Doing-it-All with bounded work and communication

We consider the Do-All problem, where p cooperating processors need to complete t similar and independent tasks in an adversarial setting. Here we deal with a synchronous message passing system with processors that are subject to crash failures. Efficiency of algorithms in this setting is measured i...

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Vydáno v:Information and computation Ročník 254; s. 1 - 40
Hlavní autoři: Chlebus, Bogdan S., Gąsieniec, Leszek, Kowalski, Dariusz R., Schwarzmann, Alexander A.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 01.06.2017
Témata:
Crash failures
Distributed algorithm
Load balancing
Message passing
Ramanujan graphs
Scheduling tasks
Ramanujan graphs
Message passing
Scheduling tasks
Crash failures
Load balancing
Distributed algorithm
ISSN:0890-5401, 1090-2651
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Shrnutí:We consider the Do-All problem, where p cooperating processors need to complete t similar and independent tasks in an adversarial setting. Here we deal with a synchronous message passing system with processors that are subject to crash failures. Efficiency of algorithms in this setting is measured in terms of workcomplexity and communication complexity. When work and communication are considered to be comparable resources, then the overall efficiency is meaningfully expressed in terms of effort defined as work + communication. We develop and analyze a constructive algorithm that has work O(t+plog⁡p(plog⁡p+tlog⁡t)) and a nonconstructive algorithm that has work O(t+plog2⁡p). The latter result is close to the lower bound Ω(t+plog⁡p/log⁡log⁡p) on work. The effort of each of these algorithms is proportional to its work when the number of crashes is bounded above by cp, for some positive constant c<1. We also present a nonconstructive algorithm that has effort O(t+p1.77).
ISSN:0890-5401
1090-2651
DOI:10.1016/j.ic.2017.02.003