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Global Multidisciplinary Journal

Open Access Peer Review International
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Optimizing Reliability in Financial Site Reliability Engineering through Advanced Error Budgeting Frameworks

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Johnathan Meyer 1 ,
4 Technical University of Munich, Germany

Abstract

The escalating complexity of modern financial systems necessitates the deployment of robust Site Reliability Engineering (SRE) frameworks to ensure service availability, operational resilience, and user trust. Among these frameworks, error budgeting has emerged as a pivotal methodology, enabling organizations to balance system reliability with feature velocity while quantifying acceptable levels of service disruptions. This research provides a comprehensive analysis of error budgeting implementation within financial SRE teams, emphasizing its theoretical underpinnings, practical methodologies, and nuanced implications for risk management in fintech environments. Drawing on Dasari (2026), the study articulates a structured model for financial SRE teams, integrating principles from DevOps, cloud architecture, and resilience engineering. By synthesizing insights from contemporary SRE literature, including deployment strategies, maintenance paradigms, and cloud-based reliability practices, this work elucidates the ways in which error budgeting informs operational decision-making, prioritizes incident response, and facilitates strategic planning in high-stakes financial infrastructures. Additionally, the research critically examines the interplay between organizational culture, technical governance, and systemic risk, highlighting both empirical outcomes and potential theoretical gaps. Through descriptive and interpretive analyses, the article demonstrates how error budgeting transcends a purely quantitative metric, evolving into a multifaceted strategic tool that aligns technical reliability with organizational objectives. The findings underscore the importance of contextualizing error budgets within sector-specific constraints, integrating automated monitoring, predictive analytics, and adaptive feedback mechanisms to optimize reliability outcomes. Furthermore, the discussion explores tensions between speed and safety, systemic vulnerabilities in fintech platforms, and emerging trends in platform engineering and autonomous reliability systems. By advancing a holistic understanding of error budgeting frameworks, this research contributes to the broader discourse on sustainable operational practices, offering both practical guidance and a foundation for future scholarly inquiry into reliability engineering in complex, financial digital ecosystems.

 

Keywords

Site Reliability Engineering, error budgeting, financial systems, operational resilience

References

📄 Devan, K. (2025). Driving digital transformation: leveraging site reliability engineering and platform engineering for scalable and resilient systems. Applied Science and Engineering Journal for Advanced Research, 1(1), 21–29. https://doi.org/10.5281/zenodo.14799721
📄 Cloud Architecture Center. (2024). Building blocks of reliability in Google Cloud. Available: https://cloud.google.com/architecture/infra-reliability-guide/building-blocks
📄 Cai, B., Zhang, Y., Wang, H., Liu, Y., Ji, R., Gao, C., Kong, X., & Liu, J. (2021). Resilience evaluation methodology of engineering systems with dynamic-Bayesian-network-based degradation and maintenance. Reliability Engineering & System Safety, 209, 107464. https://doi.org/10.1016/j.ress.2021.107464
📄 Dasari, H. (2026). Error budgeting frameworks in financial SRE teams: A practical model. International Journal of Networks and Security, 6(1), 6–18. https://doi.org/10.55640/ijns-06-01-02
📄 Mosali, S. R. (2025). SRE principles in fintech: A technical deep dive. International Journal of Computer Engineering & Technology, 16(1), 3331–3343. https://doi.org/10.34218/ijcet_16_01_232
📄 Gupta, S. (2024). 10 essential SRE principles for reliable systems. SigNoz. Available: https://signoz.io/guides/sre-principles/
📄 Aktas, E. U., Tuzlutas, B., & Yesiltas, B. (2025, June 17). Designing a custom chaos engineering framework for enhanced system resilience at SoftTech. arXiv.org. https://arxiv.org/abs/2506.14281
📄 Varma, V. (2024). State of DevOps report 2023 highlights. Typo. Available: https://typoapp.io/blog/state-of-devops-report-2023-highlights/
📄 Panda, S. P., Koneti, S. B., & Muppala, M. (2025). Benefits of site reliability engineering (SRE) in modern technology environments. https://doi.org/10.2139/ssrn.5285768
📄 Grego, M., Magnani, G., & Denicolai, S. (2023). Transform to adapt or resilient by design? How organizations can foster resilience through business model transformation. Journal of Business Research, 171, 114359. https://doi.org/10.1016/j.jbusres.2023.114359
📄 Kanakala, R. R. (2025). Implementing DevOps and SRE practices across industries: A comparative analysis. ResearchGate. Available: https://www.researchgate.net/publication/389184321_Implementing_DevOps_and_SRE_Practices_across_Industries_A_Comparative_Analysis
📄 Ma, J., Gao, X., Di Gao, N., Dang, J., & Zhao, B. (2025). Digital finance, green development, and supply chain resilience: The moderating effects of climate risk. Applied Economics, 1–17. https://doi.org/10.1080/00036846.2025.2498102
📄 Mandal, P., Basu, P., Choi, T., & Rath, S. B. (2023). Platform financing vs. bank financing: Strategic choice of financing mode under seller competition. European Journal of Operational Research, 315(1), 130–146. https://doi.org/10.1016/j.ejor.2023.11.025
📄 Thomas, B. (2024). Understanding and setting up error budgets for site reliability engineering (SRE). Sedai. Available: https://www.sedai.io/blog/sre-error-budgets
📄 Udaykumar Gupta & Vanishree Mahesh. (2025). A strategic roadmap for implementing site reliability engineering practices. Infosys Knowledge Institute. Available: https://www.infosys.com/iki/perspectives/site-reliability-engineering-practices.html
📄 Chen, Y., Pan, J., Clark, J., Su, Y., Zheutlin, N., Bhavya, B., Arora, R., Deng, Y., Jha, S., & Xu, T. (2025, May 27). STRATUS: A multi-agent system for autonomous reliability engineering of modern clouds. arXiv.org. https://arxiv.org/abs/2506.02009
📄 Bollaert, H., Lopez-De-Silanes, F., & Schwienbacher, A. (2021). Fintech and access to finance. Journal of Corporate Finance, 68, 101941. https://doi.org/10.1016/j.jcorpfin.2021.101941
📄 iSmile Technologies. (2023). Top site reliability engineering (SRE) trends in 2023. Available: https://ismiletechnologies.com/en-in/sre/top-site-reliability-engineering-sre-trends-in-2023/#
📄 VMware Tanzu Team. (2021). Modern SRE practices for incident management. VMware Tanzu. Available: https://blogs.vmware.com/tanzu/modern-sre-practices-incident-management/
📄 Devan, K. (2025). Driving digital transformation: leveraging site reliability engineering and platform engineering for scalable and resilient systems. Applied Science and Engineering Journal for Advanced Research, 1(1), 21–29. https://doi.org/10.5281/zenodo.14799721.

How to Cite

Johnathan Meyer. (2026). Optimizing Reliability in Financial Site Reliability Engineering through Advanced Error Budgeting Frameworks. Global Multidisciplinary Journal, 5(01), 130-138. https://www.grpublishing.org/journals/index.php/gmj/article/view/325

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