Dis- ambiguating pauli noise in quantum computers

· 2025 · arXiv 2505.22629

2 Pith papers cite this work. Polarity classification is still indexing.

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Reliable high-accuracy error mitigation for utility-scale quantum circuits

quant-ph · 2025-08-14 · conditional · novelty 6.0

QESEM is a characterization-based error mitigation technique that achieves unbiased estimates with substantially reduced runtime cost compared to probabilistic error cancellation while outperforming zero-noise extrapolation on utility-scale circuits.

Near-Term Fermionic Simulation with Subspace Noise Tailored Quantum Error Mitigation

quant-ph · 2025-03-14 · unverdicted · novelty 6.0

SNT merges SV and PEC for subspace-tailored error mitigation in Trotterized FHM simulations, mapping out optimal combinations by hardware quality and shot budget while quantifying when noisy devices could surpass classical methods.

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Reliable high-accuracy error mitigation for utility-scale quantum circuits quant-ph · 2025-08-14 · conditional · none · ref 126
QESEM is a characterization-based error mitigation technique that achieves unbiased estimates with substantially reduced runtime cost compared to probabilistic error cancellation while outperforming zero-noise extrapolation on utility-scale circuits.
Near-Term Fermionic Simulation with Subspace Noise Tailored Quantum Error Mitigation quant-ph · 2025-03-14 · unverdicted · none · ref 62
SNT merges SV and PEC for subspace-tailored error mitigation in Trotterized FHM simulations, mapping out optimal combinations by hardware quality and shot budget while quantifying when noisy devices could surpass classical methods.

Dis- ambiguating pauli noise in quantum computers

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