Current problems of creation of research infrastructure for synthesis of new materials in the framework of the digital transformation of society

The article discusses the main aspects of the significance of the development of a high-performance environment for scientific research in the conditions of digital transformation, used in solving the problems of synthesis of new materials with desired properties. Some historical facts are given that testify to the enormous role played by Soviet scientists in the creation of computer technology for scientific research. The analysis of the experience of the Federal Research Centre “Information and Control”, RAS in the creation of a modern high-performance platform and its use for scientific research is given. The necessity of its application for solving applied problems related to the selection of new materials in the field of microelectronics is substantiated.

1. Zatsarinnyy A. A., Kiselev E. V., Kozlov S. V., Kolin K. K. Information space of the digital economy of Russia. Conceptual foundations and problems of formation. Moscow: OOO “NIPKTs Voskhod-A”, 2018. 236 p. (In Russ.)

2. Mikhail Mishustin held a meeting on the preparation of a plan for the recovery of the economy, employment and incomes of the population. (In Russ.). URL: http://government.ru/news/39777/

3. Concept for the development of regulation of relations in the field of artificial intelligence technologies and robotics until 2024. Approved by Order of the Government of the Russian Federation of August 19, 2020 No. 2129-r. (In Russ.). URL: http://government.ru/docs/all/129505/

4. Decree of the Government of the Russian Federation of September 15, 2020 No. 1431 “On approval of the Rules for the formation and maintenance of an information model of a capital construction object, the composition of information, documents and materials included in the information model of a capital construction object and submitted in the form of electronic documents, and requirements for formats of these electronic documents, as well as on amending paragraph 6 of the Regulations on the implementation of engineering surveys for the preparation of project documentation, construction, reconstruction of capital construction objects. (In Russ.). URL: http://government.ru/docs/40424/

5. Organisation for Economic Co-operation and Development. URL: https://www.oecd.org/

6. Shvetsov A. N., Rysina V. N. Digital technologies in public administration. Russian aspirations against the background of foreign experience: Collective monograph. Moscow: PolyPrintService, 2019. 60 p. (In Russ.)

7. Zatsarinnyy А. A. About the role of scientific research as part of the digital transformation of society. Social Novelties and Social Sciences. 2020, vol. 1, no. 1, pp. 47—59. (In Russ.). DOI: 10.31249/snsn/2020.01.04

8. World Research Institutions Ranking (WRIR). URL: http://eurochambres.org/wrir/

9. Academician of the Russian Academy of Sciences I. Sokolov: “Faculty of Computational Mathematics and Cybernetics of the Moscow State University is an unconditional demand”. Portal “Scientific Russia”. 08.12.2020. (In Russ.). URL: https://scientificrussia.ru/articles/akademik-ran-i-sokolov-vmk-mgu-eto-bezuslovnaya-vostrebovannost

10. Zatsarinnyy А. A., Abgaryan K. K. Factors determining the relevance of creating a research infrastructure for the synthesis of new materials in the framework of the implementation of the priorities of the scientific and technological development of Russia. Mathematical Modeling in Materials Science of Electronic Component: Proc. I International Conference. Moscow, October 21–23, 2019. Moscow: MAKS Press, 2019. Pp. 8—11. (In Russ.). DOI: 10.29003/m682.MMMSEC-2019

11. Zatsarinny A. A., Abgaryan K. K. Factors determining the relevance of creation research infrastructure for the synthesis of new materials in the framework of the implementation of the priorities of scientific and technological development of Russia. Izvestiya Vysshikh Uchebnykh Zavedenii. Materialy Elektronnoi Tekhniki = Materials of Electronics Engineering. 2019, vol. 22, no. 4, pp. 298—301. (In Russ.). DOI: 10.17073/1609-3577-2019-4-298-301

12. Program of the XXIV Annual Scientific International Conference of the S.I. Vavilov Institute for the History of Science and Technology, RAS. March 19–23, 2018. Moscow: IHST RAS, 2018. 36 p. (In Russ.). URL: http://ihst.ru/publications/iiet-annual-conference/

13. Kaufman B. A story worth rewriting: where the first Soviet computer was actually made. The origins of the first computers in the USSR. Indicator.Ru. 04.17.2018. (In Russ.). URL: https://indicator.ru/mathematics/pervyj-sovetskij-kompyuter.htm

14. Malinovsky B. N. The history of computer technology in faces. Kyiv.: firma “KIT”; PTOO “A.S.K.”, 1995. 384 p. (In Russ.)

15. Anatoly Ivanovich Kitov / Ed. V. V. Shilov and V. A. Kitov. Moscow: MAKS Press, 2020. 688 p. (In Russ.). DOI: 10.29003/m871.kitov

16. Glushkov V. M., Semik V. P. Control system “Dnepr-2”. Mathematical support. Kyiv: RIO In-ta kibernetiki AN USSR, 1968. (In Russ.)

17. Zatsarinny A. A., Kondrashev V. A., Sorokin A. A. Algorithms for managing service-oriented processes of determinate research services in hybrid computing environments of digital platforms. Highly Available Systems. 2020, vol. 16, no. 3, pp. 5—17. (In Russ.). DOI: 10.18127/j20729472-202003-01

18. Zatsarinnyy A. A., Volovich K. I, Kondrashev V. A. Methodological problems of management of Russian Federation scientific and educational organizations science services. In: Proc. XXIII International Scientific and Technical Conference “Radar, navigation, communication”. In 3 vols. Voronezh: OOO “Velborn”, 2017. Pp. 7—14. (In Russ.)

19. Kondrashev V. A. Architecture of the service delivery system for the research services digital platform. Systems and Means of Informatics. 2018, vol. 28, iss. 3, pp. 131—140. (In Russ.). DOI: 10.14357/08696527180310

20. Zatsarinny A. A., Kondrashev V. A., Sorokin A. A. Approaches to the organization of the computing process of a hybrid high-performance computing cluster in the digital platform environment. CEUR Workshop Proc.: 5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019; Computing Center of Far East Branch of the Russian Academy of Science, Khabarovsk, 16–19 September 2019, vol. 2426. Khabarovsk, 2019. Pp. 12—16.

21. Abgaryan K. K. Multiscale modeling in problems of structural materials science. Moscow: MAKS Press, 2017. 284 p. (In Russ.)

22. Abgaryan K. K. Optimization problems of nanosized semiconductor heterostructures. Russian Microelectronics. 2018, vol. 47, no. 8, pp. 583—588. DOI: 10.1134/S1063739718080024

23. Abgaryan K. K. Multiscale modeling of the operation of multilevel memory elements used to create neuromorphic networks. Mathematical Modeling in Materials Science of Electronic Component: Proc. I International Conference. Moscow, October 21–23, 2019. Moscow: MAKS Press, 2019. Pp. 53—55. (In Russ.). DOI: 10.29003/m682.MMMSEC-2019

24. Zhuravlev A. A., Abgaryan K. K., Reviznikov D. L. Discrete element method adopting microstructure information. In: Jain L., Favorskaya M., Nikitin I., Reviznikov D. (Eds) Advances in Theory and Practice of Computational Mechanics. Smart Innovation, Systems and Technologies, vol. 173. Singapore: Springer, 2020. Pp. 225—237. DOI: 10.1007/978-981-15-2600-8_17

25. Abgaryan K. K., Gavrilov E. S. Integration platform for multiscale modeling of neuromorphic systems. Informatics and Applications. 2020, vol. 14, iss. 2, pp. 104—110. (In Russ.). DOI: 10.14357/19922264200215