20 Papers
19 Citations
Ed Younis is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Computer science & Electronic circuit. The author has an hindex of 3, co-authored 7 publications.
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Papers
QFAST: Conflating Search and Numerical Optimization for Scalable Quantum Circuit Synthesis
Ed Younis,Koushik Sen,Katherine Yelick,Costin Iancu +3 more
- 01 Oct 2021
TL;DR: In this article, a topology aware quantum synthesis algorithm, QFAST, was proposed to produce short circuits and to scale well in practice, achieving state-of-the-art performance.
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QUEST: systematically approximating Quantum circuits for higher output fidelity
Tirthak Patel,Ed Younis,Costin Iancu,Wibe A. de Jong,Devesh Tiwari +4 more
- 28 Feb 2022
TL;DR: The results indicate that QUEST can reduce CNOT gate count by 30-80% on ideal systems and decrease the impact of noise on existing and near-future quantum systems.
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•Posted Content
Constant-Depth Circuits for Dynamic Simulations of Materials on Quantum Computers
TL;DR: In this article, the authors present a method for generating circuits that are constant in depth with increasing simulation time for a subset of one-dimensional materials Hamiltonians, thereby enabling simulations out to arbitrarily long times.
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Leveraging randomized compiling for the quantum imaginary-time-evolution algorithm
Jean-Loup Ville,Alexis Morvan,Akel Hashim,R. Naik,Marie Lu,Bradley Mitchell,John Mark Kreikebaum,Kevin O'Brien,Joel J. Wallman,Ian Hincks,Joseph Emerson,Ethan Smith,Ed Younis,Costin Iancu,David I. Santiago,Irfan Siddiqi +15 more
TL;DR: In this article , the authors present the combination of both noise tailoring using Randomized Compiling and error mitigation with a purification, and apply this method to the Quantum Imaginary Time Evolution of a Transverse Field Ising Model and report an energy estimation and ground state infidelity both below 1%.
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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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