Magic state cultivation prepares high-fidelity T states with an order of magnitude fewer qubit-rounds than prior distillation methods by gradually growing them within a surface code under depolarizing noise.
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Circuit-level simulations show correlated MWPM decoding improves thresholds of bias-tailored compass codes under biased noise, with greater relative gains for asymmetric stabilizers.
citing papers explorer
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Magic state cultivation: growing T states as cheap as CNOT gates
Magic state cultivation prepares high-fidelity T states with an order of magnitude fewer qubit-rounds than prior distillation methods by gradually growing them within a surface code under depolarizing noise.
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Leveraging Correlated Decoding for Bias-Tailored Compass Codes
Circuit-level simulations show correlated MWPM decoding improves thresholds of bias-tailored compass codes under biased noise, with greater relative gains for asymmetric stabilizers.