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March 3, 2026
Open Access
Large Deviation Upper Bounds and Improved MSE Rates of Nonlinear SGD: Heavy-Tailed Noise and Power of Symmetry
AA
Aleksandar Armacki
SY
Shuhua Yu
DB
Dragana Bajović
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Key Points
Improved mean squared error (MSE) rates are observed under heavy-tailed noise conditions, enhancing performance significantly.
In the analysis, large deviation upper bounds are derived for nonlinear stochastic gradient descent (SGD).
Observational analysis focusing on the interplay between heavy-tailed noise and the power of symmetry provides new insights.
Highlights the importance of understanding noise characteristics in optimizing nonlinear SGD applications.
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Armacki et al. (Tue,) studied this question.
synapsesocial.com/papers/69a75b90c6e9836116a230bd
https://doi.org/https://doi.org/10.1137/24m1704154
Large Deviation Upper Bounds and Improved MSE Rates of Nonlinear SGD: Heavy-Tailed Noise and Power of Symmetry | Synapse