Fast Algorithms for Sparse Reduced-Rank Regression

Benjamin Dubois, Jean-François Delmas, Guillaume Obozinski

AISTATS 2019 pp. 2415-2424

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Abstract

We consider a reformulation of Reduced-Rank Regression (RRR) and Sparse Reduced-Rank Regression (SRRR) as a non-convex non-differentiable function of a single of the two matrices usually introduced to parametrize low-rank matrix learning problems. We study the behavior of proximal gradient algorithms for the minimization of the objective. In particular, based on an analysis of the geometry of the problem, we establish that a proximal Polyak-Łojasiewicz inequality is satisfied in a neighborhood of the set of optima under a condition on the regularization parameter. We can consequently derive linear convergence rates for the proximal gradient descent with line search and for related algorithms in a neighborhood of the optima. Our experiments show that our formulation leads to much faster learning algorithms for RRR and especially for SRRR.

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Cite

Text

Dubois et al. "Fast Algorithms for Sparse Reduced-Rank Regression." Artificial Intelligence and Statistics, 2019.

Markdown

[Dubois et al. "Fast Algorithms for Sparse Reduced-Rank Regression." Artificial Intelligence and Statistics, 2019.](https://mlanthology.org/aistats/2019/dubois2019aistats-fast/)

BibTeX

@inproceedings{dubois2019aistats-fast,
  title     = {{Fast Algorithms for Sparse Reduced-Rank Regression}},
  author    = {Dubois, Benjamin and Delmas, Jean-François and Obozinski, Guillaume},
  booktitle = {Artificial Intelligence and Statistics},
  year      = {2019},
  pages     = {2415-2424},
  volume    = {89},
  url       = {https://mlanthology.org/aistats/2019/dubois2019aistats-fast/}
}