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PRODID:IEEE vTools.Events//EN
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TZID:Asia/Shanghai
BEGIN:STANDARD
DTSTART:19910915T010000
TZOFFSETFROM:+0900
TZOFFSETTO:+0800
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BEGIN:VEVENT
DTSTAMP:20220827T071737Z
UID:BD79A429-5A6D-4FCB-83A6-F1ADA1D9E03B
DTSTART;TZID=Asia/Shanghai:20220820T010000
DTEND;TZID=Asia/Shanghai:20220820T173000
DESCRIPTION:In commemoration of the 75th Anniversary of the Invention of th
 e Transistor\, the IEEE Electron Devices Beijing Chapter will hold a mini 
 colloquium (MQ) entitled\, “Can the sub-6nm node meet 6G?” The MQ will
  be a half-day hybrid event co-located between the CAD-TFT 2022 (http://ca
 d-tft.org) and IFETC 2022 (https://attend.ieee.org/ifetc-2022/) conference
 s\, and will take place in the afternoon of Aug 20\, 2022 at Haiqing Hotel
 \, Qingdao\, China.\n\nThe MQ will host a broad range of topics to represe
 nt the multi-disciplinary nature of the emerging GHz devices and circuits 
 and millimeter-wave (mmWave) applications. In particular\, we see how the 
 silicon integrated circuit (IC) is continuing to have an unprecedented imp
 act on every aspect of modern society\, ranging from communications and se
 curity to healthcare and industrial automation. Over the last five decades
 \, the relentless pursuit of IC device miniaturization for manufacturing h
 igh-performance and high-density very large scale integrated (VLSI) circui
 ts and systems has led to the creation of a digital society[1](#_ftn1). Op
 erating speeds continue to be pushed to increasingly higher and higher fre
 quencies enabling baseband operation in mobile devices in the 30 GHz vicin
 ity\, which is expected to provide more bandwidth and lower latency. Milli
 meter-wave communications will soon become part of the 5G/6G standards\, a
 longside developments to push communications to the THz bands. The availab
 ility of bandwidth at these frequencies will offer a multitude of opportun
 ities to increase throughput of a new generation of wireless networks. Alt
 hough this area of research is relatively new\, we witness a tremendous gr
 owth in the literature related to the electromagnetic properties of mmWave
  communications\, and in particular\, free space propagation loss and its 
 susceptibility to hindrances.\n\nThis MQ will present a forum for engineer
 s and scientists to discuss these issues and hear recent developments from
  experts in areas ranging from transistors and integrated circuits to ante
 nnas & propagation and communication networks\, and to discuss the challen
 ges faced in design of 6G transceiver systems and networks.\n\n[1](#_ftnre
 f1)Saha\, S.K. (2018) Transitioning Semiconductor Companies Enabling Smart
  Environments and Integrated Ecosystems. Open Journal of Business and Mana
 gement\, 6\, 428-437. https://doi.org/10.4236/ojbm.2018.62031\n\nSpeaker(s
 ): Huaqiang Wu\, Tian-Ling Ren\n\nVirtual: https://events.vtools.ieee.org/
 m/317421
LOCATION:Virtual: https://events.vtools.ieee.org/m/317421
ORGANIZER:ctr19@mails.tsinghua.edu.cn
SEQUENCE:3
SUMMARY:Mini Colloquium：Can the sub-6nm node meet 6G?
URL;VALUE=URI:https://events.vtools.ieee.org/m/317421
X-ALT-DESC:Description: <br /><p>In commemoration of the 75th Anniversary o
 f the Invention of the Transistor\, the IEEE Electron Devices Beijing Chap
 ter will hold a mini colloquium (MQ) entitled\, &ldquo\;Can the sub-6nm no
 de meet 6G?&rdquo\; The MQ will be a half-day hybrid event co-located betw
 een the CAD-TFT 2022 (<a href="http://cad-tft.org">http://cad-tft.org</a>)
  and IFETC 2022 (<a href="https://attend.ieee.org/ifetc-2022/">https://att
 end.ieee.org/ifetc-2022/</a>) conferences\, and will take place in the aft
 ernoon of Aug 20\, 2022 at Haiqing Hotel\, Qingdao\, China.&nbsp\;</p>\n<p
 >The MQ will host a broad range of topics to represent the multi-disciplin
 ary nature of the emerging GHz devices and circuits and millimeter-wave (m
 mWave) applications. In particular\, we see how the silicon integrated cir
 cuit (IC) is continuing to have an unprecedented impact on every aspect of
  modern society\, ranging from communications and security to healthcare a
 nd industrial automation. Over the last five decades\, the relentless purs
 uit of IC device miniaturization for manufacturing high-performance and hi
 gh-density very large scale integrated (VLSI) circuits and systems has led
  to the creation of a digital society<a href="#_ftn1" name="_ftnref1">[1]<
 /a>. Operating speeds continue to be pushed to increasingly higher and hig
 her frequencies enabling baseband operation in mobile devices in the 30 GH
 z vicinity\, which is expected to provide more bandwidth and lower latency
 . Millimeter-wave communications will soon become part of the 5G/6G standa
 rds\, alongside developments to push communications to the THz bands. The 
 availability of bandwidth at these frequencies will offer a multitude of o
 pportunities to increase throughput of a new generation of wireless networ
 ks. Although this area of research is relatively new\, we witness a tremen
 dous growth in the literature related to the electromagnetic properties of
  mmWave communications\, and in particular\, free space propagation loss a
 nd its susceptibility to hindrances.</p>\n<p>This MQ will present a forum 
 for engineers and scientists to discuss these issues and hear recent devel
 opments from experts in areas ranging from transistors and integrated circ
 uits to antennas &amp\; propagation and communication networks\, and to di
 scuss the challenges faced in design of 6G transceiver systems and network
 s.</p>\n<p><a href="#_ftnref1" name="_ftn1">[1]</a>Saha\, S.K. (2018) Tran
 sitioning Semiconductor Companies Enabling Smart Environments and Integrat
 ed Ecosystems. Open Journal of Business and Management\, 6\, 428-437. http
 s://doi.org/10.4236/ojbm.2018.62031</p>\n<p>&nbsp\;</p>
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