English

Deterministic Extractors for Additive Sources

Computational Complexity 2014-10-28 v1

Abstract

We propose a new model of a weakly random source that admits randomness extraction. Our model of additive sources includes such natural sources as uniform distributions on arithmetic progressions (APs), generalized arithmetic progressions (GAPs), and Bohr sets, each of which generalizes affine sources. We give an explicit extractor for additive sources with linear min-entropy over both Zp\mathbb{Z}_p and Zpn\mathbb{Z}_p^n, for large prime pp, although our results over Zpn\mathbb{Z}_p^n require that the source further satisfy a list-decodability condition. As a corollary, we obtain explicit extractors for APs, GAPs, and Bohr sources with linear min-entropy, although again our results over Zpn\mathbb{Z}_p^n require the list-decodability condition. We further explore special cases of additive sources. We improve previous constructions of line sources (affine sources of dimension 1), requiring a field of size linear in nn, rather than Ω(n2)\Omega(n^2) by Gabizon and Raz. This beats the non-explicit bound of Θ(nlogn)\Theta(n \log n) obtained by the probabilistic method. We then generalize this result to APs and GAPs.

Keywords

Cite

@article{arxiv.1410.7253,
  title  = {Deterministic Extractors for Additive Sources},
  author = {Abhishek Bhowmick and Ariel Gabizon and Thái Hoàng Lê and David Zuckerman},
  journal= {arXiv preprint arXiv:1410.7253},
  year   = {2014}
}
R2 v1 2026-06-22T06:37:21.198Z