Today, I attended my first Silicon Valley VMUG at the Biltmore Hotel and Suites in San Jose, CA. Vision Solutions presented their software Double–Take which provides real-time high availability. Joe Cook, Senior Technical Marketing Manager at VMware, provided an overview of VSAN and its requirements.
I took a couple of notes for both presentations and summarized the most important points below:
Double-Take Availability
- Allow migration P2V, V2P, P2P, V2V cross-hypervisor
- Provides HW and Application independent failover
- Monitors availability and provides alerting functionality by SNMP and Email
- Supports VMware 5.0 and 5.1, as well as Microsoft Hyper-V Server and Role 2008 R2 and 2012
- Full server migration and failover only available for Windows. Linux version will be available in Q4.
Double-Take Replication
- Uses byte-level replication which continuously looks out for changes and transfers them
- Either real-time or scheduled
- Replication can be throttled
Double-Take Move
- Provides file and folder migration
- Does NOT support mounted file shares. Disk needs to show as a local drive
VMware Virtual SAN (VSAN) by Joe Cook
Hardware requirements:
- Any Server on the VMware Compatibility Guide
- At least 1 of each
- SAS/SATA/PCIe SSD
- SAS/NL-SAS/SATA HDD
- 1Gb/10Gb NIC
- SAS/SATA Controllers (RAID Controllers must work in “pass-through” or RAID0
- 4GB to 8GB (preferred) USB, SD Cards
Implementation requirements:
- Minimum of 3 hosts in a cluster configuration
- All 3 host must contribute storage
- vSphere 5.5 U1 or later
- Maximum of 32 hosts
- Locally attached disks
- Magnetic disks (HDD)
- Flash-based devices (SSD)
- 1Gb or 10Gb (preferred) Ethernet connectivity
Virtual SAN Datastore
- Distributed datastore capacity, aggregating disk groups found across multiple hosts within the same vSphere cluster
- Total capacity is based on magnetic disks (HDDs) only.
- Flash based devices (SSDs) are dedicated to VSAN’s caching layer
Virtual SAN Network
- RequiredadedicatedVMkernel interface for Virtual SAN traffic
- Used for intra-cluster communication and data replication
- Standard and Distributed vSwitches are supported
- NIC teaming – used for availability not for bandwidth
- Layer 2 Multicast must be enabled on physical switches
Virtual SAN Scalable Architecture
- VSAN provides scale up and scale out architecture
- HDDs are used for capacity
- SSDs are used for performance
- Disk Groups are used for performance and capacity
- Nodes are used for compute capacity
Additional information
- VSAN is a cluster level feature like DRS and HA
- VSAN will be deployed, configured and manages through the vSphere Web Client only
- Hands-on labs are available here