譚旻,華中科技大學光學與電子信息學院微電子工程系和華中科技大學武漢國際微電子學院研究員。
教育和研究經歷,研究興趣,代表性論文,
教育和研究經歷
2001-2005 華中科技大學電信系 本科 / Huazhong University of Science and Technology, B.Eng. (Communication Engineering)
2006-2008 香港中文大學信息工程系 碩士 / The Chinese University of Hong Kong, M.Phil. (Information Engineering)
2008-2011 中國電子科技集團 工程師 / China Electronics Technology Group Corporation, Design Engineer
2011-2015 香港科技大學 博士 / The Hong Kong University of Science and Technology, Ph.D. (Electronic and Computer Engineering)
2015-2016 香港科技大學博士後 / Hong Kong University of Science and Technology, Postdoc Associate
2016-present 華中科技大學 研究員 / HUST, Professor
研究興趣
Energy-efficient implementation of VLSI systems with theoretical guarantee. In particular, I am interested in
1. Power and energy related problems motivated by emerging applications such as 4G/5G wireless, IoT, and integrated silicon-photonics.
2. Design and analysis of fundamental IC building blocks, such as amplifiers and filters.
代表性論文
[1] M. Tan, R. W. Yeung, S.-T. Ho, and N. Cai, “A unified framework for linear network codes.” IEEE Trans. Inf. Theory, vol. 57, no. 1, pp. 416-423, Jan. 2011.
[2] M. Tan and W.-H. Ki, “A cascode Miller-compensated three-stage amplifier with local impedance attenuation for optimized complex-pole control,” IEEE J. Solid-State Circuits (JSSC), vol. 50, no. 2, pp. 440–449, Feb. 2015. (Top accessed JSSC paper, ranked 2nd Feb. 2015)
[3] M.Tan and W.-H. Ki, “An efficiency-enhanced hybrid supply modulator with single- capacitor current-integration control,” IEEE J. Solid-State Circuits (JSSC),vol. 51, no. 2, pp. 533–542, Feb. 2016.
[4] M. Tan and W.-H. Ki, “A 100MHz hybrid supply modulator with ripple-current based PWM control,”IEEE J. Solid-State Circuits (JSSC), to appear.
[5] M. Tan and W.-H. Ki, “Current-mirror miller compensation: An improved frequency compensation technique for two-stage amplifiers,” inInternational Symposium on VLSI Design, Automation, and Test (VLSI-DAT), Hsinchu, Taiwan, pp. 312-315, Apr. 2013.
[6] M. Tan, C. Zhan, and W.-H. Ki, “A 4mA quiescent current output-capacitor-free low- dropout regulator with fully differential input stage,” inIEEE International Symposium on Circuits and Systems (ISCAS), Melbourne, Australia, pp. 2457-2460, Jun. 2014.
[7] M. Tan and W.-H. Ki, “A generic model for three-stage amplifiers,” inIEEE International Symposium on Circuits and Systems (ISCAS), Montreal, Canada, May 2016.
