Business Continuity

Ensure continuous availability of all data and keep your business running. Open-E software provides solutions that allow your company to maintain operations in spite of critical situations or disasters.

Disaster Recovery is one of the most essential strategies for securing lost data against disasters. It includes all processes and procedures that are performed in order to prevent large failures and to avoid their consequences by keeping copies of the data. With a consistent strategy, you are able to recover business-critical files and applications of your IT infrastructure - ensuring business continuity and minimization of data loss.


The Avago Syncro™ technology is a solution for businesses of all sizes that require high available storage for high performance, high capacity or hybrid system. The Syncro™ CS solution is a hardware based, high-available DAS which is shared between two head-nodes. In combination with Open-E DSS V7 software, it is possible to create a customized solution for any need, from a high performance SSD storage to high capacity 3,5” HDD server with SDD caching.


Fibre Channel (FC) Storage uses a high-speed network technology for data storage that has become a common connection type for SAN enterprise storage. It is especially suited for creating SAN topologies for virtualization, data center or other demanding platforms. The technology offers point-to-point, switched, and loop interfaces, and is designed to interoperate with SCSI.


The Avago Syncro™ technology is a solution for businesses of all sizes that require high available storage for high performance, high capacity or hybrid system. The Syncro™ CS solution is a hardware based, high-available DAS which is shared between two head-nodes. In combination with Open-E DSS V7 software, it is possible to create a customized solution for any need, from a high performance SSD storage to high capacity 3,5” HDD server with SDD caching.


The Failover feature provides High Availability of data. In an iSCSI Failover setup of two servers, data is saved on both servers simultaneously. When one system fails, its processes and all resources are being relocated to and restarted on the second node. The Active-Passive setup allows having all volumes active on one node (the primary node), while the other node has all passive copies and takes over the tasks in case of an emergency (the secondary node). A load-balanced Active-Active Failover on the other hand, doesn’t have a primary or secondary node. It adds extra performance by enabling the user to decide which volumes are active on which node. The failover process is the same, but the servers are able to utilize their full network performance and eliminate the unnecessary cost of idle hardware.

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