Tzi-Dar Chiueh (Âö§Ó¹F)

 

Director, Graduate Institute of Electronics Engineering

Professor, Department of Electrical Engineering

National Taiwan University

Taipei Taiwan 10617

 

Fax: +886-2-2368-1679

Email: chiueh@cc.ee.ntu.edu.tw

Lab webpage : http://dodger.ee.ntu.edu.tw

 

Biography

Tzi-Dar Chiueh was born in Taipei, Taiwan in 1960. In 1983, he received the B.S.E.E. degree from the National Taiwan University, Taipei, Taiwan.  He also received the M.S. and Ph.D. degrees in electrical engineering from the California Institute of Technology, Pasadena, California, in 1986 and 1989, respectively.

Since 1989, he has been at the Department of Electrical Engineering, National Taiwan University, where he is presently a Professor. In 2004-2007, he served as the Director of the Graduate Institute of Electronics Engineering in the same university. He has held visiting positions at ETH Zurich Switzerland in 2000-2001 and at State University of New York at Stony Brook in 2003-2004. His research interests include IC design for digital communication systems and signal processing for bio-medical systems. Since November 2010, he has become the Director General of the National Chip Implementation Center (www.cic.org.tw) in Hsinchu, Taiwan.

Prof. Chiueh has received the Acer Longtern Award 11 times and the Golden Silicon Award in 2002, 2005, 2007, and 2009. His teaching efforts were recognized six times by the Teaching Excellence Award from NTU in 2002, 2003, 2005, 2006, 2007, and 2010. Prof. Chiueh was the recipient of the Outstanding Research Award from National Science Council, Taiwan in 2004¡V2007. In 2005, he received the Outstanding Electrical Engineering Professor from the Chinese Institute of Electrical Engineers (Taiwan), and was awarded the Himax Chair Professorship at NTU in 2006. In 2009, he received the Outstanding Industry Contribution Award from the Ministry of Economic Affairs, Taiwan.

 

Courses

l  Integrated Circuits Design

l  Integrated Circuits Design Laboratory

l  Baseband Communication IC Design

 

Authored Books and Chapters

T. D. Chiueh and P. Y. Tsai, OFDM Baseband Receiver Design for Wireless Communications. Wiley, September 2007.

T. D. Chiueh and C. Y. Chen, ¡§Modulation Codes for Optical Data Storage,¡¨ in Data Storage, In-Tech Publisher, 2010.

T. D. Chiueh and C. Y. Chen, ¡§Signal Processing in Holographic Data Storage,¡¨ in Data Storage, In-Tech Publisher, 2010.

 

Selected Publications

[1]   I. W. Lai, G. Ascheid, H. Meyr, and T. D. Chiueh, ¡§Efficient Channel-Adaptive MIMO Detection Using Just-Acceptable Error Rate,¡¨ accepted by IEEE Trans. on Wireless Communications, Oct. 2010. (SCI)

[2]   C. H. Liao, T. P. Wang, and T. D. Chiueh, ¡§A 78.4mW Soft-Output Detector IC for 8x8 Spatial-Multiplexing MIMO Communications,¡¨ IEEE Journal of Solid-State Circuits, vol. 45, no. 2 , pp. 411-421, Feb. 2010. (SCI, EI)

[3]   P. C. Hsieh, J. S. Jhuang, P. Y. Tsai, and T. D. Chiueh, ¡§A Low-Power Delay Buffer Using Gated Driver Tree,¡¨ IEEE Trans. on VLSI Systems, vol. 17, no. 9, pp. 1212-1219, September 2009. (SCI, EI)

[4]   P. Y. Tsai and T. D. Chiueh, ¡§Adaptive Raised-Cosine Channel Interpolation for Pilot-Aided OFDM systems,¡¨ IEEE Trans. on Wireless Communications, vol. 8, no. 2, pp. 1028-1037, February 2009. (SCI, EI)

[5]   C. Y. Chen, C. C. Fu, and T. D. Chiueh, ¡§Low-Complexity Pixel Detection for Images with Misalignment and Inter-Pixel Interference in Holographic Data Storage,¡¨ Applied Optics, vol. 47, no. 36, Dec. 20, pp. 6784-6795, 2008.

[6]   S. Godtmann, I. W. Lai, T. D. Chiueh, G. Ascheid, and H. Meyr, ¡§Tight Approximation of the Bit Error Rate for BICM(-ID) Assuming Imperfect CSI,¡¨ IEEE Trans. on Wireless Communications, vol. 7, no. 11, part 2, pp. 4468-4473, November 2008.

[7]   K. H. Chen and T. D. Chiueh, ¡§A Cognitive Radio System using Discrete Wavelet Multi-Tone Modulation,¡¨ IEEE Trans. on Circuits and Systems I, vol. 55, no. 10, pp. 3246-3258, November 2008.

[8]   P. Y. Tsai and T. D. Chiueh, ¡§A Low-Power Multicarrier-CDMA Downlink Baseband Receiver for Future Cellular Communication Systems,¡¨ IEEE Trans. on Circuits and Systems I, vol. 54, no. 10, pp. 2229-2239, October 2007.

[9]   M. L. Liou, P. H. Lin, C. J. Jan, S. C. Lin, and T. D. Chiueh, ¡§Design of an OFDM Baseband Receiver with Space Diversity,¡¨ in IEE Proc. on Communications, vol. 153, no. 6, pp. 894-900, December 2006.

[10]K. H. Chen, and T. D. Chiueh, ¡§A Low-Power Digit-Based Reconfigurable FIR Filter,¡¨ IEEE Circuits and Systems II, vol. 53, no. 8, pp. 617-621, August 2006.

[11]K. H. Chen, C. N. Chen, and T. D. Chiueh, ¡§Grouped Signed Power-of-Two Algorithms for Low-Complexity Adaptive Equalization,¡¨ IEEE Circuits and Systems II, vol. 52, No. 12, December 2005.

[12]Y. T. Lin, P. Y. Tsai, and T. D. Chiueh, ¡§Low-power Variable-length Fast Fourier Transform Processor,¡¨ accepted by IEE Proceedings Computers & Digital Techniques, 2005.

[13]P. Y. Tsai, H. Y. Kang, and T. D. Chiueh, ¡§Design of a Baseband Transceiver for Multi-Carrier CDMA Communication,¡¨ accepted by EURASIP Journal on Applied Signal Processing, 2005.

[14]K. H. Chen, T. D. Chiueh, S. C. Chang, P. Luh, ¡§A 1600-MIPS Parallel Processor IC for Job Shop Scheduling,¡¨ to appear in IEEE Trans. on Industrial Electronics, February 2005

[15]P. Y. Tsai, H. Y. Kang and T. D. Chiueh, ¡§Joint Weighted Least Squares Estimation of Carrier Frequency and Timing Frequency Offset for OFDM Systems over Multipath Fading Channel,¡¨ IEEE Trans. on Vehicular Technology, vol. 54, No.1, pp. 211-223, January 2005. (SCI, EI)

 

ISSCC Publications

[16]K. H. Chen and T. D. Chiueh, "A 1.8V 165mW Discrete Wavelet Multitone Baseband Receiver for Cognitive Radio Applications," accepted by IEEE ISSCC, San Francisco, CA, February 2007.

[17]C. H. Yang, K. H. Chen, and T. D. Chiueh , ¡§A 1.2V 6.7mW Impulse-Radio UWB Baseband Transceiver,¡¨ in Technical Digest of IEEE International Solid-State Circuits Conference (ISSCC), San Francisco, CA, February 2005.

[18]        G. Chuang, P. A. Ting, J. Y. Hsu, J. Y. Lai, S. C. Lo, Y. C. Hsiao, T. D. Chiueh, "A MIMO WiMAX SoC in 90nm CMOS for 300Km/h mobility," accepted by IEEE International Solid-State Circuits Conference (ISSCC), San Francisco, CA, February 2011.

 


Selected Fabricated ICs

 

IC1: IEEE 802.11 WLAN Chip

IC2: Fast-Switching Frequency Synthesizer

IC3: Analog Motion Field Detector Chip

IC4: Clock and Data recovery Chip for CD-ROM

              

 

IC5: Low-power Matched Filter Chip

IC6: 3GPP Beamforming WCDMA Chip

 

witching Frequency

IC7: DSP for OFDM/CDMA communications

IC8: IEEE 802.11a WLAN Chip

IC9: 1600-MIPS Parallel Processor

IC10: Variable-Length FFT Processor Chip

IC11: High-Speed Reconfigurable FIR Chip

IC12: Impulse-Radio UWB Baseband Receiver (¡¸ ISSCC2005)

 

IC13: Multi-carrier CDMA IC for Cellular Communications

IC14: Ultra-Low-Power Delay Line using Gated Driver Tree

IC15: Discrete Wavelet-Division Modulation Receiver for Cognitive Radio. (¡¸ ISSCC2007)

IC16: MIMO OFDM Baseband IC for Cognitive Radio

IC17: 8x8 64QAM MIMO Sphere Decoding IC

IC18:Mobile WiMAX Transceiver IC with 300Km/h mobility. (¡¸ ISSCC2011)