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Denisenko V.A., Sotskov V.A.
Development of parallel implementation of the modified Frank- Lobb algorithm for studying of
conductivity of defect 2D lattice with ties division
// Software systems and computational methods.
2013. ¹ 4.
P. 363-369.
URL: https://en.nbpublish.com/library_read_article.php?id=63911
Denisenko V.A., Sotskov V.A. Development of parallel implementation of the modified Frank- Lobb algorithm for studying of conductivity of defect 2D lattice with ties divisionAbstract: the percolation theory in sufficient details studied how the problem both nodes and links and the mixed problem of percolation theory. However, several experimental processes show the probability variation of the horizontal and vertical communication in the communication lattice structure with defects. In the real physical models such processes may occur, for example, when spraying the conductive material onto the inclined surface or during gradual solidification of the insulating matrix, which contains the micro-charged microparticles of a conductor, and which is placed in the electric or magnetic fields, etc.. In addition, we can expect that the presence of various defects in the structure aff ects both the mechanical and electrical properties of materials. Unfortunately, due to considerable experimental difficulties it is not always possible to determine the exact quantitative relationship between the number of defects and physical parameters. Modeling of the relation between physical parameters and the number of defects for anisotropic links is an important scientific problem. The number of such problems is large and can be of a great practical value in the case of numerical solution of such problems. The aim of this work is to study computer simulation of the combined problem of nodes and links with the division of the probabilities of formation of horizontal and vertical relations and the possibility of adding the Schottky defects into the lattice. The results of the research should be the numerical values of dependencies of the conductivity G of the 2d square grid on the values of probabilities: of the vertical connection P1, horizontal connection P2 and defects N. Keywords: Software, percolation, conductivity, modeling, cluster, high-performance computing, Open MP, MPI, parallel computing
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