Adam Shimi ; Aurélie Hurault ; Philippe Queinnec - Characterization and Derivation of Heard-Of Predicates for Asynchronous Message-Passing Models

lmcs:6929 - Logical Methods in Computer Science, September 17, 2021, Volume 17, Issue 3 - https://doi.org/10.46298/lmcs-17(3:26)2021
Characterization and Derivation of Heard-Of Predicates for Asynchronous Message-Passing ModelsArticle

Authors: Adam Shimi ; Aurélie Hurault ; Philippe Queinnec

    In distributed computing, multiple processes interact to solve a problem together. The main model of interaction is the message-passing model, where processes communicate by exchanging messages. Nevertheless, there are several models varying along important dimensions: degree of synchrony, kinds of faults, number of faults... This variety is compounded by the lack of a general formalism in which to abstract these models. One way to bring order is to constrain these models to communicate in rounds. This is the setting of the Heard-Of model, which captures many models through predicates on the messages sent in a round and received on time. Yet, it is not easy to define the predicate that captures a given operational model. The question is even harder for the asynchronous case, as unbounded message delay means the implementation of rounds must depend on details of the model. This paper shows that characterising asynchronous models by heard-of predicates is indeed meaningful. This characterization relies on delivered predicates, an intermediate abstraction between the informal operational model and the heard-of predicates. Our approach splits the problem into two steps: first extract the delivered model capturing the informal model, and then characterize the heard-of predicates that are generated by this delivered model. For the first part, we provide examples of delivered predicates, and an approach to derive more. It uses the intuition that complex models are a composition of simpler models. We define operations like union, succession or repetition that make it easier to derive complex delivered predicates from simple ones while retaining expressivity. For the second part, we formalize and study strategies for when to change rounds. Intuitively, the characterizing predicate of a model is the one generated by a strategy that waits for as much messages as possible, without blocking forever.


    Volume: Volume 17, Issue 3
    Published on: September 17, 2021
    Accepted on: August 15, 2021
    Submitted on: November 28, 2020
    Keywords: Computer Science - Distributed, Parallel, and Cluster Computing
    Funding:
      Source : OpenAIRE Graph
    • PARameterized DIstributed Systems Verification; Funder: French National Research Agency (ANR); Code: ANR-16-CE25-0006

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