Finite-time consensus in a compromise process (2509.01024v1)

Abstract: A compromise process describes the evolution of opinions through binary interactions. Opinions are real numbers, and in each step, two randomly selected agents reach a compromise, namely, they acquire the average of their pre-interaction opinions. We prove that if the number $N$ of agents is a power of two, the consensus emerges after a finite number of compromise events with probability one; otherwise, the consensus cannot be reached in a finite number of steps (if initial opinions are in a general position). The number of steps required to reach consensus is random for $N=2^k$ with $k\geq 2$. We prove that typically, the smallest number of steps to reach consensus is equal to $k\cdot 2^{k-1}$. For $N=4$, we determine the distribution of the number of steps, e.g., we show that it has a purely exponential tail and compute all cumulants.