Advanced Kubernetes Security Architectures: Securing Multi-Cloud Deployments at Scale

Meka, Janakiram (2025) Advanced Kubernetes Security Architectures: Securing Multi-Cloud Deployments at Scale. World Journal of Advanced Engineering Technology and Sciences, 15 (2). pp. 3078-3087. ISSN 2582-8266

Modern enterprises increasingly deploy Kubernetes across multiple cloud providers, creating significant security challenges due to inconsistent security models and heterogeneous infrastructure. This article presents advanced security architectures for protecting multi-cloud Kubernetes deployments at scale, addressing the fundamental disconnect between traditional security practices and cloud-native requirements. The discussion covers foundational security controls including Pod Security Admission, Role-Based Access Control, network security, and secrets management. Service mesh implementations are examined as security boundaries, with particular attention to zero-trust architectures for east-west traffic and federated identity across cloud environments. Runtime security mechanisms including kernel-level monitoring and behavioral anomaly detection enable threat identification, while automated compliance frameworks ensure consistent security governance across diverse infrastructure. The practical guidance draws from enterprise implementations that successfully balance robust security with operational efficiency in regulated industries, providing a methodology for securing containerized workloads while maintaining the agility benefits of cloud-native architectures.