Designing cloud-native architectures for financial system resilience

Ger, Premjit Paul (2025) Designing cloud-native architectures for financial system resilience. World Journal of Advanced Engineering Technology and Sciences, 15 (3). pp. 1081-1087. ISSN 2582-8266

This paper presents a transformative framework for cloud-native architectures in financial services, demonstrating how microservices, containerization, and declarative infrastructure fundamentally reshape enterprise financial systems. The architecture enables institutions to address critical challenges, including regulatory compliance, scalability requirements, and fault tolerance, while facilitating accelerated innovation cycles. Through examination of implementation strategies across global financial organizations, the paper illustrates how cloud-native principles enhance operational resilience, regulatory compliance, and security postures while reducing costs. Key findings highlight significant improvements in deployment frequency, system availability, incident detection, and cost efficiency across institutions that have embraced comprehensive cloud-native practices. The evidence further establishes direct correlations between architectural maturity and business outcomes, including enhanced customer satisfaction, market responsiveness, and competitive positioning. By detailing specific implementation patterns across diverse financial domains—from retail banking to capital markets—the paper provides actionable insights for technology leaders seeking to navigate the complexities of cloud transformation while maintaining the stringent requirements unique to financial services. The conclusions establish that cloud-native architectures represent not merely a technical shift but a strategic imperative for financial institutions navigating complex global ecosystems that demand both agility and reliability.