Regularized methods via cubic subspace minimization for nonconvex optimization

06/25/2023
by   Stefania Bellavia, et al.
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The main computational cost per iteration of adaptive cubic regularization methods for solving large-scale nonconvex problems is the computation of the step s_k, which requires an approximate minimizer of the cubic model. We propose a new approach in which this minimizer is sought in a low dimensional subspace that, in contrast to classical approaches, is reused for a number of iterations. A regularized Newton step to correct s_k is also incorporated whenever needed. We show that our method increases efficiency while preserving the worst-case complexity of classical cubic regularized methods. We also explore the use of rational Krylov subspaces for the subspace minimization, to overcome some of the issues encountered when using polynomial Krylov subspaces. We provide several experimental results illustrating the gains of the new approach when compared to classic implementations.

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