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PRODID:UW-Madison-Physics-Events
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SEQUENCE:0
UID:UW-Physics-Event-9291
DTSTART:20250619T150000Z
DURATION:PT1H0M0S
DTSTAMP:20260413T133111Z
LAST-MODIFIED:20250607T044546Z
LOCATION:5310 Chamberlin
SUMMARY:Quantum Resource Estimations for future quantum hardware\, R. 
 G. Herb Condensed Matter Seminar\, Katerina Gratsea\, UW-Madison
DESCRIPTION:Recent experimental demonstrations of fault-tolerant quant
 um computing (FTQC) primitives indicate that the quantum computing fie
 ld is transitioning from the noisy intermediate-scale quantum (NISQ) e
 ra to the FTQC era. Achieving FTQC is a highly complex challenge\, inv
 olving multiple computational layers with various design choices at ea
 ch level. To better understand this transition and the capabilities of
  future quantum hardware\, Quantum Resource Estimations (QRE) serve as
  an essential tool. QRE can provide insights<br>\n into how advancemen
 ts at different layers impact the overall computational runtime.<br>\n
 <br>\nIn this talk\, I will explore the role of early FTQC as an inter
 mediate regime between NISQ and FTQC through the lens of QRE. I will a
 lso present ongoing work that highlights runtime estimates for future 
 quantum hardware and demonstrates how QRE plays a crucial<br>\n role i
 n guiding research and development efforts toward realizing practical 
 quantum computers.
URL:https://www.physics.wisc.edu/events/?id=9291
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