Development of a software architecture concept for solving singularly perturbed problems in semiconductor electronics

Authors

  • Zakhar Listiev NUWEE
  • Andrii Bomba National University of Water and Environmental Engineering
  • Igor Moroz Rivne State University of Humanities

DOI:

https://doi.org/10.31713/MCIT.2024.032

Keywords:

singularly perturbed problem, domain-driven design, artificial neural network, automated modeling, symbolic computations

Abstract

The software architecture for automated solving of singularly perturbed problems in semiconductor electronics is presented. The system is based on the boundary correction method and domain-driven design (DDD). The developed software architecture integrates an artificial neural network for analyzing types of mathematical subproblems and selecting the most suitable method for solving them. The use of modern information technologies such as parallelization, cloud computing, and symbolic computations enables a new level of automated modeling. The research results demonstrated the effectiveness of the proposed approach in solving complex mathematical problems with singular perturbations.

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Published

2024-12-07

How to Cite

Listiev, Z., Bomba, A., & Moroz, I. (2024). Development of a software architecture concept for solving singularly perturbed problems in semiconductor electronics. Modeling, Control and Information Technologies: Proceedings of International Scientific and Practical Conference, (7), 121–122. https://doi.org/10.31713/MCIT.2024.032

Issue

No. 7 (2024): Modeling, control and information technologies: Proceedings of VII International scientific and practical conference

Section

Software engineering and information technologies

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