Abstract
The design process of a transformer is characterized by conflicting requirements for its qualities. This circumstance is due to the fact that the transformer includes a large number of elements and is manufactured on individually tuned equipment. Moreover, the production of transformers is associated with the cost of such valuable materials as copper, aluminum, steel, etc. Thus, the transformer is a complex system, the high-quality design of which is difficult without automation. It is proposed to speed up the process of calculating the internal isolation of a transformer using a parallel computing environment and the use of fast algorithms. Methods of mathematical modeling of physical objects, methods of applied mathematics, principles of computer modeling of physical objects, algorithms for parallelizing the computing process in interfaces with shared memory, analysis of the results of computational experiments are applied. A software system has been developed for the automated design of the internal isolation of the high-voltage input of the transformer...
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