Institute of Mathematics and Informatics , Akademijos 4, Vilnius, 2600, Lithuania ; Vilnius Gediminas Technical University , Sauletekio St. 11, Vilnius, 2054, Lithuania
This paper deals with a system of nonlinear differential equations, which describe the interaction of two focused laser beams in nonlinear media. The system of equations is approximated by a splitting finite difference scheme. A parallel version of the finite‐difference scheme is proposed and the efficiency of this algorithm is investigated. Calculations are performed using clusters of computers, connected via local computer network. The emphasis is made on solving this problem on heterogeneous clusters. In the paper a static distribution scheme is analyzed. The results of several computational experiments are presented. Data redistribution during an initial phase of computation is investigated and the influence of slow communication among the processes is taken into account during this analysis.
Netiesinės optikos uždavinio lygiagretusis skaičiavimo algoritmas
Santrauka. Straipsnyje sprendžiama netiesinių diferencialinių lygčių sistema, aprašanti lazerio spindulių sąveiką netiesinėje terpėje. Sudaryta diskrečioji išskaidymo schema bei pateikta lygiagrečioji algoritmo versija. Ištirtas lygiagrečiojo algoritmo efektyvumas. Skaičiavimai atlikti virtualiajame kompiuterių, sujungtų lokaliuoju tinklu, klasteryje. Išsamiai tiriamas algoritmo efektyvumas heterogeniniams lygiagretiesiems kompiuteriams. Duomenų paskirstymui naudojamas statinis paskirstymo metodas. Pateikti ir išanalizuoti duomenų perskirstymo algoritmai, pagerinantys darbo paskirstymo tolygumą pradinėje skaičiavimu fazėje. Teorinėje analizėje atsižvelgiama į duomenų perdavimo kaštus.
Čiegis, R., Dement’ev, A., & Rate, P. (1999). A parallel algorithm for solving one problem of nonlinear optics. Mathematical Modelling and Analysis, 4(1), 58-69. https://doi.org/10.3846/13926292.1999.9637111
Authors who publish with this journal agree to the following terms
that this article contains no violation of any existing copyright or other third party right or any material of a libelous, confidential, or otherwise unlawful nature, and that I will indemnify and keep indemnified the Editor and THE PUBLISHER against all claims and expenses (including legal costs and expenses) arising from any breach of this warranty and the other warranties on my behalf in this agreement;
that I have obtained permission for and acknowledged the source of any illustrations, diagrams or other material included in the article of which I am not the copyright owner.
on behalf of any co-authors, I agree to this work being published in the above named journal, Open Access, and licenced under a Creative Commons Licence, 4.0 https://creativecommons.org/licenses/by/4.0/legalcode. This licence allows for the fullest distribution and re-use of the work for the benefit of scholarly information.
For authors that are not copyright owners in the work (for example government employees), please contact VILNIUS TECHto make alternative agreements.