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UID:submissions.supercomputing.org_SC23_sess303_rpost131@linklings.com
SUMMARY:Simulating Larger Quantum Circuits with Circuit Cutting and Quantu
 m Serverless
DESCRIPTION:Caleb Johnson, Bryce Fuller, Jim Garrison, and Jennifer Glick 
 (IBM Research)\n\nQuantum computation is an emerging technology that promi
 ses to be able to solve certain tasks that are out of reach of classical m
 achines alone. However, the limited number and quality of qubits poses a c
 hallenge for practical usage of near-term quantum computation. Circuit cut
 ting is a technique to decrease the size of circuits at the cost of an add
 itional sampling overhead. This can enable executing problems larger in si
 ze and with higher-quality outcomes than what available quantum hardware w
 ould otherwise support.\n\nHere, we use the Circuit Knitting Toolbox (CKT)
  to demonstrate two applications of circuit cutting. To scale these worklo
 ads up to hundreds of qubits, we use Quantum Serverless – a new framework 
 for distributing computationally expensive workloads in the cloud.\n\nTag:
  Artificial Intelligence/Machine Learning, Architecture and Networks, Hete
 rogeneous Computing, I/O and File Systems, Performance Measurement, Modeli
 ng, and Tools, Post-Moore Computing, Programming Frameworks and System Sof
 tware, Quantum Computing\n\nRegistration Category: Tech Program Reg Pass, 
 Exhibits Reg Pass\n\n
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