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Service-oriented multiagent control of distributed computations. (English. Russian original) Zbl 1338.93148
Autom. Remote Control 76, No. 11, 2000-2010 (2015); translation from Avtom. Telemekh. 2015, No. 11, 118-131 (2015).
Summary: Consideration was given to the multiagent methods and toolkits for efficient control of the job flows generated by the service-oriented applications. These designs were integrated within the framework of a unique technology supporting automation of solution of large scientific problems in the up-to-date cluster Grid whose computing nodes (clusters) can be of an involved hybrid structure. The novelty and practical significance of the methods and tools described in the paper lie in essential extension of the functionality of the computation control system of the cluster Grid, as compared with the existing ones, distribution and sharing of the Grid resources at various levels of job execution, and possibility of integrating intelligent computation control tools in the problem-oriented applications.

93B40 Computational methods in systems theory (MSC2010)
68T42 Agent technology and artificial intelligence
90B22 Queues and service in operations research
Full Text: DOI
[1] Rajkumar Buyya, R., Vecchiola, C., and Selvi, S.T., Mastering Cloud Computing, Burlington: Morgan Kaufmann, 2013.
[2] Foster, I., Globus toolkit version 4: software for service-oriented systems, 2-13, (2006)
[3] Streit, A.; Bala, P.; Beck-Ratzka, A.; etal., UNICORE 6—recent and future advancements, (2010)
[4] Binsztok, H., Koprowski, A., and Swarczewskaja, I., Opa: Up and Running, Sebastopol: O’Reilly, 2013.
[5] Astaf’ev, A.S.; Afanas’ev, A.P.; Lazarev, I.V.; etal., Scientific service-oriented environment based on the web technologies and distributed computation. scientific service in Internet: scaling, parallellelism, efficiency, 463-467, (2009)
[6] Bukhanovskii, A.V.; Koval’chuk, S.V.; Mar’in, S.V., Intelligent high-performance program complexes for modeling of complicated systems: concept, architechture, and examples of realizations, Izv. Vyssh. Uchebn. Zaved., Priborostr., 52, 5-24, (2009)
[7] Herrera, J.; Huedo, E.; Montero, R.; etal., Porting of scientific applications to grid computing on gridway, Sci. Program., 13, 317-331, (2005)
[8] Kovalenko, V.N., Complex software of the computing-type grid, (2007)
[9] Durfee, E.H.; Weiss, G. (ed.), Distributed problem solving and planning, 121-164, (1999), Massachusetts
[10] Market-Oriented Grid and Utility Computing, Buyya, R. and Bubendorfer, K., Eds., New Jersey: Wiley, 2010.
[11] Toporkov, V.V., Modeli raspredelennykh vychislenii (Models of Distributed Computations), Moscow: Fizmatlit, 2004. · Zbl 1078.68010
[12] Bychkov, I.V.; Oparin, G.A.; Feoktistov, A.G.; etal., The distribution of jobs in the integrated cluster system on the basis of their classification, Vychisl. Tekhnol., 18, 25-32, (2013)
[13] Bogdanova, V.G.; Bychkov, I.V.; Korsukov, A.S.; Oparin, G.A.; Feoktistov, A.G., Multiagent approach to controlling distributed computing in a cluster grid system, J. Comput. Syst. Sci. Int., 53, 713-722, (2014) · Zbl 1307.93022
[14] Oparin, G.A.; Novopashin, A.P.; Sidorov, I.A.; etal., Metamonitoring system for high-performance computing environment, Program. Prod. Sist., 2, 45-48, (2014)
[15] Boev, V.D., Modelirovanie sistem. Instrumental’nye sredstva GPSS World (System Modeling. Tools of GPSS World), St. Petersburg: BKHV-Peterburg, 2004.
[16] Sholomov, L.A., Logicheskie metody issledovaniya diskretnykh modelei vybora (Logic Methods to Study Discrete Choice Models), Moscow: Nauka, 1989. · Zbl 0662.90001
[17] Czajkowski, K., Ferguson, D.F., Foster, I., et al., The WS-Resource Framework. Version 1.0, http://www.globus.org/wsrf/specs/ws-wsrf.pdf.
[18] Bychkov, I.V.; Oparin, G.A.; Feoktistov, A.G.; etal., The service-oriented approach to distributed computing on the basis of the toolkit DISCENT, Inform. Tekhnol. Komput. Sist., 2, 7-15, (2014)
[19] Kundu, P.; Das, D.; Ratha, B., WSDL specification of services for service oriented architecture (SOA) based implementation of a CRM process, Int. J. Sci. Engin. Res., 3, 1-24, (2012)
[20] Fielding, R.T., Architectural styles and the design of network-based software architectures, (2000)
[21] Walsh, A., UDDI, SOAP and WSDL: The Web Services Specification Reference Book, Upper Saddle River: Prentice Hall, 2002.
[22] Henderson, R., Job scheduling under the portable batch system, 279-294, (1995), New York
[23] Litzkow, M.; Livny, M.; Mutka, M., Condor—A Hunter of idle workstations, 104-111, (1988)
[24] Wilkinson, J.X. and Reinsch, C., Handbook for Automatic Computation, vol. II: Linear Algebra, New York: Shpringer, 1971. · Zbl 0219.65001
[25] Bychkov, I.V.; Oparin, G.A.; Feoktistov, A.G.; etal., Service-oriented approach to multiagent control of distributed computing, 8942-8953, (2014)
[26] Oparin, G.A.; Feoktistov, A.G.; Bogdanova, V.G.; etal., The solution of Boolean equations of high dimensionality in the distributed computing environment, 65, (2004)
[27] Oparin, G.A.; Bogdanova, V.G., REBUS—intellectual solver for combinatorial problems in Boolean constraints, Vestn. NGU, Inform. Tekhnol., 6, 60-68, (2008)
[28] Oparin, G.A.; Bogdanova, V.G., Parallel computing toolkit for solving Boolean equations on multicore processors, Program. Prod. Sist., 1, 10-14, (2012)
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