Practical quantum error mitigation effect by randomized compiling and zero-noise extrapolation for trapped-ion quantum hardware
POSTER
Abstract
A synergistic combination of randomized compilation (RC) and zero-noise extrapolation (ZNE) is known to significantly suppress computational errors induced by various types of coherent noise. Although numerical simulations suggest the effectiveness of the scheme, its real-hardware performance requires investigation. Here, we implemented this error mitigation scheme on trapped-ion quantum hardware to perform quantum chemical calculations. While this scheme yielded error-mitigated values closer to the exact values, residual errors persisted. We analyzed the effects of experimental parameters—extrapolation method, number of randomized circuits, and measurement count—on the results.
Publication: Synergetic quantum error mitigation by randomized compiling and zero-noise extrapolation for the variational quantum eigensolver; Quantum 7, 1184 (2023)
Presenters
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Tomochika Kurita
Quantum Laboratory, Fujitsu Research of America
Authors
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Tomochika Kurita
Quantum Laboratory, Fujitsu Research of America
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Hammam A E Qassim
Keysight Technologies
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Masatoshi Ishii
Quantum Laboratory, Fujitsu Research
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Kazunori Maruyama
Fujitsu Limited, Quantum Laboratory, Fujitsu Research
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Hirotaka Oshima
Fujitsu Limited, Fujitsu Ltd., Quantum Laboratory, Fujitsu Research
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Shintaro Sato
Fujitsu Ltd, Quantum Laboratory, Fujitsu Research, Fujitsu Limited
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Joseph Emerson
Keysight Technologies