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王超

作者: 时间:2019-02-20 点击数:



姓名/Name王超 / Wang Chao

职称/Title 研究员 / Professor

专业方向/Department:集成电路工程系 / Integrated Circuit Engineering

学院/School光学与电子信息学院 / School of Optical and Electronic Information

武汉国际微电子学院 / Wuhan International Institute of Microelectronics

电子邮件/Email: chao_wang_me@hust.edu.cn; chao.wang.1978@hotmail.com

办公室/Office: 西一楼329 / Rm 329, West No.1 Building

教育经历/Academic Qualification:

l 1996~2000,华中科技大学,电子科学与技术系固体电子学与微电子学专业,学士学位。

    B.E., EE, Huazhong University of Science & Technology (HUST), China

l 2000~2001,华中科技大学,电子科学与技术系固体电子学与微电子学专业,硕士学历。

    M.E., EE, Huazhong University of Science & Technology (HUST), China

l 2001~2008,新加坡南洋理工大学,电气与电子工程学院集成电路与系统专业,博士学位。

  导师:新加坡Infinitus资讯通信研究中心主任颜文允正教授

     Ph. D, EE, Nanyang Technological University (NTU), Singapore

     Supervisor: Prof Gan Woon-Seng, Director of InfoComm Centre of Excellence (Infinitus), NTU, Singapore

研究领域/Research Fields:

l 超低电压CMOS集成电路设计(Ultra-low-voltage CMOS IC Design

l 超低功耗VLSI信号处理器设计(Ultra-low-power VLSI Signal Processor Design

l 面向生物医学, 健康保健, 和物联网应用的高效节能集成电路与系统设计(Energy-efficient Circuits and Systems for Biomedical, Healthcare and IoT applications

l 基于新型技术和应用(包括非易失性存储器技术如阻变存储器,相变存储器等,和仿神经形态计算等)的先进集成电路设计(Advanced Circuit Design for Emerging Technologies and Applications, including RRAM/PRCRAM technologies, Neuromorphic computing

l 基于神经网络的仿神经形态人工智能加速器芯片设计(Study of Neural Network based Neuromorphic Computing and High Energy Efficient Chip Design

招生信息/Position Opening

  本课题组依托于华中科技大学光学与电子信息学院以及武汉国际微电子学院,教育资源与实验条件优越。希望全国各高校包括华中科技大学的优秀学子加入攻读硕士和博士学位。由于我们的研究领域具有多学科交叉融合的特点,课题组欢迎电子、光电、医工、电信、自控和计算机等专业背景的学生。本课题组与中科院微电子所、深圳先进院等国内一流研究机构,以及新加坡国立大学、南洋理工大学、新加坡科技设计大学等国际一流大学保持密切的合作关系,对特别优秀的博士生和硕士生可进行短期交换或联合培养。我们也欢迎优秀的本科生到课题组进行毕业设计和实习。

    Our research group has research positions (ME or PhD) available for international students. Associated with Wuhan International Institute of Microelectronics, our group offer English courses/research advice, excellent research facilities, and international exchange programs. Students should have solid knowledge and background of electronic engineering, computer engineering, and/or biomedical engineering. For more information, please contract Dr. Wang Chao by chao.wang.1978@hotmail.com.

工作经历/Working Experience:

1. 2005.7~2008.12, 新加坡南洋理工大学,信号处理研究中心, 研究工程师

Research Engineer, Nanyang Technological University (NTU), Singapore

2. 2009.1~2010.6, 意法半导体亚太设计中心,影像传感器部, 芯片设计工程师

IC Design Engineer, Imaging Division, STMicroelectronics (STM), Singapore

l 百万级像素多媒体影像传感信号处理器芯片, 项目核心成员

Core Member2/3/5MPix CMOS imaging sensor and processor ICs

3. 2010.11~2017.6, 新加坡微电子研究院, 研究员, 项目负责人

Scientist, Co-PI/PL, Institute of Microelectronics (IME), Agency for Science, Technology and Research (A*STAR), Singapore

l 基于硅通孔的二点五维有源硅中介层高性能混合信号处理芯片, 院工业联盟专项,项目负责人

      Co-PLTSV-based Active Silicon Interposer 2.5D IC design for high-performance mixed-signal processing

l 基于微机电麦克风的低功耗便携式心音电子听诊器专用芯片, 科技署生医工程专项,项目负责人

      Co-PILow-power MEMS microphone based portable e-stethoscope for heart sound monitoring

l 基于微机电的高性能低功耗加速传感器专用芯片,工业客户项目,项目负责人

      Co-PLLow-power high-performance ASIC designs for MEMS accelerometers

l 面向嵌入式轮胎监测的超低功耗专用信号处理器芯片, 科技署汽车联盟专项,项目核心成员

      Core ResearcherUltra-low-power dedicated signal processor for embedded tyre monitoring

l 基于硅通孔的三维无线传感器芯片, 院核心项目,项目核心成员

      Core ResearcherTSV-Based 3D IC design for the next-generation wireless sensor node

4. 2017~2019,新加坡科技与设计大学,高级研究员,项目负责人

Senior Research Fellow, Singapore University of Technology and Design SUTD

l 尖峰仿神经形态计算的关键技术研究:基于算法和硬件协同设计的在线学习,国家研究基金新加坡人工智能专项,联合项目负责人

Co-PL, Enable Spiking Neuromorphic Computation with On-Board Learning Through Algorithm and Hardware Co-design

l 用于边缘深度学习的改进硬件框架研究,浙大-新科大联合基金项目,项目核心成员

Core Researcher, Development of Improved Hardware Framework for Deep Learning at the Edge

5. 2019~至今,华中科技大学,光学与电子信息学院,研究员

ProfessorSchool of Optical and Electronic InformationHuazhong University of Science and Technology, Wuhan, China

l 基于神经网络的高效节能仿神经形态计算芯片研究

 Study of Neural Network based Neuromorphic Computing and High Energy Efficient Chip Design  

l 基于深度学习的心血管疾病监测的硬件加速器芯片研究

Study of Deep Learning based Cardiovascular Disease Detection/Monitoring and Efficient Hardware Accelerator Chip Design

学术兼职/Professional Services:

l IEEE高级会员, IEEE固态电路学会, 电路与系统学会和电子器件学会会员(Senior Member, IEEE Solid-State Circuits Society, IEEE Circuits and System Society, and IEEE Electronic Device Society

l IEEE固态电路协会新加坡分会2017-2018年度主席,2015-2016年度副主席,2012-2014年度常任理事(Chair/Vice-Chair/Committee Member, IEEE Solid-State Circuits Society Singapore Chapter Committee, 17-’18/’15-’16/’12-’14

l IEEE A-SSCC’16-’18, ISCAS’19, SOCC’19, APSCAS’18, ICTA’18, ISIC14/16, EDSSC15/16, IPFA’1719, INEC16/’18等集成电路与系统国际会议技术委员会委员(TPC/TC Member)

l IEEE Access学报和Elsevier微电子学报等国际期刊副主编(Associate Editors of IEEE Access Journal and Elsevier Microelectronics Journal)

l IEEE生医电路与系统学报2019年人工智能专刊和Hindawi传感器学报2017年无线传感专刊客座副主编(Guest Editors of IEEE T-BioCAS: Special Issue on AI-based Biomedical Circuits and Systems 2019 and Hindawi Journal of Sensors: Special Issue on Circuits and Systems for Wireless Sensing 2017)

l IEEE JSSC, TBioCAS, TCAS1, TCAS2, T-VLSI, SSC Letter等集成电路与系统国际期刊审稿人(Reviewer)

受邀报告/Invited Talk:

l 2018.12Energy Efficiency Design: from Wireless Sensing to Wireless Intelligence, 中科院深圳先进院(Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences.

l 2018.6, Ultra-Low Voltage Digital Circuits and Systems Design for Emerging IoT and Intelligent Sensing Devices, 华中科技大学电子信息与通信学院(School of Electronic Information and Communication, HUST.

l 2017.11, Ultra-Low Power PCG Processor Design for Long-Term Cardiac Monitoring, 中科院电子学所(Institute of Electronics, China Academy of Science.

l 2017.11, Ultra-Low Power PCG Processor Design for Long-Term Cardiac Monitoring, 中科院微电子所(Institute of Microelectronics, China Academy of Science.

l 2017.11, Energy-Efficient and Ultra-Low Voltage Cardiac Signal Processor Design for Long-Term Cardiac Monitoring, IEEE电路与系统学会武汉研讨会IEEE CASS Wuhan Workshop),华中科技大学(HUST.

l 2015.6, Digital Integrated Circuit and System Design for Next-Generation Intelligent Sensing, 华中科技大学光学与电子信息学院(School of Optical and Electronic Information, HUST.

l 2014.2, 3D-IC Design as Enablers for Heterogeneous Integration of Next-Generation Wireless Sensor Nodes, Top Runners’ Lecture Collection of Science, 早稻田大学Waseda University.

主要论文/Publication

国际期刊/Journal Papers:

l X. Ji, L. Song, S. Zhong, Y. Jiang, K. G. Lim, C. Wang, and R. Zhao, “Biodegradable and Flexible Resistive Memory for Transient Electronics,”Journal of Physical Chemistry C (JPCC), ACS, in press, 2018.

l C. Wang, J. Luo, and J. Zhou, "A 1-V to 0.29-V sub-100-pJ/operation Ultra-Low Power Fast-Convergence CORDIC Processor in 0.18-µm CMOS",Microelectronics Journal (MEJ), Elsevier, vol. 76, pp. 52-62, 2018.

l N. Xue, C. Wang*, C. Liu, and J. Sun, "Highly Integrated MEMS-ASIC Sensing System for Intracorporeal Physiological Condition Monitoring," in Sensors, 18, 107, 2018.

l J. Zhou, and C. Wang*, "An Ultra-Low Power Turning Angle Based Biomedical Signal Compression Engine with Adaptive Threshold Tuning," in Sensors, 17, 1809, 2017.

l J. Zhou, C. Huang, C. Wang, T. H. KIM, and Y. Long, "Energy-Efficient Digital and Wireless IC Design for Wireless Smart Sensing," in Journal of Semiconductors, vol. 38, no. 10, pp. 105005-1, 2017.

l X. Huang, X. Yu, C. Wang, and H. Gao, "Circuits and Systems for Wireless Sensing," in Journal of Sensors, vol. 2017, Article ID 4045780, 2 pages, 2017.

l X. Liu, J. Zhou, C. Wang, K. H. Chang, J. Luo, J. Lan, L. Liao, Y-H. H. Lam, Y. Yang, B. Wang, X. Zhang, W. L. Goh, T. H. Kim, and M. Je, " An Ultra-Low-Voltage Sensor Node Processor with Diverse Hardware Acceleration and Cognitive Sampling for Intelligent Sensing," in IEEE Trans. on Circuits and Systems-II Express Briefs (TCAS-II), vol. 62, no. 12, pp. 1149-1153, 2015.

l S. Leng, R. S. Tan., Kevin T. C. Chai, C. Wang, Dhanjoo Ghista, and L. Zhong, The Electronic Stethoscope,in Biomedical Engineering Online, 2015.

l J. Zhou, C. Wang*, X. Liu, X. Zhang, and M. Je, “An Ultra-Low Voltage Level Shifter using Revised Wilson Current Mirror for Fast and Energy-Efficient Wide-Range Voltage Conversion from Sub-Threshold to I/O Voltage,” in IEEE Trans. on Circuits and Systems-I  Regular Papers  (TCAS-I), vol. 62, no. 3, pp. 697-706, 2015.

l C. Wang, J. Zhou, L. Liao, J. Lan, J. Luo, X. Liu, and M. Je, “Near-Threshold Energy and Area Efficient Reconfigurable DWPT/DWT Processor for Healthcare Monitoring Applications,” in IEEE Trans. on Circuits and Systems-II Express Briefs (TCAS-II), vol. 62, no. 1, pp. 70-74,  2015.

l C. Wang, J. Zhou, R. Weerasekera, B. Zhao, X. Liu, P. Royannez, and M. Je, “BIST Methodology, Architecture and Circuits for Pre-Bond TSV Testing in 3D Stacking IC Systems,” in IEEE Trans. on Circuits and Systems-I  Regular Papers (TCAS-I), vol. 62, no. 1, pp. 139-148,  2015.

l J. Zhou, C. Wang*, X. Liu, and M. Je, “Fast and Energy-Efficient Low-Voltage Level Shifters,” in Microelectronics Journal (MEJ), Elsevier, vol. 46, no. 1, pp. 75-80, 2015.

l T. Sun, N. Xue, C. Liu, C. Wang, J. He, Bioactive (Si, O, N)/(Ti, O, N)/Ti Composite Coating on NiTi Shape Memory Alloy for Enhanced Wear and Corrosion Performance,” in Applied Surface Science, Elsevier, vol. 356, pp. 599-609, 2015.

l X. Liu, J. Zhou, Y. Yang, B. Wang, J. Lan, C. Wang, J. Luo, W. L. Goh, T. H. Kim, and M. Je, "A 457-nW Near-Threshold Cognitive Multi-Functional ECG Processor for Long-Term Cardiac Monitoring," in IEEE Journal of Solid-State Circuits (JSSC), vol. 49, no. 11, pp.2422 -2434,  2014.

l C. Wang, Kevin T. C. Chai, V. Suplin, D. Nuttman, and M. Je, “Reconfigurable Closed-Loop Digital ∑∆ Capacitive MEMS Accelerometer for Wide Dynamic Range, High Linearity Applications”, in International Journal on Information and Electronics Engineering (IJIEE), vol. 3, no. 1, pp. 44-48, 2013.

l C. Wang and W. S. Gan, “Efficient VLSI Architecture for Lifting-Based Discrete Wavelet Packet Transform”, in IEEE Trans. on Circuits and Systems-II Express Briefs(TCAS-II), vol. 54, no. 5, pp. 422-426, May 2007.

l C. Wang and W. S. Gan, “Efficient Algorithm and Architecture of Critical-Band Transform for Low-Power Speech Applications”, in EURASIP Journal on Advances in Signal Processing (EJASP), vol. 2007, Article ID 89264, 10 pages, 2007.

国际会议/Conference Papers:

l X. Ji, C. Wang, L. Song, and R. Zhao, "Super Nonlinear Mixed Ionic Electronic Conducting Thin-film Selector for Crosspoint Array," IEEE Nanotechnology Materials and Devices Conference (NMDC 2018), Oct 2018.

l N. Xue, C. Liu, J. Sun, and C. Wang, "Flexible Pressure and Force Sensing System for Bio-medical Devices," IEEE International Nanoelectronics Conference (INEC 2018), in press, Jan 2018.

l C. Wang, J. Zhang, J. Zhou, X. Liu, R.S.Tan, L. Zhong, and Kevin T. C. Chai, " A 65-nm 0.35-V 7.1-µW Memory-less Adaptive PCG Processor for Wearable Long-term Cardiac Monitoring," in Proc. of IEEE Asian Solid State Circuit Conference (A-SSCC 2016), pp. 329-332, Nov.7-9, 2016.

l Kevin T. C. Chai, C. Wang, J. Tao, J. Xu, L. Zhong, and R. S. Tan, “High Performance Differential Capacitive MEMS Sensor Readout with Relaxation Oscillator Front-End Converter Back-End And Phase Locked Loop Time-To-Digital,” in Proc. of IEEE Region 10 Conference (TENCON 2016), pp. 1528 - 1531, Dec 2016.

l S. Leng, C. H. Soh, F. Huang, J. Zhang, C. Wang, Kevin T. C. Chai, L. Zhong, R. S. Tan, " Comparison of Systolic and Diastolic Time Intervals from Digital Stethoscope with Tissue Doppler Imaging," in Proc. of Biomedical Engineering Society 2016 (BMES 2016) Annual Meeting, Oct 5-8, 2016.

l T. Tang, W. L. Goh, X. Liu, and C. Wang, “A 0.18μm, 0.6V, 83.5μW Integer DCT Processor for Neural Signal Applications”, in Proc. of International Symposium on Integrated Circuits (ISIC 2016), Dec. 12-14. 2016.

l C. Wang, J. Zhou, K. Guruprasad, X. Liu, T. H. Kim, and R. Weerasekera, " TSV-Based PUF Circuit for 3DIC Sensor Nodes in IoT Applications," in Proc. of IEEE Conference on Electron Devices and Solid-State Circuits (EDSSC 2015), pp. 313-316, June.1-4, 2015.

l Y. Wang, Y. Shi, C. Wang, and Y. Ha, " FPGA-Based SHA-3 Acceleration on a 32-bit Processor via Instruction Set Extension," in Proc. of IEEE Conference on Electron Devices and Solid-State Circuits (EDSSC 2015), pp. 305-308, June.1-4, 2015.

l C. Wang, J. Lan, J. Luo, D. Nag, B. Grinberg, and Kevin T. C. Chai, " A Ultra-Low-Power Sensor Signal Processor for High-Performance Close-Loop MEMS Accelerometer," in Proc. of IEEE Conference on Electron Devices and Solid-State Circuits (EDSSC 2015), pp. 91-94, June.1-4, 2015.

l J. Zhou, X. Liu, C. Wang, K. H. Chang, J. Luo, J. Lan, L. Liao, Y-H. H. Lam, Y. Yang, B. Wang, X. Zhang, W. L. Goh, T. H. Kim, and M. Je, "A 0.5V 29pJ/Cycle Sensor Node Processor for Intelligent Sensing Applications," in Proc. of International SoC Design Conference (ISOCC 2014), pp. 70-71, Nov.3-6, 2014.

l C. Wang, J. Zhou, X. Liu, A. Annamalai, and M. Je, “A Sub-threshold to Super-threshold Level Conversion Flip Flop for Sub/Near-Threshold Dual-Supply Operation”, in Proc. of IEEE Asian Solid State Circuit Conference (A-SSCC 2014), pp. 41-44, Nov.10-12, 2014.

l J. Zhou, C. Wang, X. Liu, X. Zhang, and M. Je, “A Fast and Energy-Efficient Level Shifter with Wide Shifting Range from Sub-threshold up to I/O Voltage,” in Proc. of IEEE Asian Solid State Circuit Conference (A-SSCC 2013), pp. 137-140, Nov.11-13, 2013.

l J. Zhou, X. Liu, Y. H. Lam, C. Wang, K. H. Chang, J. Lan, and M. Je, “HEPP: A New In-Situ Timing-Error Prediction and Prevention Technique for Variation-Tolerant Ultra-Low-Voltage Designs,” in Proc. of IEEE Asian Solid State Circuit Conference (A-SSCC 2013), pp. 129-132, Nov.11-13, 2013.

l X. Liu, J. Zhou, Y. Yang, B. Wang, J. Lan, C. Wang, J. Luo, W. L. Goh, T. H. Kim, M. Je, “A 457-nW Cognitive Multi-Functional ECG Processor,” in Proc. of IEEE Asian Solid State Circuit Conference (A-SSCC 2013), pp. 141-144, Nov.11-13, 2013.

l L. Liao, C. Wang, and X. Liu, “Discrete Wavelet Transform Decomposition Level Determination Exploiting Sparseness Measurement”, in Proc. of International Conference on Electrical, Computer, Electronics and Communication Engineering (ICECECE 2013), vol. 7, no. 9, pp. 714-747, Sep.12-13, 2013.

l C. Wang, J. Zhou,  B. Zhao, X. Liu, R. Philippe, and M. Je, “Self-Test Methodology and Structures for Pre-Bond TSV Testing in 3D-IC System”, in Proc. of IEEE Asian Solid State Circuit Conference (A-SSCC 2012), pp. 393-396, Nov.12-14, 2012.

l X. Liu, J. Zhou, X. Liao, C. Wang, J. Luo,  M. Madihian, and M. Je, “Ultra-Low-Energy Near-Threshold Biomedical Signal Processor for Versatile Wireless Health Monitoring”, in Proc. of IEEE Asian Solid-State Circuits Conference (A-SSCC 2012), pp. 381-384, Nov.12-14, 2012.

l C. Wang, W. S. Gan, C. C. Jong, and J. Luo, “A Low-Cost 256-Point FFT Processor for Portable Speech and Audio Applications”, in Proc. of International Symposium on Integrated Circuits (ISIC 2007), pp. 81-84, Sep. 26-28. 2007.

l C. Wang, W. S. Gan, X. Shi, and K. S. Yeo, “VLSI Architectures for Lifting-Based Discrete Wavelet Packet Transform”, in Proc. of International Symposium on Integrated Circuits (ISIC 2007), pp. 188-191, Sep. 26-28. 2007.

l C. Wang and W. S. Gan, “Efficient VLSI architecture of lifting-based wavelet packet transform for audio and speech applications,” in Proc. of IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP 2006), vol. 3, pp. 940-943, May 14-19, 2006.

l C. Wang, Y. C. Tong, and Y. Shao, “VLSI Design and Analysis of a Critical-band Transform Processor for Speech Recognition,” in Proc. of IEEE International SOC (System-on-Chip) Conference (SOCC 2004), pp. 365-368, Sep. 12-15, 2004.

l C. Wang and Y. C. Tong, “An Improved Critical-band Transform Processor for Speech Applications,” in Proc. of 2004 IEEE International Symposium on Circuits and Systems (ISCAS 2004), vol. 3, pp. 461-464, May 23-26, 2004.

l Y. Shao, Y. C. Tong, and C. Wang, “Wavelet Statistical Model of Speech for Feature Extraction and Denoising,” in Proc. of IEEE Asia-Pacific Conference on Circuits and Systems (APCCAS 2004), vol. 1, pp. 189-192, Dec. 6-9, 2004.


华中科技大学  光学与电子信息学院  联系电话:027-87558726  邮编:430074 地址:中国•湖北省武汉市珞喻路1037号 华中科技大学南五楼六楼