Simultaneous Consensus is Harder than Set Agreement in Message PassingReportar como inadecuado




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1 LIP6 - Laboratoire d-Informatique de Paris 6 2 LaBRI - Laboratoire Bordelais de Recherche en Informatique

Abstract : In the traditional consensus task, processes are required to agree on a common value chosen among the initial values of the participants. It is well known that consensus cannot be solved in crashed-prone, asynchronous distributed systems. Two generalizations of the consensus problem have been introduced: k-set agreement and k-simultaneous consensus. The k-set agreement task has the same requirements as consensus except that processes are allowed to decide up to k distinct values. In the k-simultaneous consensus task, each process participates simultaneously in k instances of consensus and is required to decide in at least one of them; any two processes deciding in the same instance must decide the same value. It is known that both tasks are equivalent in the wait-free shared memory model. Perhaps surprisingly, the paper shows that this is no longer the case in the n-process asynchronous message passing model with at most t process crashes. Specifically, the paper establishes that for parameters t, n, k such that t > n+k−2-2 , k-simultaneous consensus is strictly harder than k-set agreement. The proof compares the information on failures necessary to solve each task in the failure detector framework and relies on a result in topological combinatorics, namely, the chromatic number of Kneser graphs. The paper also introduces the new failure detector class V Σk , which is a generalization of the quorum failures detector class Σ suited to k-simultaneous consensus.





Autor: Zohir Bouzid - Corentin Travers -

Fuente: https://hal.archives-ouvertes.fr/



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