Distributed systems patterns and anti-patterns: A comprehensive framework for scalable and reliable architectures

Sekar, Aravind (2025) Distributed systems patterns and anti-patterns: A comprehensive framework for scalable and reliable architectures. World Journal of Advanced Engineering Technology and Sciences, 15 (1). pp. 667-676. ISSN 2582-8266

This article presents a comprehensive framework for understanding and implementing distributed systems through the lens of architectural patterns and anti-patterns. It has examined the evolution of distributed computing from its theoretical foundations to current industry practices, identifying key patterns that enable scalability, reliability, and maintainability. This article analysis categorizes patterns into coordination mechanisms, communication models, resilience strategies, data management approaches, and distributed transaction handling. Complementing this, we identify common anti-patterns that undermine system quality, including distributed monoliths, inappropriate consistency models, inefficient communication, and operational blind spots. The article also explores emerging trends in distributed systems, particularly AIOps for intelligent operations and service mesh architectures for infrastructure abstraction. The article's findings suggest that successful distributed system implementation requires technical pattern knowledge, organizational alignment, incremental adoption strategies, and continuous evaluation frameworks. This research bridges the gap between theoretical models and practical implementations, providing actionable guidance for practitioners navigating the increasing complexity of modern distributed architectures.