English

A Theory for Probabilistic Polynomial-Time Reasoning

Computational Complexity 2026-02-11 v1 Logic in Computer Science Logic

Abstract

In this work, we propose a new bounded arithmetic theory, denoted APX1APX_1, designed to formalize a broad class of probabilistic arguments commonly used in theoretical computer science. Under plausible assumptions, APX1APX_1 is strictly weaker than previously proposed frameworks, such as the theory APC1APC_1 introduced in the seminal work of Jerabek (2007). From a computational standpoint, APX1APX_1 is closely tied to approximate counting and to the central question in derandomization, the prBPP versus prP problem, whereas APC1APC_1 is linked to the dual weak pigeonhole principle and to the existence of Boolean functions with exponential circuit complexity. A key motivation for introducing APX1APX_1 is that its weaker axioms expose finer proof-theoretic structure, making it a natural setting for several lines of research, including unprovability of complexity conjectures and reverse mathematics of randomized lower bounds. In particular, the framework we develop for APX1APX_1 enables the formulation of precise questions concerning the provability of prBPP=prP in deterministic feasible mathematics. Since the (un)provability of P versus NP in bounded arithmetic has long served as a central theme in the field, we expect this line of investigation to be of particular interest. Our technical contributions include developing a comprehensive foundation for probabilistic reasoning from weaker axioms, formalizing non-trivial results from theoretical computer science in APX1APX_1, and establishing a tailored witnessing theorem for its provably total TFNP problems. As a byproduct of our analysis of the minimal proof-theoretic strength required to formalize statements arising in theoretical computer science, we resolve an open problem regarding the provability of AC0AC^0 lower bounds in PV1PV_1, which was considered in earlier works by Razborov (1995), Krajicek (1995), and Muller and Pich (2020).

Keywords

Cite

@article{arxiv.2602.09302,
  title  = {A Theory for Probabilistic Polynomial-Time Reasoning},
  author = {Lijie Chen and Jiatu Li and Igor C. Oliveira and Ryan Williams},
  journal= {arXiv preprint arXiv:2602.09302},
  year   = {2026}
}

Comments

accepted by STOC 2026

R2 v1 2026-07-01T10:28:59.272Z