胡庆生

发布者:蔡媛媛发布时间:2018-04-23浏览次数:492

职称:教授

办公室:四牌楼李文正楼中401

办公电话:025-83795586

Emailqshu@seu.edu.cn

学习经历:

1981/9-1985/6安徽大学本科

1987/9-1990/6安徽大学硕士

1994/9-1997/6上海交通大学博士

1997/9-1999/6中国科学技术大学博士后

工作经历:

1999/6-2002/3中兴通讯南京研究所

2002/3-2003/3香港科技大学

2003/3-现在东南大学信息学院

教授课程:

专用集成电路--本科课程

VLSI设计博士课程

研究方向:

1、通信电路与系统

2、通信专用芯片设计

3、数模混合高速电路设计

获奖情况:

  

论文著作:

专著

[1]专用集成电路设计. 电子工业出版社. 2015.9

[2]模拟CMOS电路设计折中与优化. 电子工业出版社. 2013.5

主要论文

[1]10 Gb/s transmit equalizer using duobinary signaling over FR4 backplane [J]. High Technology Letters, v 23, n   3, p 266-270, September 1, 2017

[2]一个用于背板通信的24Gb/s高速自适应组合均衡器[J]. 电子学报, 2017, Vol. 45, no 7: 1608-1612

[3]应用于高速串行链路的噪声预测部分响应最大似然均衡[J]. 东南大学学报(自然科学版)

[4]High speed and reliability gearbox for 100GE physical coDing sublayer [J]. Electronics Letters, v 52, n   11, p 908-909, May 26, 2016

[5]A 10 Gb/s combined equalizer in 0.18 μm CMOS technology for backplane   communication [J].   High Technology Letters, v 21, n 2, p 205-211, June 1, 2015

[6]A 14.5 Gb/s word alignment circuit in 0.18 μm CMOS technology for   high-speed SerDes [J].   High Technology Letters, v 20, n 3, p 328-332, September 1,   2014

[7]A 6.25 Gb/s equalizer in 0.18 μm CMOS technology for high-speed SerDes [J]. Journal of Semiconductors, v 34, n   12, December 2013

[8]40Gbps甚短距离并行光传输技术与实验系统[J].电子学报, 2011, Vol.39, no.5:1174-1177

[9]A 6.25 Gbps CMOS 10 B/8 B decoder with pipelined architecture [J]. Journal of Semiconductors, v 32, n   4, April 2011

[10]IBIS-AMI based PAM4 signaling and FEC technique for 25 Gb/s serial link[C]. Wired/Wireless Internet Communications   2017

[11]A 20 Gb/s wireline receiver with adaptive CTLE and half-rate DFE in   0.13 µm technology[C].   Wired/Wireless Internet Communications 2017

[12]A 10Gb/s partial response equalizer in 0.18μm CMOS using duobinary   signaling[C].   Proceedings of SPIE - The International Society for Optical   Engineering, v 10250, 2017

[13]A noise predictive maximum likelihood equalization and its application   in high speed serial link systems[C]. 6th International Workshop on Computer Science and   Engineering, WCSE 2016, p 411-414, 2016

[14]Optimization of equalization architecture for the high-speed serial   communication[C].   Proceedings of the International Conference on Anti-Counterfeiting, Security   and Identification, ASID, v 2016-February, p 6-9, February 11,   2016

[15]Analysis and optimization of combined equalizer for high speed serial   link[C]. Proceedings   of the International Conference on Anti-Counterfeiting, Security and   Identification, ASID, v 2016-February, p 43-46, February 11,   2016

[16]Energy-efficient continuous-time linear equalizer for short-haul   optical communications[C]. Proceedings of the International Conference on Anti-Counterfeiting,   Security and Identification, ASID, v 2016-February, p   76-80, February 11, 2016

[17]Partial response maximum likelihood equalization for high speed serial   link systems[C].   2015 Asia-Pacific Microwave Conference, APMC 2015

[18]A high-speed gearbox based on phase independent architecture for 100G   Ethernet physical coding sublayer[C]. 2015 3rd International Conference on Information   and Communication Technology, ICoICT 2015, p 251-254, August 31,   2015

[19]Design of a 6.25Gb/s adaptive decision feedback equalizer in 0.18μm   CMOS technology[C].   2014 IEEE Workshop on Advanced Research and Technology in Industry   Applications, WARTIA 2014, p 1209-1212, December 4, 2014

[20]A 10ps 500MS/s two-channel Vernier TDC in 0.18um CMOS technology[C]. 2014 IEEE Workshop on Advanced Research   and Technology in Industry Applications, WARTIA 2014, p   1268-1271, December 4, 2014

[21]A 6.25Gb/s feed-forward equaliser in 0.18μm CMOS using delay locked   loop with load calibration[C]. 2014 9th International Symposium on Communication   Systems, Networks and Digital Signal Processing, CSNDSP 2014, p   203-207, October 14, 2014

[22]An effective concatenated code encoding technique with reduced storage[C]. Applied Mechanics and Materials, v   543-547, p 2448-2451, 2014

[23]10Gb/s orthogonally concatenated BCH encoder for fiber communications[C]. 2013 2nd International Symposium on   Instrumentation and Measurement, Sensor Network and Automation, IMSNA   2013, p1018-1021, 2013

[24]Implementation of 10-Gb/s parallel BCH decoder based on virtex-5 FPGA[C]. Advanced Materials Research, v   429, p 159-164, 2012

[25]10Gb/s RS-BCH concatenated encoder with pipelined strategies for fiber   communication[C].   Advanced Materials Research, v 429, p 154-158, 2012

[26]A high-speed and low-power up/down counter in 0.18-μm CMOS technology[C]. 2012 International Conference on Wireless   Communications and Signal Processing, WCSP 2012

[27]A 6.25Gb/s adaptive analog equalizer in 0.18μm CMOS technology for   high-speed SerDes[C].   Proceedings of 2nd International Conference on Computer Science and Network   Technology, ICCSNT 2012, p 266-270, 2012

[28]A 6.25Gbps adaptive decision feedback equalizer for serial data link in   0.18μm CMOS technology[C]. 2012 International Conference on Wireless Communications,   Networking and Mobile Computing, WiCOM 2012

科研项目:

项目名称

[3]项目类别

[4]项目时间

[5]工作类别

[6]项目金额

高性能可扩展网络调度系统

国家自然科学基金面上项目

2005.01-2007.12

应用基础研究

  

40Gbps甚短距离并行光互连技术与实验系统

国家“863”项目

2006.12-2008.12

应用研究

  

10Gb/s EPONFEC研究

横向项目

2008.4-2009.6

应用研究

  

10Gbps增强型前向纠错编码

横向项目

2009.2-2010.8

应用研究

  

TCP Proxy的开发与硬件实现

横向项目

2010.9-2011.7

应用研究

  

正交级联超强FEC 码研究

横向项目

2012.9-2013.10

应用研究

  

载波通信技术的研究与开发

横向项目

2013.10-2014.8

工程应用

  

基于以太网的高速载波通信系统开发

横向项目

2015.4-2017.4

工程应用

  

LTE 与物联网融合的机器通信芯片及其系统研究与开发

横向项目

2017.1-2018.12

应用研究

  

专利:

专利号

专利名称

专利类型

ZL 200710133322.3

一种公平可扩展网络调度方法

发明专利授权

  

  

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