Digital zero noise extrapolation for quantum error mitigation

Giurgica-Tiron, Tudor; Hindy, Yousef; LaRose, Ryan; Mari, Andrea; Zeng, William J.

doi:10.1109/qce49297.2020.00045

Digital zero noise extrapolation for quantum error mitigation

Conference · Tue Nov 24 23:00:00 EST 2020

DOI:https://doi.org/10.1109/qce49297.2020.00045· OSTI ID:1782425

Giurgica-Tiron, Tudor ^[1]; Hindy, Yousef ^[2]; ^[3]; ^[4]; ^[5]

Stanford Univ., Palo Alto, CA (United States); Unitary Fund
Stanford Univ., Palo Alto, CA (United States)
Michigan State Univ., East Lansing, MI (United States)
Xanadu, Toronto, ON (Canada)
Goldman, Sachs & Co, New York, NY (United States)

Zero-noise extrapolation (ZNE) is an increasingly popular technique for mitigating errors in noisy quantum computations without using additional quantum resources. We review the fundamentals of ZNE and propose several improvements to noise scaling and extrapolation, the two key components in the technique. We introduce unitary folding and parameterized noise scaling. Furthermore, these are digital noise scaling frameworks, i.e. one can apply them using only gate-level access common to most quantum instruction sets. We also study different extrapolation methods, including a new adaptive protocol that uses a statistical inference framework. Benchmarks of our techniques show error reductions of 18X to 24X over non-mitigated circuits and demonstrate ZNE effectiveness at larger qubit numbers than have been tested previously. In addition to presenting new results, this work is a self-contained introduction to the practical use of ZNE by quantum programmers.

Research Organization:: Unitary Fund, Berkeley, CA (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Advanced Scientific Computing Research (ASCR)

DOE Contract Number:: SC0020266

OSTI ID:: 1782425

Country of Publication:: United States

Language:: English

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