Download PDFOpen PDF in browserMitigating Downtime in Cloud Migrations: a Novel Approach with Real-time Application Replication and Selective CutoverEasyChair Preprint 1382818 pages•Date: July 5, 2024AbstractCloud migration is a critical process for organizations aiming to leverage the scalability, agility, and cost-effectiveness of cloud computing. However, the challenge of minimizing downtime during migrations, particularly during the critical cutover phase, remains significant. This research introduces Real-time Application Replication with Selective Cutover (RTAR-SC), a novel approach designed to address the limitations of existing techniques such as pre-copy and post-copy migration. RTAR-SC utilizes continuous replication, real-time performance monitoring, and data-driven cutover decisions to ensure minimal downtime and disruptions. The methodology involves detailed analysis and simulations using specified parameters, including a 500 Mbps internet speed and a 1 TB data distribution across web applications, databases, and file servers. Results demonstrate that RTAR-SC significantly reduces downtime compared to traditional full cutover methods, achieving a 67% reduction in service disruptions. Furthermore, RTAR-SC ensures data consistency through continuous replication and mitigates risks with a staged cutover approach, enhancing reliability and scalability. This research highlights the efficacy of RTAR-SC in providing a robust solution for seamless cloud migrations, paving the way for future advancements in automated and AI-driven optimization techniques. Keyphrases: Cloud Computing, Cloud Migration, Continuous Data Replication, Cutover Strategy, IT infrastructure, Migration Techniques, Phased Migration, Real-time Application Replication, Risk Mitigation, Scalability, Selective Cutover, data consistency, downtime reduction, operational efficiency, service continuity
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