Decoding quantum Tanner codes
A Leverrier, G Zémor - IEEE Transactions on Information …, 2023 - ieeexplore.ieee.org
IEEE Transactions on Information Theory, 2023•ieeexplore.ieee.org
We introduce sequential and parallel decoders for quantum Tanner codes. When the Tanner
code construction is applied to a sufficiently expanding square complex with robust local
codes, we obtain a family of asymptotically good quantum low-density parity-check codes. In
this case, our decoders provably correct arbitrary errors of weight linear in the code length,
respectively in linear or logarithmic time. The same decoders are easily adapted to the
expander lifted product codes of Panteleev and Kalachev. Along the way, we exploit recently …
code construction is applied to a sufficiently expanding square complex with robust local
codes, we obtain a family of asymptotically good quantum low-density parity-check codes. In
this case, our decoders provably correct arbitrary errors of weight linear in the code length,
respectively in linear or logarithmic time. The same decoders are easily adapted to the
expander lifted product codes of Panteleev and Kalachev. Along the way, we exploit recently …
We introduce sequential and parallel decoders for quantum Tanner codes. When the Tanner code construction is applied to a sufficiently expanding square complex with robust local codes, we obtain a family of asymptotically good quantum low-density parity-check codes. In this case, our decoders provably correct arbitrary errors of weight linear in the code length, respectively in linear or logarithmic time. The same decoders are easily adapted to the expander lifted product codes of Panteleev and Kalachev. Along the way, we exploit recently established bounds on the robustness of random tensor codes to give a tighter bound on the minimum distance of quantum Tanner codes.
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