English

The Singular Optimality of Distributed Computation in LOCAL

Distributed, Parallel, and Cluster Computing 2024-11-12 v1

Abstract

It has been shown that one can design distributed algorithms that are (nearly) singularly optimal, meaning they simultaneously achieve optimal time and message complexity (within polylogarithmic factors), for several fundamental global problems such as broadcast, leader election, and spanning tree construction, under the KT0\text{KT}_0 assumption. With this assumption, nodes have initial knowledge only of themselves, not their neighbors. In this case the time and message lower bounds are Ω(D)\Omega(D) and Ω(m)\Omega(m), respectively, where DD is the diameter of the network and mm is the number of edges, and there exist (even) deterministic algorithms that simultaneously match these bounds. On the other hand, under the KT1\text{KT}_1 assumption, whereby each node has initial knowledge of itself and the identifiers of its neighbors, the situation is not clear. For the KT1\text{KT}_1 CONGEST model (where messages are of small size), King, Kutten, and Thorup (KKT) showed that one can solve several fundamental global problems (with the notable exception of BFS tree construction) such as broadcast, leader election, and spanning tree construction with O~(n)\tilde{O}(n) message complexity (nn is the network size), which can be significantly smaller than mm. Randomization is crucial in obtaining this result. While the message complexity of the KKT result is near-optimal, its time complexity is O~(n)\tilde{O}(n) rounds, which is far from the standard lower bound of Ω(D)\Omega(D). In this paper, we show that in the KT1\text{KT}_1 LOCAL model (where message sizes are not restricted), singular optimality is achievable. Our main result is that all global problems, including BFS tree construction, can be solved in O~(D)\tilde{O}(D) rounds and O~(n)\tilde{O}(n) messages, where both bounds are optimal up to polylogarithmic factors. Moreover, we show that this can be achieved deterministically.

Keywords

Cite

@article{arxiv.2411.07011,
  title  = {The Singular Optimality of Distributed Computation in LOCAL},
  author = {Fabien Dufoulon and Gopal Pandurangan and Peter Robinson and Michele Scquizzato},
  journal= {arXiv preprint arXiv:2411.07011},
  year   = {2024}
}

Comments

Reduced abstract to fit arxiv requirements

R2 v1 2026-06-28T19:55:35.993Z