English

A Forward Simulation-Based Hierarchy of Linearizable Concurrent Objects

Distributed, Parallel, and Cluster Computing 2026-01-21 v1 Formal Languages and Automata Theory

Abstract

In this paper, we systematically investigate the connection between linearizable objects and forward simulation. We prove that the sets of linearizable objects satisfying wait-freedom (resp., lock-freedom or obstruction-freedom) form a bounded join-semilattice under the forward simulation relation, and that the sets of linearizable objects without liveness constraints form a bounded lattice under the same relation. As part of our lattice result, we propose an equivalent characterization of linearizability by reducing checking linearizability w.r.t. sequential specification SpecSpec into checking forward simulation by an object USpec\mathcal{U}_{Spec}. To demonstrate the forward simulation relation between linearizable objects, we prove that the objects that are strongly linearizable w.r.t. the same sequential specification and are wait-free (resp., lock-free, obstruction-free) simulate each other, and we prove that the time-stamped queue simulates the Herlihy-Wing queue. We also prove that the Herlihy-Wing queue is simulated by USpec\mathcal{U}_{Spec}, and thus, our equivalent characterization of linearizability can be used in the verification of linearizability.

Keywords

Cite

@article{arxiv.2601.11646,
  title  = {A Forward Simulation-Based Hierarchy of Linearizable Concurrent Objects},
  author = {Chao Wang and Ruijia Li and Yang Zhou and Peng Wu and Yi Lv and Jianwei Liao and Jim Woodcock and Zhiming Liu},
  journal= {arXiv preprint arXiv:2601.11646},
  year   = {2026}
}
R2 v1 2026-07-01T09:08:12.904Z