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Constructive Regularization of the Random Matrix Norm

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  • Elizaveta Rebrova

    (UCLA)

Abstract

We study the structure of $$n \times n$$ n × n random matrices with centered i.i.d. entries having only two finite moments. In the recent joint work with R. Vershynin, we have shown that the operator norm of such matrix A can be reduced to the optimal order $$O(\sqrt{n})$$ O ( n ) with high probability by zeroing out a small submatrix of A, but did not describe the structure of this “bad” submatrix nor provide a constructive way to find it. In the current paper, we give a very simple description of a small “bad” subset of entries. We show that it is enough to zero out a small fraction of the rows and columns of A with largest $$L_2$$ L 2 norms to bring the operator norm of A to the almost optimal order $$O(\sqrt{n \log \log n})$$ O ( n log log n ) , under additional assumption that the matrix entries are symmetrically distributed. As a corollary, we also obtain a constructive procedure to find a small submatrix of A that one can zero out to achieve the same norm regularization. The main component of the proof is the development of techniques extending constructive regularization approaches known for the Bernoulli matrices (from the works of Feige and Ofek, and Le, Levina and Vershynin) to the considerably broader class of heavy-tailed random matrices.

Suggested Citation

  • Elizaveta Rebrova, 2020. "Constructive Regularization of the Random Matrix Norm," Journal of Theoretical Probability, Springer, vol. 33(3), pages 1768-1790, September.
    • Handle: RePEc:spr:jotpro:v:33:y:2020:i:3:d:10.1007_s10959-019-00929-6
    DOI: 10.1007/s10959-019-00929-6
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    References listed on IDEAS

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    1. Auffinger, Antonio & Tang, Si, 2016. "Extreme eigenvalues of sparse, heavy tailed random matrices," Stochastic Processes and their Applications, Elsevier, vol. 126(11), pages 3310-3330.
    2. Silverstein, Jack W., 1989. "On the weak limit of the largest eigenvalue of a large dimensional sample covariance matrix," Journal of Multivariate Analysis, Elsevier, vol. 30(2), pages 307-311, August.
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