Ming-Huan Tsai | Researchain

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Featured researches published by Ming-Huan Tsai.

international electron devices meeting | 2009

A 25-nm gate-length FinFET transistor module for 32nm node

Chang-Yun Chang; Tsung-Lin Lee; Clement Hsingjen Wann; Li-Shyue Lai; Hung-Ming Chen; Chih-Chieh Yeh; Chih-Sheng Chang; Chia-Cheng Ho; Jyh-Cherng Sheu; Tsz-Mei Kwok; Feng Yuan; Shao-Ming Yu; Chia-Feng Hu; Jeng-Jung Shen; Yi-Hsuan Liu; Chen-Ping Chen; Shin-Chih Chen; Li-Shiun Chen; Leo Chen; Yuan-Hung Chiu; Chu-Yun Fu; Ming-Jie Huang; Yu-Lien Huang; Shih-Ting Hung; Jhon-Jhy Liaw; Hsien-Chin Lin; Hsien-Hsin Lin; Li-te S. Lin; Shyue-Shyh Lin; Yuh-Jier Mii

FinFET is the most promising double-gate transistor architecture [1] to extend scaling over planar device. We present a high-performance and low-power FinFET module at 25 nm gate length. When normalized to the actual fin perimeter, N-FinFET and P-FinFET have 1200 and 915 µA/µm drive current respectively at 100nA/µm leakage under 1V. To our knowledge this is the best FinFET drive current at such scaled gate length. This scaled gate length enables this FinFET transistor for 32nm node insertion. With aggressive fin pitch scaling, the effective transistor width is approximately 1.9X and 2.7X over planar for typical logic and SRAM on the same layout area (i.e., silicon real estate). Due to superior electrostatics and reduced random dopant fluctuation, this high drive current can be readily traded with VDD scaling for low power.

international electron devices meeting | 2016

A 7nm CMOS platform technology featuring 4 th generation FinFET transistors with a 0.027um 2 high density 6-T SRAM cell for mobile SoC applications

Shien-Yang Wu; C.Y. Lin; M.C. Chiang; Jhon-Jhy Liaw; J.Y. Cheng; Shu-Tine Yang; Ching-Wei Tsai; P.N. Chen; T. Miyashita; Chih-Sheng Chang; V.S. Chang; K.H. Pan; Jyh-Huei Chen; Y.S. Mor; K.T. Lai; C.S. Liang; Huan-Neng Chen; S.Y. Chang; Chrong Jung Lin; C.H. Hsieh; R.F. Tsui; C.H. Yao; Chun-Kuang Chen; R. Chen; C.H. Lee; H.J. Lin; Chih-Yang Chang; Kuang-Hsin Chen; Ming-Huan Tsai; K.S. Chen

For the first time, a leading edge 7nm CMOS platform technology for mobile SoC applications is presented. This technology provides >3.3X routed gate density and 35%∼40% speed gain or >65% power reduction over our 16nm FinFET technology. A fully functional 256Mb SRAM test-chip with the smallest high density SRAM cell of 0.027um2 is demonstrated down to 0.5V. The 4th generation FinFET transistors are optimized with device mismatch reduction by 25%∼35% and multi-Vt device options to enable low power and high performance design requirements.

custom integrated circuits conference | 2011

28nm metal-gate high-K CMOS SoC technology for high-performance mobile applications

Shu-Tine Yang; Jyh-Cherng Sheu; M. K. Ieong; M. H. Chiang; T. Yamamoto; Jhon-Jhy Liaw; S. S. Chang; Yu-Ling Lin; T. L. Hsu; Jiunn-Ren Hwang; J. K. Ting; Chung-Cheng Wu; K. C. Ting; F. C. Yang; Chung-Shi Liu; I. L. Wu; Y. M. Chen; S. J. Chent; K. S. Chen; J. Y. Cheng; Ming-Huan Tsai; W. Chang; R. Chen; Chii-Ping Chen; Tsung-Lin Lee; Chung-Kai Lin; Sheng-Jier Yang; Yi-Ming Sheu; J. T. Tzeng; L. C. Lu

An industry leading 28nm high-performance mobile SoC technology featuring metal-gate/high-k process is presented. The technology is optimized to offer wide power-to-performance transistor dynamic range and highest wired gate density with superior low-R/ELK interconnects, critical for next generation mobile computing/SOC applications. Through process and design optimization, historical trend is maintained for gate density and SRAM cell sizes. Variations control strategy through process and design collaboration is also described.

Archive | 2003