Analysis of Performance and Features of the Functioning of Microfrontends
( Pp. 25-35)
More about authors
Yudin Alexander V.
Dr. Sci. (Econ.), Cand. Sci. (Phys.-Math.); associate professor, Department of Enterprise Programming, Institute of Advanced Technologies and Industrial Programming
MIREA – Russian Technological University
Moscow, Russian Federation Makievskiy Stanislav E. assistant, Department of Enterprise Programming, Institute of Advanced Technologies and Industrial Programming; MIREA – Russian Technological University; Moscow, Russian Federation. Adyshkin Sergey S. lecturer, Department of Enterprise Programming, Institute of Advanced Technologies and Industrial Programming; MIREA – Russian Technological University; Moscow, Russian Federation. Grosheva Polina Yu. Cand. Sci. (Econ.); associate professor, Department of Enterprise Programming, Institute of Advanced Technologies and Industrial Programming; MIREA – Russian Technological University; Moscow, Russian Federation
MIREA – Russian Technological University
Moscow, Russian Federation Makievskiy Stanislav E. assistant, Department of Enterprise Programming, Institute of Advanced Technologies and Industrial Programming; MIREA – Russian Technological University; Moscow, Russian Federation. Adyshkin Sergey S. lecturer, Department of Enterprise Programming, Institute of Advanced Technologies and Industrial Programming; MIREA – Russian Technological University; Moscow, Russian Federation. Grosheva Polina Yu. Cand. Sci. (Econ.); associate professor, Department of Enterprise Programming, Institute of Advanced Technologies and Industrial Programming; MIREA – Russian Technological University; Moscow, Russian Federation
Abstract:
Microfrontends represent a trend in the development of the visible part of a web application (frontend), which consists in breaking a monolithic application into separate, semantically independent blocks, developed independently of each other. Each component of a web page or application operates according to specially designed logic, and each of them can be developed, tested and deployed as a standalone application. The main goal of this approach is to facilitate the support and development of large applications that are worked on by different teams. Dividing large projects (“monoliths”) into smaller components has become a traditional approach to reducing the complexity of developing and maintaining software systems. The article examines the features of microfrontends, presents the results of an analysis of the performance of the most popular frameworks for creating microfrontends, and also identifies the features of the microfrontend development team.
How to Cite:
Yudin A.V., Makievskiy S.E., Adyshkin S.S., Grosheva P.Yu. Analysis of Performance and Features of the Functioning of Microfrontends. Computational Nanotechnology. 2024. Vol. 11. No. 1. Pp. 25–35. (In Rus.) DOI: 10.33693/2313-223X-2024-11-1-25-35. EDN: DPSYMQ
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Conway M.E. How do committees invent? Datamation. 1967.
Männistö J., Tuovinen A., Raatikainen M. Experiences on a framework less micro-frontend architecture in a small organization. In: IEEE 20th International Conference on Software Architecture Companion (ICSA-C). 2023. Pp. 61–67. DOI: 10.1109/ICSA-C57050.2023.00025.
Newman S. Building microservices. Sebastopol, CA: O’Reilly Media, Inc., 2015.
Nishizu Yu., Kamina T. Implementing micro frontends using signal-based web components. Journal of Information Processing. 2022. Issue 30. Pp. 505–512. DOI: 10.2197/ipsjjip.30.505.
Peltonen S., Mezzalira L., Taibi D. Motivations, benefits, and issues for adopting micro-frontends: A multivocal literature review. Information and Software Technology. 2021. DOI: 10.1016/j.infsof.2021.106571.
Taibi D., Mezzalira L. Micro-frontends: Principles, implementations, and pitfalls. ACM SIGSOFT Software Engineering Notes. 2022. Issue 47. Pp. 25–29. DOI: 10.1145/3561846.3561853.
Wang D., Yang D., Zhou H. et al A novel application of educational management information system based on micro frontends. Procedia Computer Science. 2020. Issue 176. Pp. 1567–1576. DOI: 10.1016/j.procs.2020.09.168.
Wanjala S. A framework for implementing micro frontend architecture. International Journal of Web Engineering and Technology. 2022. DOI: 17.337.10.1504/IJWET.2022.10054340.
Zhou J., Yang L., Wu J. Micro-frontend architecture base. In: 6th International Conference on Computer Information Science and Application Technology (CISAT 2023). 2023. DOI: 37.10.1117/12.3003818.
Vershinin E.V., Polyakov R.A., Isaev A.B.U. Techniques for implementing links between parts of an information system with micro frontend architecture. Electronic Journal: Science, Technology and Education. 2022. No. 3 (38). Pp. 15–19. (In Rus.)
Gamma E., Helm R., Johnson R., Vlissides J. Techniques of object-oriented design. Design patterns. St. Petersburg: Piter, 2001.
Kim P.E., Kashapov K.G., Golikova E.A. Comparison of tools for the implementation of micro-frontends (microservices) with integration during the assembly of SPA web applications. Scientific and Technical Innovations and Web Technologies. 2023. No. 2. Pp. 33–38. (In Rus.)
Meyer B. Object-oriented design of software systems. Transl. from English. Moscow: Russian Edition, 2005.
Prokofiev A.P. Features of microfrontend architecture. Innovations. Science. Education. 2022. No. 50. Pp. 2126–2132. (In Rus.)
Keywords:
microfrontend, distributed interface technology, tools and methods of construction, technologies used, frameworks.
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