What Is DRS?¶
DRS is a stable, efficient, and easy-to-use cloud service for database migration and synchronization in real time.
It simplifies data migration processes and reduces migration costs.
You can use DRS to quickly transmit data between different DB engines.
Real-Time Migration¶
With DRS, you can migrate data from sources to destinations in real time. You create a replication instance to connect to both the source and destination and configure objects to be migrated. DRS will help you compare metrics and data between source and destination, so you can determine the best time to switch to the destination database while minimizing service downtime.
You can perform a migration in multiple types of networks, such as public networks, VPCs, VPNs, and direct connections. With these network connections, you can migrate between different cloud platforms, from on-premises databases to cloud databases, or between cloud databases across regions.
DRS supports incremental migration, so you can replicate ongoing changes to keep sources and destinations in sync while minimizing the impact of service downtime and migration.
Real-Time Synchronization¶
Real-time synchronization refers to the real-time flow of key service data from sources to destinations through a synchronization instance while consistency of data can be ensured.
It is different from migration. Migration means moving your overall database from one platform to another. Synchronization refers to the continuous flow of data between different services.
You can use real-time synchronization in many scenarios such as real-time analysis, report system, and data warehouse environment.
Real-time synchronization is mainly used for synchronizing tables and data. It can meet various requirements, such as many-to-one, one-to-many synchronization, dynamic addition and deletion of tables, and synchronization between tables with different names.
Real-Time Disaster Recovery¶
To prevent service unavailability caused by regional faults, DRS provides disaster recovery to ensure service continuity. You can easily implement disaster recovery between on-premises and cloud, without the need to invest a lot in infrastructure in advance.
The disaster recovery architectures, such as two-site three-data-center and two-site four-data center, are supported.