English

Distributed and Autonomic Minimum Spanning Trees

Distributed, Parallel, and Cluster Computing 2025-12-03 v1

Abstract

The most common strategy for enabling a process in a distributed system to broadcast a message is one-to-all communication. However, this approach is not scalable, as it places a heavy load on the sender. This work presents an autonomic algorithm that enables the nn processes in a distributed system to build and maintain a spanning tree connecting themselves. In this context, processes are the vertices of the spanning tree. By definition, a spanning tree connects all processes without forming cycles. The proposed algorithm ensures that every vertex in the spanning tree has both an in-degree and the tree depth of at most log2nlog_2 n. When all processes are correct, the degree of each process is exactly log2nlog_2 n. A spanning tree is dynamically created from any source process and is transparently reconstructed as processes fail or recover. Up to n1n-1 processes can fail, and the correct processes remain connected through a scalable, functioning spanning tree. To build and maintain the tree, processes use the VCube virtual topology, which also serves as a failure detector. Two broadcast algorithms based on the autonomic spanning tree algorithm are presented: one for best-effort broadcast and one for reliable broadcast. Simulation results are provided, including comparisons with other alternatives.

Keywords

Cite

@article{arxiv.2512.02683,
  title  = {Distributed and Autonomic Minimum Spanning Trees},
  author = {Luiz A. Rodrigues and Elias P. Duarte and Luciana Arantes},
  journal= {arXiv preprint arXiv:2512.02683},
  year   = {2025}
}

Comments

This preprint is an English translation and slightly extended version of the paper published in Portuguese at the 32nd Brazilian Symposium on Computer Networks and Distributed Systems (2014), reference [1]

R2 v1 2026-07-01T08:05:33.438Z