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Paper detail

Good Quantum LDPC Codes with Linear Time Decoders

We construct a new explicit family of good quantum low-density parity-check codes which additionally have linear time decoders. Our codes are based on a three-term chain $(\mathbb{F}_2^{m\times m})^V \quad \xrightarrow{δ^0}\quad (\mathbb{F}_2^{m})^{E} \quad\xrightarrow{δ^1} \quad \mathbb{F}_2^F$ where $V$ ($X$-checks) are the vertices, $E$ (qubits) are the edges, and $F$ ($Z$-checks) are the squares of a left-right Cayley complex, and where the maps are defined based on a pair of constant-size random codes $C_A,C_B:\mathbb{F}_2^m\to\mathbb{F}_2^Δ$ where $Δ$ is the regularity of the underlying Cayley graphs. One of the main ingredients in the analysis is a proof of an essentially-optimal robustness property for the tensor product of two random codes.

preprint2022arXivOpen access
Irit DinurMin-Hsiu HsiehTing-Chun LinThomas Vidick
quant-ph
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Irit DinurMin-Hsiu HsiehTing-Chun LinThomas Vidick

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