Efficient diagnostics for quantum error correction

Aditya Jain; Stephen D Bartlett; Joseph V Emerson; Pavithran Iyer

Efficient diagnostics for quantum error correction

ORAL

Abstract

Fault-tolerant quantum computing will require accurate estimates of the resource overhead, but standard metrics such as gate fidelity and diamond distance have been shown to be poor predictors of logical performance. We present a scalable experimental approach based on Pauli error reconstruction to predict the performance of concatenated codes. Numerical evidence demonstrates that our method significantly outperforms predictions based on standard error metrics for various error models, even with limited data. We illustrate how this method assists in the selection of error correction schemes.

^*This research wasundertaken thanks in part to funding from the CanadaFirst Research Excellence Fund. Research was partiallysponsored by the ARO and was accomplished underGrant Number: W911NF-21-1-0007. SDB acknowledgessupport from the Australian Research Council (ARC) viathe Centre of Excellence in Engineered Quantum Systems(EQuS) project number CE170100009.

March 16, 2022, 10:24 AM – March 16, 2022, 10:36 AM

Publication: Efficient diagnostics for quantum error correction
https://arxiv.org/abs/2108.10830

Presenters

Aditya Jain
- University of Waterloo

Authors

Aditya Jain
- University of Waterloo
Stephen D Bartlett
- Univ of Sydney
Joseph V Emerson
- Perimeter Inst for Theo Phys
Pavithran Iyer
- University of Waterloo