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Eby Friedman

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[2] Eby G.Friedman is a Fellow of the IEEE [3] and Professor at the University of Rochester in the field of: electronic imaging system ,high performance VLSI/IC design and analysis, synchronous digital microelectronic design, synchronous mixed signal microelectronic design (with application to high speed portable processors and low power wireless communications) Professor Friedman is also a Visiting Professor at the Technion - Israel Institute of Technology, and directs the Technion Advanced Circuits Research Center (ACRC).
Born in Jersey City, New Jersey in 1957 he received the Ph. D. degrees from the University of California, Irvine, in electrical engineering. Since 1978 Under the employment of Hughes Aircraft Company .he worked on the design of bipolar differential amplifiers, the development of supporting design and test methodologies and CAD tools, functional and parametric test, and the development of high performance and high resolution DSP and oversampled systems. Afterwards he resigned to the Academy
Professor Eby is married to Laurie Friedman and they have 2 kids

Eby G. Friedman
Born (1957-01-01) 1 January 1957 (age 68)
Jersey City, New Jersey
Alma materUniversity of Rochester
AwardsCharles A. Desoer Technical Achievement Award (2013) [1]
Scientific career
FieldsElectrical and Computer Engineering
Institutions


Research Summary

  • Automated Synthesis of High Performance Clock Distribution Networks – This research deals with automated synthesis of highly reliable clock distribution networks and high speed performance .In order to achieve this goals .Prop Friedman developed a unique synthesis system.[4]
  • High Performance Digital and Analog VLSI/ICs - The purpose of this research is the design and analysis of high performance digital and analog integrated circuits, using several design techniques and maximize the level performance of the circuits.[5]
  • Design of MSI/LSI Circuits Based on Innovative Technologies – The research uses innovative design techniques in order to develop aggressive niche technologies.[citation needed]
  • On-Chip Interconnect and Substrate Coupling Noise – This research is dealing with the effects of RLC interconnect and substrate impedances by designing and compensating for these effects.[6]
  • Integrated Pipelining, Retiming, and Clock Scheduling – In this research .Prop Friedman develop an accurate algorithms in order to improve synthesis of high performance synchronous systems.[7]
  • Circuit Design Techniques for Driving RLC Interconnect - In this research Prop Friedman described the interaction between ,RLC impedances which loading the CMOS transistor and the CMOS circuits.[8]


Awards

Group Awards

  • Shahar Kvatinsky with Uri Weiser, Avinoam Kolodny, and Eby G. Friedman received the 2015 IEEE Circuits and Systems Society Guillemin-Cauer Best Paper Award[9] for our paper, " TEAM – ThrEshold Adaptive Memristor Model"[10] published in the IEEE Transactions on Circuits and Systems I: Regular Papers in January 2013.
  • Eby G. Friedman received the " IEEE Circuits and Systems 2013 Charles A. Desoer Technical Achievement Award".[11]
  • Shahar Kvatinsky with Uri Weiser, Avinoam Kolodny, and Eby G. Friedman, received the 2013 Sanford Kaplan Prize for Creative Management in High Tech in the 21st Century. [citation needed]
  • The paper by Arkadiy Morgenshtein, Eby G. Friedman, Ran Ginosar, and Avinoam Kolodny, " Unified Logical Effort - A Method for Delay Evaluation and Minimization in Logic Paths with RC Interconnect,"[12] published in the IEEE Transactions on Very Large Scale Integration (VLSI) Systems in May 2010 won the 2012 IEEE Circuits and Systems Society VLSI Transactions Best Paper Award.[13]
  • The paper by Vasilis F. Pavlidis and Eby G. Friedman, " 3-D Topologies for Networks-on-Chip,"[14] published in the IEEE Transactions on Very Large Scale Integration (VLSI) Systems in October 2007 is on the list of Top 25 Downloaded Manuscripts[15] for this journal in 2009.
  • The paper by Mikhail Popovich and Eby G. Friedman, " Decoupling Capacitors for Multi-Voltage Power Distribution Systems,"[16] published in the IEEE Transactions on Very Large Scale Integration (VLSI) Systems in March 2006 is on the list of Top 25 Downloaded Manuscripts[17] for this journal in 2007.
  • The paper by Guoqing Chen and Eby G. Friedman, " An RLC Interconnect Model Based on Fourier Analysis,"[18] published in the IEEE Transactions on Computer-Aided Design in February 2005 is on the list of Top Downloaded Papers in 2005 for this journal.
  • Vasilis Pavlidis received the AMD/CICC Student Scholarship Award for his paper, "Clock Distribution Networks for 3-D Integrated Circuits," with E. G. Friedman at the 2008 IEEE Custom Integrated Circuits Conference. [citation needed]
  • Ioannis Savidis' paper at the 2008 IEEE International Symposum on Circuits and Systems in Seattle, Washington was a finalist for the student best paper award for the paper, I. Savidis and E. G. Friedman, " Electrical Characterization and Modeling of 3-D Vias,"[19] Proceedings of the IEEE International Symposium on Circuits and Systems, pp. 784 – 787. May 2008.
  • Mikhail Popovich and Eby G. Friedman received the GRC Inventor Recognition Award in 2007 for their invention, "Placement of On-Chip Decoupling Capacitors." [citation needed]
  • The paper by Volkan Kursun and our Intel collaborators, Siva G. Narendra and Vivek K. De, " Low-Voltage-Swing Monolithic dc-dc Conversion,"[20] published in the IEEE Transactions on Circuits and Systems II: Express Briefs in May 2004, is on the list of Top 15 Downloaded Papers for this journal in both 2004 and 2005.
  • Emre Salman's paper at the 2006 IEEE International Symposum on Quality Electronic Design in San Jose, California was nominated for the best paper award for the paper, E. Salman, A. Dasdan, F. Taraporevala, K. Kucukcakar, and E. G. Friedman, " Pessimism Reduction in Static Timing Analysis Using Interdependent Setup and Hold Times,"[21] Proceedings of the IEEE International Symposium on Quality Electronic Design, pp. 159–164, March 2006.
  • Eby G. Friedman received the " University Award for Excellence in Graduate Teaching"[22] on May 14, 2005 from the University of Rochester.
  • Mikhail Popovich received the Best Student Paper Award at the 2005 ACM Great Lakes Symposium on VLSI in Chicago, Illinois for the paper, M. Popovich, E. G. Friedman, M. Sotman, and A. Kolodny, " On-Chip Power Distribution Grids with Multiple Supply Voltages for High Performance Integrated Circuits,"[23] Proceedings of the ACM Great Lakes Symposium on VLSI, pp. 2–7, April 2005.
  • Boaz Shem-Tov's paper at the 2004 IEEE International Conference on Electronics, Circuits and Systems in Tel Aviv, Israel was a best paper finalist for the paper, B. Shem-Tov, M. Kozak, and E. G. Friedman, " A 250 MHz Delta-Sigma Modulator for Low Cost Ultrasound/Sonar Beamforming Applications,"[24] Proceedings of the IEEE International Conference on Electronics, Circuits and Systems, pp. 113–116, December 2004.
  • Dimitris Velenis received the 2004 EDAA Outstanding Dissertation Award in the category: "New Directions in Physical Design Automation," awarded by the European Design and Automation Association (EDAA) for his Ph.D. dissertation, Delay Uncertainty in High Performance Clock Distribution Networks.[25]
  • Yehea Ismail won the 2002 IEEE Circuits and Systems Outstanding Young Author Award for the paper, Y. I. Ismail and E. G. Friedman, " Effects of Inductance on the Propagation Delay and Repeater Insertion in VLSI Circuits,"[26] IEEE Transactions on Very Large Scale Integration (VLSI) Systems, Vol. 8, No. 2, pp. 195–206, April 2000.

Personal Awards

Academic leadership

  • Fellow of the IEEE[27]
  • Chair of the steering committee for the IEEE Transactions on Very Large Scale Integration (VLSI) Systems [citation needed]
  • Regional Editor of the [[Journal of Circuits, Systems and Computers[28]
  • Member of the editorial board of the [[Analog Integrated Circuits and Signal Processing[29]
  • Member of the editorial board of the Microelectronics Journal [citation needed]
  • Member of the editorial board of the Journal of Low Power Electronics [citation needed]
  • Member of the editorial board of the Journal of VLSI Signal Processing [citation needed]
  • Member of the technical program committee of a number of conferences [citation needed]
  • Distingushed Lecturer of the IEEE CAS Society [citation needed]
  • Member of the editorial board of the Proceedings of the IEEE and IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing [citation needed]
  • Member of the IEEE Circuits and Systems (CAS) Society Board of Governors,CAS liaison to the IEEE Solid-State Circuits Society (SSCS) [citation needed]
  • Guest editor of several special journal issues [citation needed]
  • Chair of the VLSI Systems and Applications IEEE Circuits and Systems Society Technical Committee[30]
  • Chair of the Electron Devices Chapter of the IEEE Rochester Section [citation needed]
  • General/Program/Technical Co-Chair of the 1997 International Workshop on Clock Distribution Networks [citation needed]
  • Chair of the 2000 IEEE Workshop on Signal Processing Systems [citation needed]
  • Chair of the 2003 and 2004 IEEE International Workshop on System-on-Chip for Real-Time Applications [citation needed]
  • Chair of the 2004 IEEE International Conference on Electronics, Circuits, and Systems [citation needed]
  • Chair of the 2006 IEEE International Symposium on Circuits and Systems[31]
  • Chair of the 2007 IEEE International Symposium on Networks on Chip (NoC) [citation needed]

published Books

  • Clock Distribution Networks in VLSI Circuits and Systems (IEEE Press, 1995)[32]
  • High Performance Clock Distribution Networks (Kluwer Academic Publishers, 1997)[33]
  • Analog Design Issues in Digital VLSI Circuits and Systems (Kluwer Academic Publishers, 1997)[34]
  • Timing Optimization through Clock Skew Scheduling (Kluwer Academic Publishers, 2000 and 2009)

(first and second edition) [citation needed]

  • On-Chip Inductance in High Speed Integrated Circuits (Kluwer Academic Publishers, 2001)[35]
  • Power Distribution Networks in High Speed Integrated Circuits (Kluwer Academic Publishers, 2004)[36]
  • Multi-Voltage CMOS Circuit Design (John Wiley & Sons Press, 2006)[37]
  • Power Distribution Networks with On-Chip Decoupling Capacitors (Springer Verlag, 2008 and 2011)

(first and second edition) [citation needed]

  • Three-Dimensional Integrated Circuit Design (Morgan Kaufmann, 2009) [citation needed]
  • High Performance Integrated Circuit Design (McGraw-Hill Publishers, 2012) [citation needed]
  • J. Rosenfeld and E. G. Friedman, On-Chip Resonance in Nano scale Integrated Circuits: Design and Analysis Methodologies for Advanced Data, Clock, and Power Generation Networks(Lambert Academic Publishing) [citation needed]
  • D. Velenis and E. G. Friedman, Delay Uncertainty in High Performance Clock Distribution Networks Issues and Solutions(Lambert Academic Publishing) [citation needed]
  • M. El-Moursy and E. Friedman, On-Chip Inductive Interconnect Design Methodologies [citation needed]


  • Professor Friedman also published over 270 papers in fields of high speed and low power CMOS design techniques, interconnect and substrate noise, pipelining and retiming, three-dimensional integration, and the theory and application of power and synchronous clock distribution networks. [citation needed]

Patents

United States Patents

  • S. Kose and E. G. Friedman, " Digitally Controlled Wide Range Pulse Width Modulator " United States Patent, No. 9,007,140, April 14, 2015.[38]
  • A. Morgenshtein, R. Ginosar, A. Kolodny, and E. G. Friedman, " Logic Circuit Delay Optimization," United States Patent, No. 8,225,265, July 17, 2012.[39]
  • E. G. Friedman and G. Chen, " Transient Response of a Distributed RLC Interconnect based on Direct Pole Extraction," United States Patent, No. 7,818,149 B2, October 19, 2010.[40]
  • M. Popovich and E. G. Friedman, " Method for Effective Placement of On-Chip Decoupling Capacitors Determined by Maximum Effective Radii," United States Patent, No. 7,802,220 B1, September 21, 2010.[41]
  • M. Popovich, E. G. Friedman, R. M. Secareanu, and O. L. Hartin, " Method and Apparatus to Reduce Noise Fluctuation in On-Chip Power Distribution Networks," United States Patent, No. 7,595,679 B1, September 29, 2009.[42]
  • V. Kursun and E. G. Friedman, " Domino Logic with Variable Threshold Voltage Keeper," United States Patent, No. 7,388,399 B1, June 17, 2008.[43]
  • V. Kursun and E. G. Friedman, " Domino Logic with Variable Threshold Voltage Keeper," United States Patent, No. 7,218,151 B1, May 15, 2007.[44]
  • J. Rosenfeld, M. Kozak, and E. G. Friedman, " High-Gain, Bulk-driven Operational Amplifiers for System-on-chip Applications," United States Patent, No. 7,088,178 B1, August 8, 2006.[45]
  • V. Kursun and E. G. Friedman, " Dual Threshold Voltage and Low Swing Domino Logic Circuits," United States Patent, No. 6,900,666, May 31, 2005.[46]
  • Y. Ismail and E. G. Friedman, " Model for Simulating Tree Structured VLSI Interconnect," United States Patent, No. 6,460,165, October 1, 2002.[47]
  • E. Friedman and R. M. Secareanu, " Digital CMOS Voltage Interface Circuits," United States Patent, No. 6,366,127, April 2, 2002.[48]
  • E. Friedman and R. M. Secareanu, " Current Mirror and/or Divider Circuits with Dynamic Current Control which are Useful in Applications for Providing Series or Reference Currents, Subtraction, Summation and Comparison," United States Patent, No. 6,166,590, December 26, 2000.[49]
  • E. Friedman and R. M. Secareanu, " Digital Buffer Circuits," United Sates Patent, No. 6,163,174, December 19, 2000.[50]

References

  1. ^ http://ieee-cas.org/about/awards/technical-achievement-award
  2. ^ http://www.ece.rochester.edu/people/faculty/index.html
  3. ^ http://ieee-cas.org/about/awards/technical-achievement-award
  4. ^ http://www.springer.com/prod/b/0-7923-9967-6?referer=www.wkap.nl
  5. ^ http://www.mhprofessional.com/product.php?isbn=0071635769&cat=113
  6. ^ http://www.ece.rochester.edu/users/friedman/papers/TVLSI07_3dnoc.pdf
  7. ^ http://www.ece.rochester.edu/users/friedman/papers/ASIC.94_Pipelining.pdf
  8. ^ http://www.ece.rochester.edu/users/friedman/papers/ISCAS00.273.pdf
  9. ^ http://ieee-cas.org/about/awards/guillemin-cauer-award
  10. ^ http://www.ece.rochester.edu/users/friedman/papers/TCASI_13.pdf
  11. ^ http://ieee-cas.org/about/awards/technical-achievement-award
  12. ^ http://www.ece.rochester.edu/users/friedman/papers/TVLSI_10_ULE.pdf
  13. ^ http://ieee-cas.org/about/awards/vlsi-transactions-best-paper-award
  14. ^ http://www.ece.rochester.edu/users/friedman/papers/TVLSI07_3dnoc.pdf
  15. ^ http://tvlsi.eecs.northwestern.edu/
  16. ^ http://www.ece.rochester.edu/users/friedman/papers/TVLSI_06_Decap.pdf
  17. ^ http://tvlsi.eecs.northwestern.edu/
  18. ^ http://www.ece.rochester.edu/users/friedman/papers/TCAD_05.pdf
  19. ^ http://www.ece.rochester.edu/users/friedman/papers/ISCAS_08_3DVias.pdf
  20. ^ http://www.ece.rochester.edu/users/friedman/papers/CASII_04_DCDC.pdf
  21. ^ http://www.ece.rochester.edu/users/friedman/papers/ISQED_06.pdf
  22. ^ http://www.rochester.edu/provost/honorsandawards/williamhrikeruniversityawardforgraduateteaching.html
  23. ^ http://www.ece.rochester.edu/users/friedman/papers/GLSVLSI_05_PDN.pdf
  24. ^ http://www.ece.rochester.edu/users/friedman/papers/ICECS_04_Beam.pdf
  25. ^ http://www.ece.rochester.edu/~friedman/Thesis_Dimitris.html
  26. ^ http://www.ece.rochester.edu/users/friedman/papers/08vlsi02-ismail.pdf
  27. ^ http://ieee-cas.org/about/awards/technical-achievement-award
  28. ^ http://www.worldscientific.com/action/doSearch?pubType=specific&AllField=eby+friedman&publication=40000150
  29. ^ http://www.springer.com/?SGWID=0-102-24-0-0&searchType=EASY_CDA&queryText=eby+friedman&submit=%D7%A9%D7%9C%D7%97
  30. ^ http://ieee-cas.org/wp-content/uploads/2013/04/VSA-annual-report-2012.pdf
  31. ^ http://ieee-cas.org/wp-content/uploads/2011/11/Nano-Gega-TC-2006-Annual-Report27.pdf
  32. ^ http://www.eecs.wsu.edu/~ee587/reference_reading/Friedman_2.pdf
  33. ^ http://www.eecs.wsu.edu/~ee587/reference_reading/Friedman_2.pdf
  34. ^ http://www.ece.rochester.edu/users/friedman/papers/AICSP_97_Intro.pdf
  35. ^ http://www.ece.northwestern.edu/~ismail/cfp.pdf
  36. ^ http://www.ece.rochester.edu/users/friedman/papers/Mikhail_Popovich_PhD.pdf
  37. ^ http://ihome.ust.hk/~eekursun/thesis/zhiyu_liu_thesis.pdf
  38. ^ http://www.ece.rochester.edu/users/friedman/papers/US_9007140B1.pdf
  39. ^ http://www.ece.rochester.edu/users/friedman/papers/US_8,225,265.pdf
  40. ^ http://www.ece.rochester.edu/users/friedman/papers/US_7,818,149_B2.pdf
  41. ^ http://www.ece.rochester.edu/users/friedman/papers/US_7,802,220_B1.pdf
  42. ^ http://www.ece.rochester.edu/users/friedman/papers/US_7,595,679_B1.pdf
  43. ^ http://www.ece.rochester.edu/users/friedman/papers/US_7,388,399_B1.pdf
  44. ^ http://www.ece.rochester.edu/users/friedman/papers/US_7,218,151_B1.pdf
  45. ^ http://www.ece.rochester.edu/users/friedman/papers/US_7,088,178_B1.pdf
  46. ^ http://www.ece.rochester.edu/users/friedman/papers/US_6,900,662.pdf
  47. ^ http://www.ece.rochester.edu/users/friedman/papers/US_6,460,165.pdf
  48. ^ http://www.ece.rochester.edu/users/friedman/papers/US_6,366,127.pdf
  49. ^ http://www.ece.rochester.edu/users/friedman/papers/US_6,166,590.pdf
  50. ^ http://www.ece.rochester.edu/users/friedman/papers/US_6,163,174.pdf

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