Abstract
The chapter sums up the impact of some parameters defining the process of migration of data between asynchronous team of agents (A-Team) working in parallel in the architecture designed for solving difficult combinatorial optimization problems. A-Teams cooperate through exchange of intermediary computation results. The process of forwarding a result from one A-Team to another is called migration. Several known migration models have been compared, with different topologies and frequencies of migration. Also, an original model of communication has been proposed. The model, called Randomized, has no predefined migration topology, each A-Team sends data to another A-Team that is chosen at random. In this model migration is non-periodic and triggered only after an A-Team failed to improve its best current solution within a predefined time. All considered models, differing in migration topologies and frequencies, have been tested on instances of the Euclidean planar traveling salesman problem. The proposed model, Randomized, outperforms all other models under investigation, producing significantly better results.
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Holk: 256 Intel Itanium 2 Dual Core with 12 MB L3cache processors, 2,3 TB total system memory, 4 TB disk storage. Mellanox InfiniBand interconnect with 10 Gb/s bandwidth. See http://www.task.gda.pl/english/hpc
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Acknowledgments
Calculations have been performed in the Academic Computer Centre TASK in Gdansk. The research has been supported by the Ministry of Science and Higher Education no. N N519 576438 for years 2010-2013.
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Jȩdrzejowicz, P., Wierzbowska, I. (2014). Impact of Migration Topologies on Performance of Teams of Agents. In: Tweedale, J., Jain, L. (eds) Recent Advances in Knowledge-based Paradigms and Applications. Advances in Intelligent Systems and Computing, vol 234. Springer, Cham. https://doi.org/10.1007/978-3-319-01649-8_8
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