English

Bridging Computational Notions of Depth

Logic in Computer Science 2024-03-08 v1 Logic

Abstract

In this article, we study the relationship between notions of depth for sequences, namely, Bennett's notions of strong and weak depth, and deep Π10\Pi^0_1 classes, introduced by the authors and motivated by previous work of Levin. For the first main result of the study, we show that every member of a Π10\Pi^0_1 class is order-deep, a property that implies strong depth. From this result, we obtain new examples of strongly deep sequences based on properties studied in computability theory and algorithmic randomness. We further show that not every strongly deep sequence is a member of a deep Π10\Pi^0_1 class. For the second main result, we show that the collection of strongly deep sequences is negligible, which is equivalent to the statement that the probability of computing a strongly deep sequence with some random oracle is 0, a property also shared by every deep Π10\Pi^0_1 class. Finally, we show that variants of strong depth, given in terms of a priori complexity and monotone complexity, are equivalent to weak depth.

Keywords

Cite

@article{arxiv.2403.04045,
  title  = {Bridging Computational Notions of Depth},
  author = {Laurent Bienvenu and Christopher P. Porter},
  journal= {arXiv preprint arXiv:2403.04045},
  year   = {2024}
}
R2 v1 2026-06-28T15:11:33.403Z