Título : On the Bit Complexity of Iterated Memory
Autor(es) : Toyos-Marfurt, Guillermo
Kuznetsov, Petr
Fecha de publicación : 19-feb-2024
Tipo de publicación: Documento de conferencia
Versión: Publicado
Publicado en: 31st International Colloquium On Structural Information and Communication Complexity (SIROCCO 2024), Vietri sul Mare, June 2024.
Areas del conocimiento : Ciencias Naturales y Exactas
Ciencias de la Computación e Información
Otros descriptores : Distributed systems
Iterated memory models
Theory of computation
Combinatorial topology
Resumen : Computability, in the presence of asynchrony and failures, is one of the central questions in distributed computing. The celebrated asynchronous computability theorem (ACT) charaterizes the computing power of the read-write shared-memory model through the geometric properties of its protocol complex: a combinatorial structure describing the states the model can reach via its finite executions. This characterization assumes that the memory is of unbounded capacity, in particular, it is able to store the exponentially growing states of the full-information protocol. In this paper, we tackle an orthogonal question: what is the minimal memory capacity that allows us to simulate a given number of rounds of the full-information protocol? In the iterated immediate snapshot model (IIS), we determine necessary and sufficient conditions on the number of bits an IIS element should be able to store so that the resulting protocol is equivalent, up to isomorphism, to the full-information protocol. Our characterization implies that n≥3 processes can simulate r rounds of the full-information IIS protocol as long as the bit complexity per process is within Ω(rn) and O(rnlogn). Two processes, however, can simulate any number of rounds of the full-information protocol using only 2 bits per process, which implies, in particular, that just 2 bits per process are sufficient to solve ε-agreement for arbitrarily small ε.
URI / Handle: https://hdl.handle.net/20.500.12381/3685
Otros recursos relacionados: https://doi.org/10.1007/978-3-031-60603-8_25
DOI: https://doi.org/10.48550/arXiv.2402.12484
Institución responsable del proyecto: Institut Polytechnique de Paris
Financiadores: Agencia Nacional de Investigación e Innovación
Mazars Group
Identificador ANII: POS_EXT_2021_1_171849
Nivel de Acceso: Acceso abierto
Licencia CC: Reconocimiento 4.0 Internacional. (CC BY)
Aparece en las colecciones: Publicaciones de ANII

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