Abstract
We study the partially eponymous model of distributed computation, which simultaneously generalizes the anonymous and the eponymous models. In this model, processors have identities, which are neither necessarily all identical, nor necessarily unique; processors receive inputs and must reach outputs that respect a relation. We focus on the partially eponymous ringR, and we are interested in the computation of circularly symmetric relations on it.
∙ We distinguish between solvability and computability: in solvability, processors must always reach outputs that respect the relation; in computability, they must reach outputs that respect the relation whenever possible, and report impossibility otherwise.
– We provide an efficient characterization of solvability of an arbitrary (circularly symmetric) relation on an arbitrary set of rings. The characterization is topological and can be expressed as a number-theoretic property that can be checked efficiently.
– We present a universal distributed algorithm for computing any arbitrary (circularly symmetric) relation on any set of rings.
∙ Towards obtaining message complexity bounds, we derive a distributed algorithm for a natural generalization of Leader Election, in which a (non-zero) number of leaders are elected. We use this algorithm as a subroutine of our universal algorithm for collecting views; hence, we prove, as our main result, an upper bound on the message complexity of this particular instantiation of our universal algorithm to compute an arbitrary (circularly symmetric) relation on an arbitrary set of rings. The shown upper bound demonstrates a graceful degradation with the Least Minimum Base, a parameter indicating the degree of topological compatibility between the relation and the set of rings. We employ this universal upper bound to identify two interesting cases where an arbitrary relation can be computed with an efficient number of \(O(|R| \cdot \lg |R|)\) messages: The set of rings is universal (which allows the solvability of Leader Election), or logarithmic (where each identity appears at most \(\lg |R|\) times).
This work has been partially supported by the IST Program of the European Union under contract number IST-15964 (AEOLUS).
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Mavronicolas, M., Michael, L., Spirakis, P. (2006). Computing on a Partially Eponymous Ring. In: Shvartsman, M.M.A.A. (eds) Principles of Distributed Systems. OPODIS 2006. Lecture Notes in Computer Science, vol 4305. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11945529_27
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DOI: https://doi.org/10.1007/11945529_27
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