Related papers: An Infrastructure Cost Optimised Algorithm for Partitioning of Microservices

An Infrastructure Cost Optimised Algorithm for Partitioning of Microservices

URL: http://arxiv.org/abs/2408.06570v1
Date: Tue, 13 Aug 2024 02:08:59 GMT
Title: An Infrastructure Cost Optimised Algorithm for Partitioning of Microservices
Authors: Kalyani V N S Pendyala, Rajkumar Buyya,
Abstract summary: As migrating applications into the cloud is universally adopted by the software industry, have proven to be the most suitable and widely accepted architecture pattern for applications deployed on distributed cloud. Their efficacy is enabled by both technical benefits like reliability, fault isolation, scalability and productivity benefits like ease of asset maintenance and clear ownership boundaries. In some cases, the complexity of migrating an existing application into the architecture becomes overwhelmingly complex and expensive.
Score: 20.638612359627952
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The evolution and advances made in the field of Cloud engineering influence the constant changes in software application development cycle and practices. Software architecture has evolved along with other domains and capabilities of software engineering. As migrating applications into the cloud is universally adopted by the software industry, microservices have proven to be the most suitable and widely accepted architecture pattern for applications deployed on distributed cloud. Their efficacy is enabled by both technical benefits like reliability, fault isolation, scalability and productivity benefits like ease of asset maintenance and clear ownership boundaries which in turn lead to fewer interdependencies and shorter development cycles thereby resulting in faster time to market. Though microservices have been established as an architecture pattern over the last decade, many organizations fail to optimize the architecture design to maximize efficiency. In some cases, the complexity of migrating an existing application into the microservices architecture becomes overwhelmingly complex and expensive. Additionally, automation and tool support for this problem are still at an early stage as there isn't a single well-acknowledged pattern or tool which could support the decomposition. This paper discusses a few impactful previous research and survey efforts to identify the lack of infrastructure cost optimization as a parameter in any of the approaches present. This paper proposes an Infrastructure-optimised predictive algorithm for partitioning monolithic software into microservices. It also summarizes the scope for future research opportunities within the area of microservices architecture and distributed cloud networks.

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