Thus, C Z(H F ) =C wait 1 ∪C synd 1 ∪C wait 2 .(H30) For alli∈C wait 1 ∪C synd 1 ∪C wait 2 , the physical error rate satisfiesp i ≤p phy

a final wait layerC wait 2 of depth 1

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Accelerating Fault-Tolerant Quantum Computation with Good qLDPC Codes

quant-ph · 2025-10-22 · unverdicted · novelty 6.0

A new scheme for fault-tolerant quantum computation on qLDPC codes achieves constant qubit overhead and time overhead O(d^{1+o(1)}) for good codes, faster than prior code surgery methods for a<2.

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Accelerating Fault-Tolerant Quantum Computation with Good qLDPC Codes quant-ph · 2025-10-22 · unverdicted · none · ref 23
A new scheme for fault-tolerant quantum computation on qLDPC codes achieves constant qubit overhead and time overhead O(d^{1+o(1)}) for good codes, faster than prior code surgery methods for a<2.

Thus, C Z(H F ) =C wait 1 ∪C synd 1 ∪C wait 2 .(H30) For alli∈C wait 1 ∪C synd 1 ∪C wait 2 , the physical error rate satisfiesp i ≤p phy

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