English

Hardness of Range Avoidance and Proof Complexity Generators from Demi-Bits

Computational Complexity 2026-03-16 v2 Cryptography and Security

Abstract

Given a circuit G:{0,1}n{0,1}mG: \{0, 1\}^n \to \{0, 1\}^m with m>nm > n, the *range avoidance* problem (Avoid\text{Avoid}) asks to output a string y{0,1}my\in \{0, 1\}^m that is not in the range of GG. Besides its profound connection to circuit complexity and explicit construction problems, this problem is also related to the existence of *proof complexity generators* -- circuits G:{0,1}n{0,1}mG: \{0, 1\}^n \to \{0, 1\}^m where m>nm > n but for every y{0,1}my\in \{0, 1\}^m, it is infeasible to prove the statement "y∉Range(G)y\not\in\mathrm{Range}(G)" in a given propositional proof system. This paper connects these two problems with the existence of *demi-bits generators*, a fundamental cryptographic primitive against nondeterministic adversaries introduced by Rudich (RANDOM '97). \bullet We show that the existence of demi-bits generators implies Avoid\text{Avoid} is hard for nondeterministic algorithms. This resolves an open problem raised by Chen and Li (STOC '24). Furthermore, assuming the demi-hardness of certain LPN-style generators or Goldreich' PRG, we prove the hardness of Avoid\text{Avoid} even when the instances are constant-degree polynomials over F2\mathbb{F}_2. \bullet We show that the dual weak pigeonhole principle is unprovable in Cook's theory PV1\mathsf{PV}_1 under the existence of demi-bits generators secure against AM\mathbf{AM}, thereby separating Jerabek's theory APC1\mathsf{APC}_1 from PV1\mathsf{PV}_1. \bullet We transform demi-bits generators to proof complexity generators that are *pseudo-surjective* with nearly optimal parameters. Our constructions build on the recent breakthroughs on the hardness of Avoid\text{Avoid} by Ilango, Li, and Williams (STOC '23) and Chen and Li (STOC '24). We use *randomness extractors* to significantly simplify the construction and the proof.

Keywords

Cite

@article{arxiv.2511.14061,
  title  = {Hardness of Range Avoidance and Proof Complexity Generators from Demi-Bits},
  author = {Hanlin Ren and Yichuan Wang and Yan Zhong},
  journal= {arXiv preprint arXiv:2511.14061},
  year   = {2026}
}

Comments

ITCS 2026. Abstract shortened due to constraints

R2 v1 2026-07-01T07:42:30.816Z