, A. Amour, C. Staus, R. Suri, D. Towner, A. Tripathi, A. Tura, C. Ward, A. Yeoh

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引用次数: 267

摘要

描述了一种使用第三代FinFET晶体管的10nm逻辑技术，该技术具有自对准四面图(SAQP)，用于关键图形层，并在三个本地互连层上使用钴本地互连。在高密度情况下，引入了一种新的自对准接触的主动栅极过程，并在单元边界处消除了虚拟栅极。该晶体管采用矩形翅片，翅片宽度为7nm，翅片高度为46nm，采用第5代高k金属栅极和第7代应变硅。使用四个或六个工作功能金属堆来实现低Vt，标准Vt和可选的高Vt设备的未掺鳍。互连具有12个金属层，整个互连堆栈具有超低k介电体。据报道，在10nm技术中，具有最高电池密度的最高驱动电流。

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A 10nm high performance and low-power CMOS technology featuring 3rd generation FinFET transistors, Self-Aligned Quad Patterning, contact over active gate and cobalt local interconnects

A 10nm logic technology using 3rd-generation FinFET transistors with Self-Aligned Quad Patterning (SAQP) for critical patterning layers, and cobalt local interconnects at three local interconnect layers is described. For high density, a novel self-aligned contact over active gate process and elimination of the dummy gate at cell boundaries are introduced. The transistors feature rectangular fins with 7nm fin width and 46nm fin height, 5th generation high-k metal gate, and 7th-generation strained silicon. Four or six workfunction metal stacks are used to enable undoped fins for low Vt, standard Vt and optional high Vt devices. Interconnects feature 12 metal layers with ultra-low-k dielectrics throughout the interconnect stack. The highest drive currents with the highest cell densities are reported for a 10nm technology.

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2017 IEEE International Electron Devices Meeting (IEDM)

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