The Physical Storage Design uses vSAN to implement software-defined storage as the primary storage type. Different domains or workload clusters can implement other storage options depending on the requirements and constraints.
vSAN is a hyper-converged storage solution built within the ESXi hypervisor. vSAN (Original Storage Architecture) creates disk groups consisting of hard disk drives and flash devices or all-flash devices in the local ESXi host. It provides a highly resilient shared storage datastore to the vSphere Cluster.
By using vSAN storage policies, you can control capacity, performance, and availability on a per virtual disk basis.
While vSAN is the recommended solution, the physical storage can be based on the extensive list of supported storage providers. This reference architecture focuses on vSAN requirements from a physical storage perspective.
When using a storage platform, evaluate the supported use cases across the telco cloud, including file and block storage and cloud-native support considerations such as Read-Write Many persistent volumes.
Category |
Requirements |
---|---|
Number of ESXi hosts |
|
vSAN configuration |
vSAN can be configured in all-flash or hybrid mode:
|
Individual ESXi hosts that provide storage resources. |
|
vSAN Disk Groups
Disk group sizing is an important factor in the vSAN design. If more ESXi hosts are available in a cluster, more failures are tolerated in the cluster. This capability adds cost because additional hardware is required for the disk groups.
More available disk groups can increase the recoverability of vSAN during a failure. When deciding on the number of disk groups per ESXi host, consider these points:
Amount of available space on the vSAN datastore
Number of failures that can be tolerated in the cluster
The optimal number of disk groups is a balance between the hardware and space requirements for the vSAN datastore. More disk groups increase space and provide high availability but it can be expensive.
The disk groups concept is not applicable for the vSAN Express Storage Architecture.
Storage Controllers
The storage I/O controllers are as important as the selection of disk drives to a vSAN configuration. vSAN supports SAS, SATA, and SCSI adapters in either pass-through or RAID 0 mode. vSAN supports multiple controllers per ESXi host.
Multi-Controller Configuration: Multiple controllers can improve performance and mitigate a controller or SSD failure to a smaller number of drives or vSAN disk groups.
Single-Controller Configuration: With a single controller, all disks are controlled by one device. A controller failure impacts all storage, including the boot media (if configured).
Controller queue depth is an important aspect of performance. All I/O controllers in the VMware vSAN Hardware Compatibility Guide have a minimum queue depth of 256. If you increase the queue depth to a value higher than 256, ensure that you consider the regular day-to-day operations in your environment. Examples of events that require higher queue depth are as follows:
VM deployment operations
Re-sync I/O activity because of automatic or manual fault remediation
Physical Storage Recommendations
Design Recommendation |
Design Justification |
Design Implication |
---|---|---|
Use all-flash (SSD / NVMe) vSAN in all vSphere clusters. |
Provides the best performance with low latency. When using all-flash vSAN, you can enable de-duplication and compression that saves space on the datastores. |
Flash storage costs more than traditional magnetic disks. |
For the management cluster, provide a vSAN configuration with at least 6 TB of usable space. |
Provides all the required space for this solution while allowing the deployment of additional monitoring and management components in the management cluster. |
More space is required on day 1. |
For the edge cluster, provide a vSAN configuration with at least 500 GB of usable space. |
Provides required storage to run NSX Edge Nodes and Avi Load Balancer Service Engines. |
None |
For the compute clusters, size the vSAN datastore according to the current workloads plus five years of expected growth. |
Ensures that the storage solution is not required to be upgraded as it can cause downtime to workloads. |
More space is required on day 1. |
When using vSAN, validate the ESXI release before using HCI Mesh or vSAN File Services. |
HCI Mesh and vSAN FS is supported with vSAN using ESA architecture starting from vSphere 8.0U2. |