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DTSTART;TZID=America/Los_Angeles:20250213T170000
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DESCRIPTION:Quantum computing represents a new paradigm that has the potent
 ial to transform problems that are computationally intractable today into 
 solvable problems in the future. Significant advances in the last decade h
 ave lent support to the idea that quantum computers can be implemented\, a
 nd further that the goal of demonstrating true performance advantages over
  traditional computing techniques on one or more problems may be achieved 
 in the not so distant future. Delivering on this promise is expected to re
 quire quantum error correction solutions\, in turn demanding large qubit c
 ounts that pose significant challenges for quantum computer implementation
 s\, especially in the area of qubit interface electronics. An active area 
 of research to address this challenge is the use of integrated cryogenic C
 MOS designs. In this presentation\, we will present a superconducting qubi
 t-based quantum computing system framework\, opportunities for cryogenic C
 MOS introduction into future systems\, example cryogenic CMOS implementati
 ons and results\, and next challenges that must be met to enable cryogenic
  CMOS adoption.\n\nSpeaker(s): Dr. Daniel Friedman\, \n\nBldg:  Room: The 
 Cage (in Learning Commons building by school's main entrance)\, 5951 Villa
 ge Center Loop Rd San Diego\, CA 92130\, San Diego\, California\, United S
 tates\, 92130\, Virtual: https://events.vtools.ieee.org/m/464715
LOCATION:Bldg:  Room: The Cage (in Learning Commons building by school's ma
 in entrance)\, 5951 Village Center Loop Rd San Diego\, CA 92130\, San Dieg
 o\, California\, United States\, 92130\, Virtual: https://events.vtools.ie
 ee.org/m/464715
ORGANIZER:jfshi@ieee.org
SEQUENCE:11
SUMMARY:Cryogenic CMOS for Future Scaled Quantum Computing Systems
URL;VALUE=URI:https://events.vtools.ieee.org/m/464715
X-ALT-DESC:Description: <br /><p>Quantum computing represents a new paradig
 m that has the potential to transform problems that are computationally in
 tractable today into solvable problems in the future.&nbsp\; Significant a
 dvances in the last decade have lent support to the idea that quantum comp
 uters can be implemented\, and further that the goal of demonstrating true
  performance advantages over traditional computing techniques on one or mo
 re problems may be achieved in the not so distant future. Delivering on th
 is promise is expected to require quantum error correction solutions\, in 
 turn demanding large qubit counts that pose significant challenges for qua
 ntum computer implementations\, especially in the area of qubit interface 
 electronics. An active area of research to address this challenge is the u
 se of integrated cryogenic CMOS designs.&nbsp\; In this presentation\, we 
 will present a superconducting qubit-based quantum computing system framew
 ork\, opportunities for cryogenic CMOS introduction into future systems\, 
 example cryogenic CMOS implementations and results\, and next challenges t
 hat must be met to enable cryogenic CMOS adoption.</p>
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