International Electron Devices Meeting

The IEEE International Electron Devices Meeting (IEDM) is an annual micro- and nanoelectronics conference held each December that serves as a forum for reporting technological breakthroughs in the areas of semiconductor and related device technologies, design, manufacturing, physics, modeling and circuit-device interaction.[1]

The IEDM is the conference where semiconductor industry pioneer Gordon Moore first updated and explained the prediction he made 10 years earlier which has come to be known as “Moore’s Law.” Moore’s Law states that the complexity of integrated circuits would double approximately every two years.[2][3]

IEDM brings together managers, engineers, and scientists from industry, academia, and government around the world to discuss nanometer-scale CMOS transistor technology, advanced memory, displays, sensors, MEMS devices, novel quantum and nanoscale devices using emerging phenomena, optoelectronics, power, energy harvesting, and ultra-high-speed devices, as well as process technology and device modeling and simulation. The conference also encompasses discussions and presentations on devices in silicon, compound and organic semiconductors, and emerging material systems.[4] In addition to technical paper presentations, IEDM includes multiple plenary presentations, panel sessions, tutorials, short courses, and invited talks and an entrepreneurship panel session conducted by experts in the field from around the globe.

The 62nd annual IEEE International Electron Devices Meeting (IEDM) will take place December 3–7, 2016 at the San Francisco Union Square Hilton hotel. This year for the first time there will be a supplier exhibition.

Sponsor

The International Electron Devices Meeting is sponsored by the Electron Devices Society of the Institute of Electrical and Electronics Engineers (IEEE).

History

The First Annual Technical Meeting on Electron Devices (renamed the International Electron Devices Meeting in the mid-1960s) took place on October 24–25, 1955 at the Shoreham Hotel in Washington D.C. with approximately 700 scientists and engineers in attendance. At that time, the seven-year-old transistor and the electron tube reigned as the predominant electron-device technology. Fifty-four papers were presented on the then state-of-the-art in electron device technology, the majority of them from four U.S. companies -- Bell Telephone Laboratories, RCA Corporation, Hughes Aircraft Co. and Sylvania Electric Products. The need for an electron devices meeting was driven by two factors: commercial opportunities in the fast-growing new "solid-state" branch of electronics, and the U.S. government's desire for solid-state components and better microwave tubes for aerospace and defense.[5]

IEDM 2015

The 2015 International Electron Devices Meeting took place at the Washington Hilton Hotel from December 5–9, 2015. The major topics [6][7] included:

IEDM 2014

The 2014 International Electron Devices Meeting took place at the Hilton San Francisco Union Square from December 15–17, 2014. The 2014 edition of the IEDM emphasized:

IEDM 2013

The 2013 International Electron Devices Meeting took place at the Hilton Washington Hotel from December 9–11, 2013 and focused on:

References

  1. Mokhoff, Nicolas (18 Dec 2006). "Start of a beautiful friendship". EE Times. UBM Tech. Retrieved 2013-04-25.
  2. http://www.computerhistory.org/semiconductor/timeline/1965-Moore.html
  3. http://www.newelectronics.co.uk/electronics-technology/the-economics-of-chip-manufacture-on-advanced-technologies/35562/
  4. Purvis, Gail (15 Nov 2012). "IEDM, where the device is king". Power Systems Design. Retrieved 2013-04-25.
  5. McEwan, A.W. (April 1956). "A production model K-band backward wave oscillator". IRE Transactions on Electron Devices. 3 (2): 108. doi:10.1109/T-ED.1956.14115. Retrieved 2013-04-25.
  6. http://community.cadence.com/cadence_blogs_8/b/breakfast-bytes/archive/2015/12/11/iedm2015
  7. http://electroiq.com/chipworks_real_chips_blog/2015/12/02/a-look-ahead-at-iedm-2015/
  8. http://spectrum.ieee.org/semiconductors/devices/nanowire-transistors-could-let-you-talk-text-and-tweet-longer
  9. http://techon.nikkeibp.co.jp/atclen/news_en/15mk/122400270/
  10. https://www.semiwiki.com/forum/content/5301-iedm-blogs-%C2%96-part-3-%C2%96-global-foundries-22fdx-briefing.html
  11. http://electronics360.globalspec.com/article/6286/iedm-divulges-advances-in-wide-bandgap-devices
  12. http://www.eejournal.com/archives/articles/20160201-micron/
  13. http://www.laserfocusworld.com/articles/2015/11/germanium-tin-laser-for-silicon-photonics-is-cmos-compatible.html
  14. http://eecatalog.com/chipdesign/2016/02/09/2015-iedm-slide-11-rf-cmos-circuits-on-flexible-application-specific-substrates/
  15. http://www.eetimes.com/author.asp?section_id=36&doc_id=1328557
  16. http://semimd.com/blog/2015/01/05/solid-doping-for-bulk-finfets/
  17. http://www.smartgridelectronics.net/2015/01/sic-projected-significant-impact-industrial-markets/
  18. http://www.mdtmag.com/blogs/2014/12/innovative-technologies-dna-diagnostics-and-health-monitoring
  19. http://eejournal.com/blog/tram-and-pcm-at-iedm/
  20. http://mandetech.com/2015/01/19/cmos-processing-advances-imaging/
  21. http://www.3dincites.com/2015/01/iedm-2014-3d-short-course-highlights-3d-memory-cubes-system-design/
  22. Hars, Adele (10 Dec. 2013) "IEDM'13 part 2 More SOI and Advanced Substrate Papers" Advanced Substrate News. Retrieved 2014-05-20
  23. Lapedus, Mark (17 Dec 2013) "Implantable TFETs; self-assembled ReRAMs; FinFETs vs. FDSOI" Semiconductor Engineering/Manufacturing Bits. Retrieved 2014-05-20
  24. Neale, Ron (17 Dec 2013) "Resistive Non-volatile Memory at IEDM 2013" EETimes/blog. Retrieved 2014-05-20
  25. Rais-Zadeh, Mina (9 Dec 2013) "IEDM Conference Gives Opportunity to Learn About State-of-the-Art Chips for Biology and Medicine" Medical Design Technology/Blog. Retrieved 2014-05-20

Additional Information

Related Conferences

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