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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Generalized coherent information acts as a sharp phase-transition indicator over the entire p-T plane in the 2D ±J random-bond Ising model, yielding a high-precision multicritical point estimate p_c=0.1092212(4) with reduced finite-size effects.
Postselection on typical syndromes in the toric code suppresses logical error rates from p_f to p_f^b with b approximately 3.1 via large-deviation arguments.
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.