Digital Platform for Supercomputer Mathematical Modeling of Spraying Processes
Main Article Content
Abstract
The work presents a digital platform for supercomputer modeling the problems of spraying the particles on substrates. The purpose of this work is to discuss the general architecture, technology stack and implementation features of the platform's user interface. The platform is based on web technologies for access and management of calculations, which allow implementing a user system for conducting a full cycle of a computational experiment, including the configuration of applied applications, their launch on remote computing resources, monitoring the completion of tasks, analysis and interactive visualization of results. User interaction with computing resources is implemented through the graphical interface that does not require the client computer to have any additional software, except actual version of a modern web browser. An important advantage of the platform is the ability to make large-scale computer research in a multi-user mode that is based on the natural principles of building client-server applications. The presented digital web platform was successfully tested on computing clusters of the KIAM RAS in solving a number of the topical mathematical problems of nanotechnology. Also, with its help, for the last 3 years, group training of MIPT students in modern information technologies has been carried out.
Article Details
References
2. Puzyrkov D.V., Podryga V.O., Polyakov S.V. Cloud service for HPC management: ideas and appliance // Lobachevskii Journal of Mathematics. 2018. V. 39, No. 9. P. 1251–1261. https://doi.org/10.1134/S1995080218090172
3. The web framework for perfectionists with deadlines | Django. URL: https://www.djangoproject.com/
4. Vue.js–The Progressive JavaScript Framework | Vue.js. URL: https://vuejs.org/
5. About | Node.js. URL: https://nodejs.org/en/about/
6. Express – Node.js web application framework. URL: https://expressjs.com/
7. Passport.js. URL: https://www.passportjs.org/
8. Sequelize | Feature-rich ORM for modern TypeScript & JavaScript. URL: https://sequelize.org/
9. SQLite Home Page. URL: https://sqlite.org/index.html
10. RFC 6455 – The WebSocket Protocol. URL: https://datatracker.ietf.org/doc/html/rfc6455
11. ws: a Node.js WebSocket library. URL: https://github.com/websockets/ws
12. nginx. URL: https://nginx.org/
13. The Official YAML Web Site. URL: https://yaml.org/
14. Quasar Framework. URL: https://quasar.dev/
15. Home | Vue Router. URL: https://router.vuejs.org/
16. What is Vuex? | Vuex. URL: https://vuex.vuejs.org/
17. Web | ParaView. URL: https://www.paraview.org/web/
18. ParaViewWeb. URL: http://kitware.github.io/paraviewweb/
19. Visualizer. URL: https://kitware.github.io/visualizer/
20. Бондаренко А.А., Кононов Э.М., Косолапов О.А., Поляков С.В., Якобовский М.В. Программный комплекс GIMM_NANO // Научный сервис в сети Интернет: все грани параллелизма: Труды Международной суперкомпьютерной конференции (23–28 сентября 2013 г., г. Новороссийск). М.: Изд-во МГУ, 2013. С. 333–337. URL: http://agora.guru.ru/abrau2013/pdf/333.pdf
21. Поляков С.В., Подрыга В.О., Пузырьков Д.В., Кудряшова Т.А. Суперкомпьютерное молекулярное моделирование газодинамического напыления наночастиц на подложку // Суперкомпьютерные дни в России: Труды международной конференции (24–25 сентября 2018 г., г. Москва). М.: Изд-во МГУ, 2018. С. 782–792. URL: http://russianscdays.org/files/pdf18/782.pdf
22. Podryga V.O., Polyakov S.V. Multiscale mathematical modeling of the metal nanoparticles motion in a gas flow // In: Dimov I., Farago I., Vulkov L. (eds). Seventh International Conference on Finite Difference Methods. Theory and Applications. FDM 2018. Lecture Notes in Computer Science. Cham: Springer, 2019. V. 11386. P. 387–394. https://doi.org/10.1007/978-3-030-11539-5_44
23. Puzyrkov D., Podryga V., Polyakov S., Iakobovskii M. KIAM_JOB_CONTROL task management environment and its application to cloud and GRID computing) // Selected Papers of the 7th International Conference Distributed Computing and Grid-technologies in Science and Education (GRID 2016), ed. by V. Korenkov, T. Zaikina, F. Nechaevskiy, July 4–9, 2016, Dubna, Russia. CEUR Workshop Proceedings. 2017. V. 1787. P. 416–422. URL: http://ceur-ws.org/Vol-1787/416-422-paper-72.pdf
24. Kornilina M.A., Podryga V.O., Polyakov S.V., Puzyrkov D.V., Yakobovskiy M.V. Cloud service for solution of promising problems of nanotechnology // Supercomputing Frontiers and Innovations. 2017. V. 4, No. 4. P. 66–79. https://doi.org/10.14529/jsfi170405
25. Polyakov S.V., Podryga V.O., Kudryashova T.A. HPC simulation of non-linear processes in microsystems gas-metal // Lobachevskii Journal of Mathematics. 2020. V. 41, No. 8. P. 1554–1562. https://doi.org/10.1134/S1995080220080168
26. Podryga V.O., Polyakov S.V., Tarasov N.I. Developing of multiscale approach to HPC-simulation of multiphase fluid flows // Lobachevskii Journal of Mathematics. 2021. V. 42, No. 11. P. 2626–2636. https://doi.org/10.1134/S1995080221110160
27. Tarasov N., Karamzin Yu., Kudryashova T., Podryga V., Polyakov S. Computer modeling of air flows purification using sorption filters // Journal of Physics: Conf. Series. 2021. V. 2028. Paper 012025 (7 p.). https://doi.org/10.1088/1742-6596/2028/1/012025
28. Kudryashova T.A., Polyakov S.V., Tarasov N.I. Mathematical modelling of electrophysical water treatment // Defect and Diffusion Forum. 2021. V. 412. P. 149–162. https://doi.org/10.4028/www.scientific.net/DDF.412.149
This work is licensed under a Creative Commons Attribution 4.0 International License.
Presenting an article for publication in the Russian Digital Libraries Journal (RDLJ), the authors automatically give consent to grant a limited license to use the materials of the Kazan (Volga) Federal University (KFU) (of course, only if the article is accepted for publication). This means that KFU has the right to publish an article in the next issue of the journal (on the website or in printed form), as well as to reprint this article in the archives of RDLJ CDs or to include in a particular information system or database, produced by KFU.
All copyrighted materials are placed in RDLJ with the consent of the authors. In the event that any of the authors have objected to its publication of materials on this site, the material can be removed, subject to notification to the Editor in writing.
Documents published in RDLJ are protected by copyright and all rights are reserved by the authors. Authors independently monitor compliance with their rights to reproduce or translate their papers published in the journal. If the material is published in RDLJ, reprinted with permission by another publisher or translated into another language, a reference to the original publication.
By submitting an article for publication in RDLJ, authors should take into account that the publication on the Internet, on the one hand, provide unique opportunities for access to their content, but on the other hand, are a new form of information exchange in the global information society where authors and publishers is not always provided with protection against unauthorized copying or other use of materials protected by copyright.
RDLJ is copyrighted. When using materials from the log must indicate the URL: index.phtml page = elbib / rus / journal?. Any change, addition or editing of the author's text are not allowed. Copying individual fragments of articles from the journal is allowed for distribute, remix, adapt, and build upon article, even commercially, as long as they credit that article for the original creation.
Request for the right to reproduce or use any of the materials published in RDLJ should be addressed to the Editor-in-Chief A.M. Elizarov at the following address: amelizarov@gmail.com.
The publishers of RDLJ is not responsible for the view, set out in the published opinion articles.
We suggest the authors of articles downloaded from this page, sign it and send it to the journal publisher's address by e-mail scan copyright agreements on the transfer of non-exclusive rights to use the work.