Our customer is an all-time popular venue for hosting various international events. It was voted the “Best Convention & Exhibition Centre” for many times in the TTG Travel Awards throughout the years, in recognition of its outstanding performance in the Asia Pacific travel industry.
With more and more events have been held, there are huge amount of data need to be stored and back up. Since their old system was complex and slow, the Centre wanted to centralize management in a simple platform to make administration simple. To improve data efficiency, the customer also expected the solution can perform well in file and block data services.
The customer was looking for a high-performing unified storage. After understanding their requirements, Electronic Business Solutions Limited (EBS) proposed EMC VNX Series to the cusotmer in no doubt.
EMC VNX Series has unsurpassed simplicity and efficiency. It offers industry-leading innovation and enterprise capabilities for file, block, and object storage in a scalable, user-friendly solution. Besides, the storage platform combines powerful and flexible hardware with advances efficiency, management, and protection software to meet the needs of the customer.
Improved Efficiency of Virtualized Servers
EMC VNX Series helped the customer to optimize virtual applications. They found the new storage system triples the speed of virtualized servers and enables boot up to 1,000 virtual desktops in less than eight minutes.
Automated Storage Tiering
With EMC VNX Series, active data is now automatically stored on flash drives while less active data keeps in the high-capacity drives. Its fully automated storage tiering function simultaneously presents both the highest performance and the lowest operating cost.
Better Performance & Protection
EMC VNX Series took the advantage of multi-core processor, helped the customer to improve their backup performance, increase bandwidth, and lower latency. Moreover, it also delivered highest level of data protection with continuous operations and any-point-in-time recovery.