V. Omole
5 Papers
V. Omole is an academic researcher. The author has contributed to research in topics: Computer science & Quantum computer. The author has an hindex of 3, co-authored 3 publications.
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Papers
SupermarQ: A Scalable Quantum Benchmark Suite
Teague Tomesh,Pranav Gokhale,V. Omole,Gokul Subramanian Ravi,Kaitlin Smith,Joshua Viszlai,Xin-Chuan Wu,Nikos Hardavellas,Margaret Martonosi,Frederic T. Chong +9 more
- 22 Feb 2022
TL;DR: SupermarQ is the first attempt to systematically apply techniques from classical benchmarking methodology to the quantum domain, and envision that quantum benchmarking will encompass a large cross-community effort built on open source, constantly evolving benchmark suites.
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Clifford-based Circuit Cutting for Quantum Simulation
Kaitlin Smith,Michael A. Perlin,Pranav Gokhale,P. Frederick,David K. Owusu-Antwi,Richard Rines,V. Omole,Frederic T. Chong +7 more
- 19 Mar 2023
TL;DR: SuperSim as mentioned in this paper is a quantum circuit simulator that uses Clifford-based simulation and circuit cutting to accelerate the simulation of quantum circuits, allowing 100s of qubits to be evaluated with modest runtimes.
Superstaq: Deep Optimization of Quantum Programs
Colin Campbell,Frederic T. Chong,Denny Dahl,P. Frederick,P. Goiporia,Pranav Gokhale,Benjamin Hall,Salahedeen Issa,Eric Jones,Stephanie Lee,Andrew Litteken,V. Omole,David K. Owusu-Antwi,Michael A. Perlin,Richard Rines,Kaitlin Smith,Noah Goss,Akel Hashim,Ravi Naik,Ed Younis,Dan Lobser,Christopher G. Yale,Benchen Huang,Ji Liu +23 more
- 10 Sep 2023
TL;DR: Superstaq is described, a quantum software platform that optimizes the execution of quantum programs by tailoring to underlying hardware primitives, and demonstrates new levels of performance and new capabilities that are enabled by deeper integration between quantum programs and the device physics of hardware.
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Fault-tolerant operation and materials science with neutral atom logical qubits
M. J. Bedalov,M. Blakely,P. D. Buttler,Caitlin Carnahan,Frederic T. Chong,W. C. Chung,D. C. Cole,P. Goiporia,Pranav Gokhale,Bettina Heim,G. T. Hickman,E. B. Jones,Ryan A. Jones,Pradnya Khalate,Jin-Sung Kim,K. W. Kuper,M. Lichtman,Stephanie Lee,D. Mason,N. A. Neff-Mallon,T. W. Noel,V. Omole,A. G. Radnaev,Richard Rines,M. Saffman,Efrat Shabtai,Mariesa Teo,Bharath Thotakura,Teague Tomesh,A. K. Tucker +29 more
TL;DR: Researchers achieve fault-tolerant operation of neutral atom quantum computer logical qubits, surpassing physical performance in various circuits, including Bell state preparation and random circuits, with implications for materials science applications and practical fault-tolerant quantum computation.
Optimized SWAP networks with equivalent circuit averaging for QAOA
Akel Hashim,Richard Rines,V. Omole,R. Naik,John Mark Kreikebaum,David I. Santiago,Frederic T. Chong,Irfan Siddiqi,Pranav Gokhale +8 more
TL;DR: In this article , the authors optimize the execution of SWAP networks for QAOA through two techniques, i.e., equivalent circuit averaging and randomizing over degrees of freedom in the quantum circuit compilation.