This study explores an approach to modeling heat conduction in composite materials using high-performance computing methods. The solution of a complex mathematical problem is decomposed into multiple independent processes through the MPI method to maximize computational efficiency. The model structure accounts for the properties of the composite material and its components. The finite element method (FEM) is applied to study the thermal properties. Computational results demonstrate the high efficiency and accuracy of the proposed approach, confirming its relevance for both scientific research and educational purposes.
- Electronic resource: Open MPI documentation. [Access mode]: https://www.open-mpi.org/doc/
- Electronic resource: Fenics documentation. [Access mode]: https://fenicsproject.org/documentation/
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- Finite Element Method in Heat Transfer Analysis. Engineering Computation, 2019.
- Jaworski N., Lobyr M., Matviykiv O., Farmaga I., Marikutsa U. Synthesis of effective thermal characteristics of anodic alumina by the microlevel cellular composite materials model // Microtechnology and thermal problems in electronics, MICROTHERM 2017: official proceedings of international conference, June 27 –29 2017, Lodz, Poland. – 2017. – P.26–28.
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