Computation-information gap in high-dimensional clustering
Abstract
We investigate the existence of a fundamental computation-information gap for the problem of clustering a mixture of isotropic Gaussian in the high-dimensional regime, where the ambient dimension is larger than the number of points. The existence of a computation-information gap in a specific Bayesian high-dimensional asymptotic regime has been conjectured by arXiv:1610.02918 based on the replica heuristic from statistical physics. We provide evidence of the existence of such a gap generically in the high-dimensional regime , by (i) proving a non-asymptotic low-degree polynomials computational barrier for clustering in high-dimension, matching the performance of the best known polynomial time algorithms, and by (ii) establishing that the information barrier for clustering is smaller than the computational barrier, when the number of clusters is large enough. These results are in contrast with the (moderately) low-dimensional regime , where there is no computation-information gap for clustering a mixture of isotropic Gaussian. In order to prove our low-degree computational barrier, we develop sophisticated combinatorial arguments to upper-bound the mixed moments of the signal under a Bernoulli Bayesian model.
Keywords
Cite
@article{arxiv.2402.18378,
title = {Computation-information gap in high-dimensional clustering},
author = {Bertrand Even and Christophe Giraud and Nicolas Verzelen},
journal= {arXiv preprint arXiv:2402.18378},
year = {2024}
}
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53 pages