With HCI solutions built on VMware Virtual SAN hyper-converged storage, you can improve space efficiency, which will lower your total cost of ownership, while still delivering exceptional performance and availability. If you’re interested in exploring more about Virtual SAN and its full capabilities, then sign up for the latest “Virtual SAN Take 20 Series: Take HCI to the Next Level” technical webcasts May 17th – 19th. They’re easily digestible, expert-led 20 minute sessions followed by a 10-minute Q&A.
In these webcasts you’ll explore how to better manage and capitalize on your HCI with Virtual SAN, which also happens to be the only hyper-converged storage solution delivered directly from the hypervisor. Each episode will focus on a specific functionality; either space efficiency, performance or availability, and will demonstrate how Virtual SAN, VMware’s HCI solution for storage, delivers in these arenas. Here is the webcast schedule:
Episode 1: Space Efficiency – 5/17
Join Rawlinson Rivera, VMware’s Principal Storage and Availability Architect, for an overview of space efficiency features in Virtual SAN and guidance on when, where, how, and why they make sense for your HCI. Topics include deduplication, compression, RAID 5/6 erasure coding.
Episode 2: Availability – 5/18
Even the most demanding applications benefit from Virtual SAN enterprise-class availability. Join Rawlinson Rivera again to explore the availability mechanisms in Virtual SAN, including built-in and tunable failure tolerance, rack awareness, stretched cluster, and replication.
Episode 3: Performance – 5/19
In this episode, John Nicholson, VMware’s Sr. Technical Manager, will cover the major performance aspects of Virtual SAN, including a quick overview of hybrid and all-flash architectures, storage policies that influence performance, and other good-to- know design considerations.
We recommend you sign up for all three of these brief yet potent Virtual SAN webcasts taking place 5/17-5/19 and see how Virtual SAN delivers exceptional performance, availability, and space efficiency at the lowest cost point.
