Toward Optimality: A Tighter Analysis of Message Complexity for Leader Election in Diameter-Two Networks

Abstract

We study the message complexity of leader election in synchronous networks of diameter two. Our main contribution is a refined analysis of the randomized algorithm proposed by Chatterjee et al. [DC, 2020]. In their work, the authors established a lower bound of (n) messages (n is the number of nodes in the network) and presented a randomized algorithm that elects a leader in O(1) rounds using O(n 3 n) messages with high probability. In this paper, we improve their n gap in the message bound by providing a tighter analysis of their algorithm, reducing the message complexity to O(n n), while preserving the O(1)-round complexity and high-probability correctness guarantee.