Multi-Cloud Data Synchronization Patterns in Dynamics 365 Finance and Operations with AWS and GCP Integration

Authors: Manish Sonthalia

DOI: https://doi.org/10.37082/IJIRMPS.v13.i5.232759

Short DOI: https://doi.org/g97js5

Country: United States

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Abstract: This whitepaper presents a comprehensive analysis of multi-cloud data synchronization patterns for Microsoft Dynamics 365 Finance and Operations (D365 F&O) integrated with Amazon Web Services (AWS) and Google Cloud Platform (GCP). As organizations increasingly adopt multi-cloud strategies to optimize performance, reduce vendor lock-in, and enhance disaster recovery capabilities, the complexity of maintaining data consistency across distributed cloud environments has become a critical challenge.
Our research examines four primary synchronization patterns: real-time synchronization using OData APIs and Business Events, batch processing through the Data Management Framework (DMF), event-driven architectures leveraging cloud-native messaging services, and hybrid approaches that intelligently route data based on criticality and volume requirements. Through analysis of implementation case studies across e-commerce, manufacturing, and financial services sectors, we demonstrate that hybrid synchronization patterns achieve optimal performance with 99.9% data consistency while reducing operational costs by up to 40%.
Key findings include: (1) Real-time patterns excel for transactional data with sub-second latency requirements but face API throttling limitations of 200 requests per minute; (2) Batch processing patterns efficiently handle high-volume data transfers but introduce latency measured in hours; (3) Event-driven patterns provide superior fault tolerance and scalability through loose coupling; and (4) Hybrid patterns optimize resource utilization by matching synchronization method to data characteristics.
This research contributes to the body of knowledge on enterprise multi-cloud integration by providing practical implementation guidance, performance benchmarks, and security frameworks that organizations can leverage to design robust, scalable, and secure multi-cloud data synchronization architectures.

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Paper Id: 232759

Published On: 2025-10-21

Published In: Volume 13, Issue 5, September-October 2025

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