In-patch multiplexing reduces expected attempts per accepted logical magic state by 45-79% at physical error rate 2e-3 for distances 3 and 5 while leaving the escape stage unchanged.
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UNVERDICTED 2representative citing papers
Dynamic compass code on heavy-hex lattice yields competitive threshold and experimental 38.3% logical error rate improvement for distance-5 via ACES noise characterization and leakage-aware post-selection.
citing papers explorer
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Reducing Postselection Overhead in Magic-State Cultivation by In-Patch Multiplexing
In-patch multiplexing reduces expected attempts per accepted logical magic state by 45-79% at physical error rate 2e-3 for distances 3 and 5 while leaving the escape stage unchanged.
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Scalable quantum error correction tailored for a heavy-hex qubit array
Dynamic compass code on heavy-hex lattice yields competitive threshold and experimental 38.3% logical error rate improvement for distance-5 via ACES noise characterization and leakage-aware post-selection.