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DTSTAMP:20230325T185000Z
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DTSTART;TZID=America/Los_Angeles:20230324T120000
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DESCRIPTION:The Electron Devices Society Santa Clara Valley/San Francisco C
 hapter with the San Jose State University IEEE student chapter is hosting 
 a mini-colloquium celebrating the 75th anniversary of the invention of the
  transistor. In this mini-colloquium\, we are inviting 3 speakers to each 
 give talks on topics ranging from traditional/planar transistors and advan
 ced transistors to analog technology.\n\nWhen: Friday\, March 24\, 2023 
 – 12 Noon to 2 pm (PST)\n\nWhere: This is a hybrid event so speakers and
  attendees can choose to participate either in person at SJSU Engineering 
 building or online via Zoom.\n\nRegistration Link: [Here](http://bit.ly/3S
 STPhf)\n\nContact: hiuyung.wong at ieee.org\n\nSpeaker(s): Prof. Tsu-Jae K
 ing Liu\, Prof. Debbie G. Senesky\n\nAgenda: \nTitle: Sustaining the AI Re
 volution: Transistor Scaling and Beyond\n\nSpeaker: Prof. Tsu-Jae King Liu
 \n\nAbstract:\n\nAdvancements in semiconductor integrated circuit (IC) “
 chip” technology over the past 60+ years have enabled exponential growth
  in chip functionality with exponential reduction in cost per transistor\,
  resulting in the proliferation of information and communication devices a
 nd systems\, with revolutionary impact on society\; today cloud computing\
 , big data and artificial intelligence are driving the digital transformat
 ion of all industries. In this talk I will discuss three dimensions of IC 
 technology advancement – transistor scaling\, new computing architecture
 s and new computing paradigms – to usher in the Age of Ambient Intellige
 nce.\n\nSpeaker Bio:\n\nTsu-Jae King Liu earned her B.S.\, M.S. and Ph.D. 
 degrees in electrical engineering at Stanford University in 1984\, 1986 an
 d 1994\, respectively. From 1992 to 1996\, she was member of research staf
 f at the Xerox Palo Alto Research Center (PARC). In 1996\, she joined the 
 faculty of the Department of Electrical Engineering and Computer Sciences 
 (EECS) at the University of California\, Berkeley\, where she is now Dean 
 of the College of Engineering.\nLiu is internationally known in academia a
 nd industry for her innovations in semiconductor devices and technology\, 
 and is highly regarded for her achievements as an instructor\, mentor and 
 administrator. She is a fellow of the Institute of Electrical and Electron
 ics Engineers (IEEE)\, an elected member of the U.S. National Academy of E
 ngineering\, a fellow of the U.S. National Academy of Inventors\, and Dire
 ctor of Intel Corporation and of Maxlinear\, Inc. Her awards and honors in
 clude the Intel Outstanding Researcher in Nanotechnology Award\, the IEEE 
 Aldert van der Ziel Award for distinguished educational and research contr
 ibutions to the field of electronic devices and materials\, the IEEE Elect
 ron Devices Society Education Award\, and the Defense Advanced Research Pr
 ojects Agency (DARPA) Significant Technical Achievement Award for her role
  in the development of the FinFET\, an advanced transistor design used in 
 all high-end computer chips today.\n\n=x=x=x=\n\nTitle: Semiconductors in 
 Extreme Environments\n\nSpeaker: Prof. Debbie G. Senesky\n\nAbstract:\n\nW
 ide bandgap semiconductor materials such as silicon carbide (SiC)\, galliu
 m nitride (GaN) and\, diamond are well known for their inherent resilience
  to high-temperature and radiation-rich environments. This makes them attr
 active electronic platforms for use in space exploration and other extreme
 -environment applications (e.g.\, combustion\, downhole\, hypersonic aircr
 aft). Gallium nitride (GaN) electronics have operated at temperatures as h
 igh as 1000°C making it a viable platform for robust space-grade (“tiny
 -but-tough”) electronics and nano-satellites. Even with this major techn
 ological breakthrough\, there are still challenges in making GaN in low-co
 st formats with low defect density for proliferation in “beyond silicon
 ” applications. New communities are adopting this electronic platform fo
 r a multitude of emerging device applications including the following: sen
 sing\, energy harvesting\, actuation\, and communication. In this talk\, w
 e will review and discuss the benefits of GaN’s two-dimensional electron
  gas (2DEG) over silicon’s p-n junction for space exploration applicatio
 ns (e.g.\, radiation-hardened\, temperature-tolerant Venus probes). In add
 ition\, we will discuss the use of prolonged microgravity environments on 
 the International Space Station (ISS) and commercial stations for future m
 anufacturing of semiconductors for the benefit of life on Earth.\n\nSpeake
 r Bio:\n\nDebbie G. Senesky is an Associate Professor at Stanford Universi
 ty in the Aeronautics and Astronautics Department and by courtesy\, the El
 ectrical Engineering Department. In addition\, she is the Principal Invest
 igator of the EXtreme Environment Microsystems Laboratory (XLab). Her rese
 arch interests include the extreme-environment sensors\, high-temperature 
 electronics for Venus exploration\, and nanomaterials synthesis within pro
 longed microgravity. She received the B.S. degree (2001) in mechanical eng
 ineering from the University of Southern California. She received the M.S.
  degree (2004) and Ph.D. degree (2007) in mechanical engineering from the 
 University of California\, Berkeley. She is currently serves as the Site D
 irector for nano@stanford\, as well as co-editor for the IEEE Journal of M
 icroelectromechanical Systems (JMEMS) and Sensors (journal). In recognitio
 n of her work\, she is a recipient of the Emerging Leader Abie Award from 
 AnitaB.org\, NASA Early Faculty Career Award\, and Alfred P. Sloan Foundat
 ion Ph.D. Fellowship Award. More information about Prof. Senesky can be fo
 und at xlab.stanford.edu or on Instagram: @astrodebs.\n\n=x=x=x=\n\nTitle:
  The Evolution of Analog Technology\n\nSpeaker: Lou N Hutter\n\nAbstract:\
 n\nDespite the major advancements made in semiconductor technology\, the w
 orld remains a very analog place. Consequently\, analog and power manageme
 nt integrated circuits are ubiquitous in almost every electronic system bu
 ilt today. Analog technology has made significant strides in the past 50+ 
 years\, migrating from low-density bipolar-based technologies and SSI prod
 ucts to highly scaled CMOS-based nodes and LSI and VLSI products today. Th
 e wide diversity of analog applications has driven a wide diversity of pro
 cess technologies. This talk will discuss the evolution of analog technolo
 gy from the 1970s to today and beyond\, highlighting the many design const
 raints that have led to the diverse technology portfolio and rich componen
 t sets used today.\n\nSpeaker Bio:\n\nLou is a veteran of the semiconducto
 r industry. He spent 29 years at Texas Instruments Inc.\, until retiring i
 n 2007\, as Director of TI’s Mixed-Signal Technology Development organiz
 ation where he was responsible for worldwide analog\, power\, RF SiGe\, an
 d mixed-signal technology development\, process delivery kits\, production
  ramps\, and transfers that supported every business unit in the company. 
 He was elected a TI Fellow in 1995 based on his technical accomplishments 
 and their revenue impact. In 2008\, he joined Dongbu HiTek\, in Seoul\, S.
  Korea\, as Senior Executive Vice President and General Manager of the new
 ly created Analog Foundry Business Unit\, where he was responsible for tec
 hnology development\, design enablement\, IP development\, and sales and m
 arketing. During his tenure there\, he increased revenues 4X\, added many 
 and significant new customers\, and established Dongbu HiTek as a leading 
 analog/power management foundry in the industry. Since 2012\, he has been 
 Principal of Lou Hutter Consulting LLC\, advising foundries\, IDMs\, fable
 ss companies\, and material suppliers in the areas of analog and power tec
 hnology\, design infrastructure\, organizational management\, and business
  development. Lou has 47 U.S. patents\, has published over 35 journal arti
 cles\, has co-authored 1 book entitled Silicon Analog Components\, now in 
 its 2nd edition\, and other book chapters. He has an MSEE from the Massach
 usetts Institute of Technology\, and resides in Dallas\, Texas.\n\nBldg: E
 ngineering building\, 1 Washington Sq\, Charles W. Davidson College of Eng
 ineering\, San Jose\, California\, United States\, 95192\, Virtual: https:
 //events.vtools.ieee.org/m/351273
LOCATION:Bldg: Engineering building\, 1 Washington Sq\, Charles W. Davidson
  College of Engineering\, San Jose\, California\, United States\, 95192\, 
 Virtual: https://events.vtools.ieee.org/m/351273
ORGANIZER:hiuyung.wong@ieee.org 
SEQUENCE:5
SUMMARY:IEEE SCV-SF EDS Mini Colloquium (Hybrid)
URL;VALUE=URI:https://events.vtools.ieee.org/m/351273
X-ALT-DESC:Description: <br /><div class="has-user-generated-content">\n<di
 v class="eds-l-mar-vert-6 eds-l-sm-mar-vert-4 eds-text-bm structured-conte
 nt-rich-text">\n<div class="eds-text--left">\n<p>The Electron Devices Soci
 ety Santa Clara Valley/San Francisco Chapter with the San Jose State Unive
 rsity IEEE student chapter is hosting a mini-colloquium celebrating the 75
 th anniversary of the invention of the transistor. In this mini-colloquium
 \, we are inviting 3 speakers to each give talks on topics ranging from tr
 aditional/planar transistors and advanced transistors to analog technology
 .</p>\n<h3>When: Friday\, March 24\, 2023 &ndash\; 12 Noon to 2 pm (PST)</
 h3>\n<h3>Where: This is a hybrid event so speakers and attendees can choos
 e to participate either in person at SJSU Engineering building or online v
 ia Zoom.</h3>\n<h3>Registration Link: <a href="http://bit.ly/3SSTPhf" targ
 et="_blank" rel="noopener">Here</a></h3>\n<h4>Contact: <span class="gI"><s
 pan class="qu" role="gridcell"><span class="go">hiuyung.wong at ieee.org</
 span></span></span></h4>\n</div>\n</div>\n</div><br /><br />Agenda: <br />
 <div>\n<h2 class="event-title"><strong>Title: Sustaining the AI Revolution
 : Transistor Scaling and Beyond<br /></strong></h2>\n<h2><strong>Speaker: 
 Prof. Tsu-Jae King Liu</strong></h2>\n<h3>Abstract:</h3>\n<p>Advancements 
 in semiconductor integrated circuit (IC) &ldquo\;chip&rdquo\; technology o
 ver the past 60+ years have enabled exponential growth in chip functionali
 ty with exponential reduction in cost per transistor\, resulting in the pr
 oliferation of information and communication devices and systems\, with re
 volutionary impact on society\; today cloud computing\, big data and artif
 icial intelligence are driving the digital transformation of all industrie
 s. In this talk I will discuss three dimensions of IC technology advanceme
 nt &ndash\; transistor scaling\, new computing architectures and new compu
 ting paradigms &ndash\; to usher in the Age of Ambient Intelligence.</p>\n
 <h3>Speaker Bio:</h3>\n<p>Tsu-Jae King Liu earned her B.S.\, M.S. and Ph.D
 . degrees in electrical engineering at Stanford University in 1984\, 1986 
 and 1994\, respectively. From 1992 to 1996\, she was member of research st
 aff at the Xerox Palo Alto Research Center (PARC). In 1996\, she joined th
 e faculty of the Department of Electrical Engineering and Computer Science
 s (EECS) at the University of California\, Berkeley\, where she is now Dea
 n of the College of Engineering.<br />Liu is internationally known in acad
 emia and industry for her innovations in semiconductor devices and technol
 ogy\, and is highly regarded for her achievements as an instructor\, mento
 r and administrator. She is a fellow of the Institute of Electrical and El
 ectronics Engineers (IEEE)\, an elected member of the U.S. National Academ
 y of Engineering\, a fellow of the U.S. National Academy of Inventors\, an
 d Director of Intel Corporation and of Maxlinear\, Inc. Her awards and hon
 ors include the Intel Outstanding Researcher in Nanotechnology Award\, the
  IEEE Aldert van der Ziel Award for distinguished educational and research
  contributions to the field of electronic devices and materials\, the IEEE
  Electron Devices Society Education Award\, and the Defense Advanced Resea
 rch Projects Agency (DARPA) Significant Technical Achievement Award for he
 r role in the development of the FinFET\, an advanced transistor design us
 ed in all high-end computer chips today.</p>\n<p style="text-align: center
 \;">=x=x=x=</p>\n</div>\n<h2 class="event-title"><strong>Title: Semiconduc
 tors in Extreme Environments<br /></strong></h2>\n<h2><strong>Speaker: Pro
 f. Debbie G. Senesky<br /></strong></h2>\n<h3>Abstract:</h3>\n<p>Wide band
 gap semiconductor materials such as silicon carbide (SiC)\, gallium nitrid
 e (GaN) and\, diamond are well known for their inherent resilience to high
 -temperature and radiation-rich environments. This makes them attractive e
 lectronic platforms for use in space exploration and other extreme-environ
 ment applications (e.g.\, combustion\, downhole\, hypersonic aircraft). Ga
 llium nitride (GaN) electronics have operated at temperatures as high as 1
 000&deg\;C making it a viable platform for robust space-grade (&ldquo\;tin
 y-but-tough&rdquo\;) electronics and nano-satellites. Even with this major
  technological breakthrough\, there are still challenges in making GaN in 
 low-cost formats with low defect density for proliferation in &ldquo\;beyo
 nd silicon&rdquo\; applications. New communities are adopting this electro
 nic platform for a multitude of emerging device applications including the
  following: sensing\, energy harvesting\, actuation\, and communication. I
 n this talk\, we will review and discuss the benefits of GaN&rsquo\;s two-
 dimensional electron gas (2DEG) over silicon&rsquo\;s p-n junction for spa
 ce exploration applications (e.g.\, radiation-hardened\, temperature-toler
 ant Venus probes). In addition\, we will discuss the use of prolonged micr
 ogravity environments on the International Space Station (ISS) and commerc
 ial stations for future manufacturing of semiconductors for the benefit of
  life on Earth.</p>\n<h3>Speaker Bio:</h3>\n<p>Debbie G. Senesky is an Ass
 ociate Professor at Stanford University in the Aeronautics and Astronautic
 s Department and by courtesy\, the Electrical Engineering Department. In a
 ddition\, she is the Principal Investigator of the EXtreme Environment Mic
 rosystems Laboratory (XLab). Her research interests include the extreme-en
 vironment sensors\, high-temperature electronics for Venus exploration\, a
 nd nanomaterials synthesis within prolonged microgravity. She received the
  B.S. degree (2001) in mechanical engineering from the University of South
 ern California. She received the M.S. degree (2004) and Ph.D. degree (2007
 ) in mechanical engineering from the University of California\, Berkeley. 
 She is currently serves as the Site Director for nano@stanford\, as well a
 s co-editor for the IEEE Journal of Microelectromechanical Systems (JMEMS)
  and Sensors (journal). In recognition of her work\, she is a recipient of
  the Emerging Leader Abie Award from AnitaB.org\, NASA Early Faculty Caree
 r Award\, and Alfred P. Sloan Foundation Ph.D. Fellowship Award. More info
 rmation about Prof. Senesky can be found at xlab.stanford.edu or on Instag
 ram: @astrodebs.</p>\n<p style="text-align: center\;">=x=x=x=</p>\n<h2 cla
 ss="event-title"><strong>Title: The Evolution of Analog Technology<br /></
 strong></h2>\n<h2><strong>Speaker: Lou N Hutter<br /></strong></h2>\n<h3>A
 bstract:</h3>\n<p>Despite the major advancements made in semiconductor tec
 hnology\, the world remains a very analog place. Consequently\, analog and
  power management integrated circuits are ubiquitous in almost every elect
 ronic system built today. &nbsp\;Analog technology has made significant st
 rides in the past 50+ years\, migrating from low-density bipolar-based tec
 hnologies and SSI products to highly scaled CMOS-based nodes and LSI and V
 LSI products today. &nbsp\;The wide diversity of analog applications has d
 riven a wide diversity of process technologies. &nbsp\;This talk will disc
 uss the evolution of analog technology from the 1970s to today and beyond\
 , highlighting the many design constraints that have led to the diverse te
 chnology portfolio and rich component sets used today.</p>\n<h3>Speaker Bi
 o:</h3>\n<p>Lou is a veteran of the semiconductor industry. &nbsp\;He spen
 t 29 years at Texas Instruments Inc.\, until retiring in 2007\, as Directo
 r of TI&rsquo\;s Mixed-Signal Technology Development organization where he
  was responsible for worldwide analog\, power\, RF SiGe\, and mixed-signal
  technology development\, process delivery kits\, production ramps\, and t
 ransfers that supported every business unit in the company. &nbsp\;He was 
 elected a TI Fellow in 1995 based on his technical accomplishments and the
 ir revenue impact. In 2008\, he joined Dongbu HiTek\, in Seoul\, S. Korea\
 , as Senior Executive Vice President and General Manager of the newly crea
 ted Analog Foundry Business Unit\, where he was responsible for technology
  development\, design enablement\, IP development\, and sales and marketin
 g. &nbsp\;During his tenure there\, he increased revenues 4X\, added many 
 and significant new customers\, and established Dongbu HiTek as a leading 
 analog/power management foundry in the industry. &nbsp\;Since 2012\, he ha
 s been Principal of Lou Hutter Consulting LLC\, advising foundries\, IDMs\
 , fabless companies\, and material suppliers in the areas of analog and po
 wer technology\, design infrastructure\, organizational management\, and b
 usiness development. &nbsp\;Lou has 47 U.S. patents\, has published over 3
 5 journal articles\, has co-authored 1 book entitled Silicon Analog Compon
 ents\, now in its 2nd edition\, and other book chapters. He has an MSEE fr
 om the Massachusetts Institute of Technology\, and resides in Dallas\, Tex
 as.</p>
END:VEVENT
END:VCALENDAR