Fast offline decoding with local message-passing automata

Abstract

We present a local offline decoder for topological codes that operates according to a parallelized message-passing framework. The decoder works by passing messages between anyons, with the contents of received messages used to move nearby anyons towards one another. We prove the existence of a threshold, and show that in a system of linear size $L$, decoding terminates with an $O((\log L)^\eta)$ average-case runtime, where $\eta$ is a small constant. For i.i.d Pauli noise, our decoder has $\eta=1$ and a threshold at a noise strength of $p_c\approx 7.3\%$.

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