Complexity of Consistency Testing for the Release-Acquire Semantics
Abstract
In a seminal work, Gibbons and Korach studied the complexity of deciding whether an observed sequence of reads and writes of a multi-threaded program admits a sequentially consistent interleaving. They showed the problem to be NP-hard even under strong syntactic restrictions. More recently, Chakraborty et al. considered the problem for weak memory models and proved that NP-hardness remains even when the number of threads, the number of memory locations, and the value domain are all bounded. In this paper we revisit the problem for the release-acquire variants of the C11 memory model. Our main positive result is that consistency testing can be done in polynomial-time when each memory location is written by at most one thread (multiple readers are allowed). Notably, this restriction is already NP-hard for sequential consistency. We complement this upper bound with tight hardness results: the problem is NP-hard when two threads may write to the same location, and allowing three writers per location rules out 2^{o(k)}.n^{O(1)} algorithms under the Exponential Time Hypothesis, where k denotes the number of threads, and n the number of memory operations.
Cite
@article{arxiv.2604.09589,
title = {Complexity of Consistency Testing for the Release-Acquire Semantics},
author = {R. Govind and S. Krishna and Sanchari Sil and B. Srivathsan},
journal= {arXiv preprint arXiv:2604.09589},
year = {2026}
}
Comments
A shorter version has been accepte at FM 2026 - the 27th International Symposium on Formal Methods