Equivalence and Separation between Heard-Of and Asynchronous Message-Passing Models

Abstract

We revisit the relationship between two fundamental models of distributed computation: the asynchronous message-passing model with up to f crash failures (AMPf) and the Heard-Of model with up to f message omissions (HOf). We show that for n > 2f, the two models are equivalent with respect to the solvability of colorless tasks, and that for colored tasks the equivalence holds only when f = 1 (and n > 2). The separation for larger f arises from the presence of silenced processes in HOf, which may lead to incompatible decisions. The proofs proceed through bidirectional simulations between AMPf and HOf via an intermediate model that captures this notion of silencing. The results extend to randomized protocols against a non-adaptive adversary, indicating that the expressive limits of canonical rounds are structural rather than probabilistic. Together, these results delineate precisely where round-based abstractions capture asynchronous computation, and where they do not.

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