Comparative Analysis of Microservice and Serverless Technology
Building Automatic Design Systems for Calculating the Instability
of the Static Mode of Nonlinear Electronic Circuits

V. N. Gridin; Гридин В. Н.; V. I. Anisimov; Анисимов В. И.; S. A. Vasiliev; Васильев С. А.

doi:10.31857/S0033849423120082

Comparative Analysis of Microservice and Serverless Technology Building Automatic Design Systems for Calculating the Instability of the Static Mode of Nonlinear Electronic Circuits

Autores: Gridin V.¹, Anisimov V.¹^,2, Vasiliev S.¹^,2
Afiliações:
1. Center of Information Technologies in Design, Russian Academy of Sciences
2. St. Petersburg State Electrotechnical University LETI
Edição: Volume 68, Nº 12 (2023)
Páginas: 1230-1235
Seção: ФИЗИЧЕСКИЕ ПРОЦЕССЫ В ЭЛЕКТРОННЫХ ПРИБОРАХ
URL: https://journals.rcsi.science/0033-8494/article/view/243615
DOI: https://doi.org/10.31857/S0033849423120082
EDN: https://elibrary.ru/GKPNZW
ID: 243615

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Resumo

Methods for constructing distributed automation systems for circuit design to calculate the instability of the coordinates of the operating points of the static mode of nonlinear electronic circuits were considered. Two-terminal networks of type R and transmission parameters of dependent sources, as well as characteristics
of external influences (temperature, radiation, etc.) are taken as components that change under the influence of external factors. To solve the problem of calculating the instability of the coordinates of the operating points of the static mode of nonlinear electronic circuits, a technique is proposed based on the use of an auxiliary circuit, which is constructed by transposing the description of the original circuit. The features of the organization of serverless and microservice architecture for building circuit design automation systems are analyzed. The multitenant design of a microservice information system environment is described. The mechanism
of operation of the service as a service is presented to ensure the operation of the business logic of the server component.

Bibliografia

Шитько А.М. // Труды БГТУ. Сер. 3: Физико-математические науки и информатика. 2017. № 9 (200). С. 122.
Гордина А.Т., Забродин А.В. // Интеллектуальные технологии на транспорте. 2022. № 1(29). С. 39.
Гордина А.Т., Забродин А.В. // Интеллектуальные технологии на транспорте. 2022. № 1(29). С. 16.
Анисимов В.И., Дмитревич Г.Д., Ежов С.Н. и др. Автоматизация схемотехнического проектирования на мини-ЭВМ. Л.: Изд-во Ленинград. ун-та, 1983.
Сигорский В.П., Петренко А.И. Алгоритмы анализа электронных схем. М.: Сов. радио, 1976.
Ильин В.Н. Основы автоматизации схемотехнического проектирования. М.: Энергия, 1979.
Чуа Л.О., Лин Пен-Мин. Машинный анализ электронных схем. M.: Энергия, 1980.
Влах И., Сингхал К. Машинные методы анализа и проектирования электронных схем. М.: Радио и связь, 1988.
Гридин В.Н., Михайлов В.Б., Шустерман Л.Б. Численно-аналитическое моделирование радиоэлектронных схем. М.: Наука, 2008.
Тарасик В.П. Математическое моделирование технических систем. Минск: Дизайн ПРО, 2004.