350 rub
Journal Information-measuring and Control Systems №1-2 for 2022 г.
Article in number:
Synthesis of a high-performance computing complex of forecasting technical state of real-time informational-management systems
Type of article: scientific article
DOI: https://doi.org/10.18127/20700814-202201-09
UDC: 681.324
Authors:

V.S. Zabuzov1, D.I. Kazantsev2, A.F. Pokora3

1–3Military Space academy named after A.F. Mozhaisky (Saint Petersburg, Russia)

Abstract:

The solution of the problem of increasing the efficiency of decision-making in managing the operation of information and control systems depends not least on the performance of computer systems of diagnostic systems when processing a significant amount of data on their technical condition. The article presents the calculation of the performance of a computer element of a specialized computer complex, the performance of which allows you to quickly forecast the technical condition of functional systems and provide solutions to the problems of information support for decision-making by service personnel. To confirm the effectiveness of the method of synthesis of a high-performance computing complex for solving the problem of predicting the technical condition, the results of a computational experiment are presented in the framework of the study.

Pages: 90-100
For citation

Zabuzov V.S., Kazantsev D.I., Pokora A.F. Synthesis of a high-performance computing complex of forecasting technical state of real-time informational-management systems. Information-measuring and Control Systems. 2022. V. 20. № 1‑2. P. 90−100. DOI: https://doi.org/10.18127/j20700814-202201-09 (in Russian)

References
  1. Ukaz Prezidenta RF ot 10.10.2019. № 490 «O razvitii iskusstvennogo intellekta v Rossiiskoi Federatsii» (vmeste s «Natsionalnoi strategiei razvitiya iskusstvennogo intellekta na period do 2030 g.»). Ssylka na resurs http://www.consultant.ru/document/cons_doc_LAW_335184/. (in Russian)
  2. Kazantsev D.I., Lisitskii V.V., Pankratov V.A., Timoshenko A.V. Metodika sinteza vysokoproizvoditelnogo vychislitelnogo kompleksa dlya resheniya zadachi prognozirovaniya tekhnicheskogo sostoyaniya informatsionno-upravlyayushchikh sistem. Doklady TUSURa. 2021. № 2. S. 78−89. (in Russian)
  3. Ponomarev V.A. Matematicheskie modeli proizvoditelnosti, nadezhnosti i stoimosti funktsionirovaniya sistemy khraneniya deduplitsirovannykh dannykh na SSD-diskakh. IVD. 2019. № 6 (57). (in Russian)
  4. Lisitskii V.V., Shestopalova O.L. Upravlenie obespecheniem zhiznennogo tsikla territorialno raspredelennykh slozhnykh tekhnicheskikh sistem. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2018. № 10. S. 366−376. (in Russian)
  5. Basyrov A.G., Kazantsev D.I., Shushakov A.O. Model funktsionirovaniya kompleksa sredstv avtomatizatsii na osnove virtualizatsii vychislitelnykh resursov s uchetom kharakteristiki rabochei nagruzki. Trudy Voenno-kosmicheskoi akademii imeni A.F. Mozhaiskogo. 2019. № 671. S. 15−25. (in Russian)
  6. Mironov A.N., Lisitskii V.V. Metod mnogokriterialnoi nelineinoi optimizatsii slozhnykh organizatsionno-tekhnicheskikh sistem na osnove minimizatsii nevyazok v usloviyakh vremennykh ogranichenii. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2019. № 9. S. 330−343. (in Russian)
  7. Mironov A.N., Lisitskii V.V., Shestopalova O.L. Svoistva metoda mnogokriterialnoi nelineinoi optimizatsii slozhnykh organizatsionno-tekhnicheskikh sistem na osnove minimizatsii nevyazok v usloviyakh vremennykh ogranichenii. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2020. № 4. S. 11−19. (in Russian)
  8. Mironov A.N., Lisitskii V.V. Metod mnogokriterialnoi nelineinoi optimizatsii slozhnykh organizatsionno-tekhnicheskikh sistem na osnove minimizatsii nevyazok v usloviyakh vremennykh ogranichenii. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2019. № 9. S. 330−343. (in Russian)
  9. Mironov A.N., Lisitskii V.V., Shestopalova O.L. Svoistva metoda mnogokriterialnoi nelineinoi optimizatsii slozhnykh organizatsionno-tekhnicheskikh sistem na osnove minimizatsii nevyazok v usloviyakh vremennykh ogranichenii. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2020. № 4. S. 11−19. (in Russian)
  10. Kazantsev D.I., Karytko A.A., Rodionov E.A. Metodika testirovaniya proizvoditelnosti vychislitelnykh sistem, razvernutykh na osnove tekhnologii virtualizatsii. Trudy Voenno-kosmicheskoi akademii imeni A.F. Mozhaiskogo. 2019. № 667. S. 309−319. (in Russian)
  11. Mironov A.N., Lisitskii V.V. Metod mnogokriterialnoi nelineinoi optimizatsii slozhnykh organizatsionno-tekhnicheskikh sistem na osnove minimizatsii nevyazok v usloviyakh vremennykh ogranichenii. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2019. № 9. S. 330−343. (in Russian)
  12. Belaya T.I., Zabuzov V.S., Kazantsev D.I., Shvetsov A.S. Sposob organizatsii kontrolya kachestva obsluzhivaniya v info-telekommunikatsionnoi seti na primere VKA imeni A.F. Mozhaiskogo. Nauchnyi obozrevatel. 2014. № 12. S. 56−57. (in Russian)
  13. Esaulov K.A., Zabuzov V.S., Kazantsev D.I. Povyshenie dostupnosti servisov putem sozdaniya rekonfiguriruemoi sistemy s ispolzovaniem sredstv virtualizatsii. Vestnik rossiiskogo novogo universiteta. Ser. Slozhnye sistemy: modeli, analiz i upravlenie. 2015. № 2. S. 83−86. (in Russian)
  14. Goncharenko V.A., Zabuzov V.S. Minimizatsiya vremeni vosstanovleniya informatsionno-vychislitelnoi seti na osnove optimizatsii vremeni setevogo monitoringa. Trudy Voenno-kosmicheskoi akademii imeni A.F. Mozhaiskogo. 2015. № 649. S. 72−78. (in Russian)
  15. Zabuzov V.S., Kazantsev D.I. Metodika povysheniya operativnosti monitoringa tekhnicheskogo sostoyaniya infotelekommunikatsionnykh setei. Trudy Voenno-kosmicheskoi akademii imeni A.F. Mozhaiskogo. 2016. № 655. S. 24−33. (in Russian)
  16. Zabuzov V.S., Kalyuzhnyi A.V. Metodika vybora parametrov monitoringa tekhnicheskogo sostoyaniya raspredelennoi informatsionno-vychislitelnoi sistemy. Vestnik rossiiskogo novogo universiteta. Ser. Slozhnye sistemy: modeli, analiz i upravlenie. 2020. № 1. S. 146−151. (in Russian)
Date of receipt: 26.01.2022
Approved after review: 09.02.2022
Accepted for publication: 21.02.2022