Quantifying the effects of local many-qubit errors and nonlocal two-qubit errors on the surface code

Austin G. Fowler, John M. Martinis

Type: Article

Publication Date: 2014-03-12

Citations: 42

DOI: https://doi.org/10.1103/physreva.89.032316

Abstract

Topological quantum error correction codes are known to be able to tolerate arbitrary local errors given sufficient qubits. This includes correlated errors involving many local qubits. In this work, we quantify this level of tolerance, numerically studying the effects of many-qubit errors on the performance of the surface code. We find that if increasingly large-area errors are at least moderately exponentially suppressed, arbitrarily reliable quantum computation can still be achieved with practical overhead. We furthermore quantify the effect of nonlocal two-qubit correlated errors, which would be expected in arrays of qubits coupled by a polynomially decaying interaction, and when using many-qubit coupling devices. We surprisingly find that the surface code is very robust to this class of errors, despite a provable lack of a threshold error rate when such errors are present.

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Physical Review A - View
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