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Convergence of the momentum method for semialgebraic functions with locally Lipschitz gradients

We propose a new length formula that governs the iterates of the momentum method when minimizing differentiable semialgebraic functions with locally Lipschitz gradients. It enables us to establish local convergence, global convergence, and convergence to local minimizers without assuming global Lipschitz continuity of the gradient, coercivity, and a global growth condition, as is done in the literature. As a result, we provide the first convergence guarantee of the momentum method starting from arbitrary initial points when applied to principal component analysis, matrix sensing, and linear neural networks.

preprint2024arXivOpen access
Cédric JoszLexiao LaiXiaopeng Li
math.OC
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Cédric JoszLexiao LaiXiaopeng Li

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