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Paper 1

Reinforcement learning for optimal error correction of toric codes

Laia Domingo Colomer, Michalis Skotiniotis, Ramon Muñoz-Tapia

Year

2019

Journal

arXiv preprint

DOI

arXiv:1911.02308

arXiv

1911.02308

We apply deep reinforcement learning techniques to design high threshold decoders for the toric code under uncorrelated noise. By rewarding the agent only if the decoding procedure preserves the logical states of the toric code, and using deep convolutional networks for the training phase of the agent, we observe near-optimal performance for uncorrelated noise around the theoretically optimal threshold of 11%. We observe that, by and large, the agent implements a policy similar to that of minimum weight perfect matchings even though no bias towards any policy is given a priori.

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Paper 2

Clustered error correction of codeword-stabilized quantum codes.

Li Y, Dumer I, Pryadko LP.

Year

2010

Journal

Phys Rev Lett

DOI

10.1103/physrevlett.104.190501

arXiv

-

No abstract.

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