[16], every quantum channel can be re-expressed as a sequential composition of the depolarizing channel and a suitable linear map, which is in general non-physical

Effective depolarizing rate of noisy random channels As previously observed in Ref

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Simulating quantum circuits with arbitrary local noise using Pauli Propagation

quant-ph · 2025-01-22 · unverdicted · novelty 7.0

Pauli propagation with tailored truncation enables efficient classical simulation of expectation values for most quantum circuits under any local noise, with high probability and logarithmic effective depth.

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Simulating quantum circuits with arbitrary local noise using Pauli Propagation quant-ph · 2025-01-22 · unverdicted · none · ref 29
Pauli propagation with tailored truncation enables efficient classical simulation of expectation values for most quantum circuits under any local noise, with high probability and logarithmic effective depth.

[16], every quantum channel can be re-expressed as a sequential composition of the depolarizing channel and a suitable linear map, which is in general non-physical

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