English

Improved Bounds for High-Dimensional Equivalence and Product Testing using Subcube Queries

Data Structures and Algorithms 2024-08-06 v1

Abstract

We study property testing in the subcube conditional model introduced by Bhattacharyya and Chakraborty (2017). We obtain the first equivalence test for nn-dimensional distributions that is quasi-linear in nn, improving the previously known O~(n2/ε2)\tilde{O}(n^2/\varepsilon^2) query complexity bound to O~(n/ε2)\tilde{O}(n/\varepsilon^2). We extend this result to general finite alphabets with logarithmic cost in the alphabet size. By exploiting the specific structure of the queries that we use (which are more restrictive than general subcube queries), we obtain a cubic improvement over the best known test for distributions over {1,,N}\{1,\ldots,N\} under the interval querying model of Canonne, Ron and Servedio (2015), attaining a query complexity of O~((logN)/ε2)\tilde{O}((\log N)/\varepsilon^2), which for fixed ε\varepsilon almost matches the known lower bound of Ω((logN)/loglogN)\Omega((\log N)/\log\log N). We also derive a product test for nn-dimensional distributions with O~(n/ε2)\tilde{O}(n / \varepsilon^2) queries, and provide an Ω(n/ε2)\Omega(\sqrt{n} / \varepsilon^2) lower bound for this property.

Keywords

Cite

@article{arxiv.2408.02347,
  title  = {Improved Bounds for High-Dimensional Equivalence and Product Testing using Subcube Queries},
  author = {Tomer Adar and Eldar Fischer and Amit Levi},
  journal= {arXiv preprint arXiv:2408.02347},
  year   = {2024}
}
R2 v1 2026-06-28T18:04:02.123Z