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Paper 1

Simple, Efficient, and Generic Post-Selection Decoding for qLDPC codes

Haipeng Xie, Nobuyuki Yoshioka, Kento Tsubouchi, Ying Li

Year

2026

Journal

arXiv preprint

DOI

arXiv:2601.17757

arXiv

2601.17757

Quantum error correction is indispensable for scalable quantum computation. Although encoding logical qubits substantially enhances noise resilience, achieving logical error rates low enough for practical algorithms remains challenging on existing hardware. Here we introduce argument reweighting, a simple and broadly applicable post-selection decoding strategy that boosts the performance of maximum-likelihood-type decoders, including minimum-weight perfect matching and belief-propagation families. The method suppresses logical errors by performing additional decoding rounds under reweighted error models, enabling acceptance of high-confidence syndrome outcomes. Circuit-level simulations across multiple decoders and qLDPC codes show that argument reweighting substantially suppresses logical errors, requiring a rejection rate of only $1.44\times10^{-5}$ to reduce the logical error rate by almost two orders of magnitude for the $[[144,12,12]]$ bivariate bicycle code. These results establish argument reweighting as a practical and resource-efficient approach for enhancing quantum fault tolerance.

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Paper 2

Fault-Tolerant Quantum Communication Systems Using Clifford Hierarchy-based CSS Codes

Das MK, Bhardwaj P, Kumar B, Ghorai SK, Lal RK.

Year

2026

Journal

Europe PMC

DOI

10.21203/rs.3.rs-8557720/v1

arXiv

-

No abstract.

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