Bibliographic citations
Torres, F., Valladares, J. (2023). Diseño de una arquitectura de red hibrida (onpremise - cloud) de alta disponibilidad aplicado a una entidad financiera, mediante el uso de servicios de conectividad global cloud [Trabajo de suficiencia profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/670324
Torres, F., Valladares, J. Diseño de una arquitectura de red hibrida (onpremise - cloud) de alta disponibilidad aplicado a una entidad financiera, mediante el uso de servicios de conectividad global cloud [Trabajo de suficiencia profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/670324
@misc{renati/409893,
title = "Diseño de una arquitectura de red hibrida (onpremise - cloud) de alta disponibilidad aplicado a una entidad financiera, mediante el uso de servicios de conectividad global cloud",
author = "Valladares Martinez, Juan Alvaro",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
The present project aims to design a hybrid architecture to enhance the availability of critical workloads for financial institutions using components and/or services with global cloud connectivity infrastructure. The design achieves improved availability, resilience, scalability, and response time in the event of service failures, based on a multi-region architecture with an active-active balancing model. This model distributes requests for banking services between the two regions according to their availability at the time of queries. The first chapter elaborates on the introductory aspects of the proposed design, justifying the problem to be addressed and highlighting its significance for the continuity of business operations in banking institutions. The second chapter presents the contents of the theoretical framework, describing the concepts, standards, and frameworks used for each stage of the architecture design process. The third chapter contains the development and design of the proposed architecture. It provides detailed descriptions of the selections and designs made in each layer of the architecture: the cloud provider, cloud regions, and cloud components, specifying their functionalities and characteristics. Additionally, it outlines how SLA and RTO values are calculated, along with the required stress and security tests. Furthermore, the chapter includes the validations and results of the proposed architecture to demonstrate its effectiveness. Finally, in the fourth chapter, the conclusions are presented, along with recommendations for similar implementations or future complementary work, and a list of bibliographical references.
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