A programmable 2D toric oscillator network enables efficient routing for bivariate bicycle LDPC codes, reducing long-range couplers to O(sqrt(n)) and achieving 3.06% logical error rate per cycle in simulations for the [[18,4,4]] code.
Quantum LDPC codes for erasure-biased atomic quan- tum processors
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Bivariate bicycle codes achieve an asymptotic threshold of approximately 0.488 on the quantum erasure channel with BP-OSD decoding, offering modest threshold edge and 12x lower overhead than toric codes under fair baselines.
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Efficient Routing of Quantum LDPC Codes on Programmable 2D Toric Architectures
A programmable 2D toric oscillator network enables efficient routing for bivariate bicycle LDPC codes, reducing long-range couplers to O(sqrt(n)) and achieving 3.06% logical error rate per cycle in simulations for the [[18,4,4]] code.
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Fair Decoder Baselines and Rigorous Finite-Size Scaling for Bivariate Bicycle Codes on the Quantum Erasure Channel
Bivariate bicycle codes achieve an asymptotic threshold of approximately 0.488 on the quantum erasure channel with BP-OSD decoding, offering modest threshold edge and 12x lower overhead than toric codes under fair baselines.