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ell₁-norm rank-one symmetric matrix factorization has no spurious second-order stationary points

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arxiv 2410.05025 v1 pith:JS2IQSLL submitted 2024-10-07 math.OC stat.ML

ell₁-norm rank-one symmetric matrix factorization has no spurious second-order stationary points

classification math.OC stat.ML
keywords problemmatrixnonsmoothoptimizationsecond-orderstationaryfactorizationlandscape
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This paper studies the nonsmooth optimization landscape of the $\ell_1$-norm rank-one symmetric matrix factorization problem using tools from second-order variational analysis. Specifically, as the main finding of this paper, we show that any second-order stationary point (and thus local minimizer) of the problem is actually globally optimal. Besides, some other results concerning the landscape of the problem, such as a complete characterization of the set of stationary points, are also developed, which should be interesting in their own rights. Furthermore, with the above theories, we revisit existing results on the generic minimizing behavior of simple algorithms for nonsmooth optimization and showcase the potential risk of their applications to our problem through several examples. Our techniques can potentially be applied to analyze the optimization landscapes of a variety of other more sophisticated nonsmooth learning problems, such as robust low-rank matrix recovery.

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