English

Testing Separability of High-Dimensional Covariance Matrices

Statistics Theory 2026-05-05 v3 Methodology Statistics Theory

Abstract

Due to their parsimony, separable covariance models have been popular in modeling matrix-variate data. However, the inference from such a model may be misleading if the population covariance matrix Σ\Sigma is actually non-separable, motivating the use of statistical tests of separability. The existing separability tests suffer mainly from two issues: 1) test statistics that are not well-defined in high-dimensional settings, 2) low power for small sample sizes and null distributions that depend on unknown parameters, preventing exact error rate control. To address these issues, we propose novel invariant tests using the core covariance matrix, a complementary notion to a separable covariance matrix. We show that testing separability of Σ\Sigma is equivalent to testing sphericity of its core component. With this insight, we construct test statistics that are well-defined in high-dimensional settings and have distributions that are invariant under the null hypothesis of separability, allowing for exact simulation of null distributions. We establish the asymptotic properties of some test statistics by proving the asymptotic spectral equivalence between the sample covariance matrix and its core in a p/nγ(0,)p/n\rightarrow\gamma\in(0,\infty) regime. The large power of our proposed tests relative to existing procedures is demonstrated numerically.

Keywords

Cite

@article{arxiv.2506.17463,
  title  = {Testing Separability of High-Dimensional Covariance Matrices},
  author = {Bongjung Sung and Peter D. Hoff},
  journal= {arXiv preprint arXiv:2506.17463},
  year   = {2026}
}

Comments

85 pages, 32 pages in the main text, new theoretical results, including the convergence of the Kronecker MLE under the partial-isotropy core, with more sophisticated results on the asymptotic distributions and consistency, are added

R2 v1 2026-07-01T03:27:27.118Z