Depending on the size of the environment, there are different recommendations for selecting a transport mode. For simplicity, a couple of definitions will be used in this section:
Single host with local disks as primary datastores. Typical ROBO configuration.
2-4 hosts with shared storage. Typical ROBO configuration or small datacenter
4-20 hosts with shared storage
20-100 hosts with shared storage
Over 100 hosts
Keep in mind that within larger datacenters, multiple definitions may apply. As an example, it is possible that a separate management or DMZ cluster without shared storage could benefit from using the "Very small" or "Small" recommendations, while the main production environment is leveraging recommendations based on "Medium" to "Enterprise" datacenter size.
Virtual Appliance (Hot-Add) mode is the recommended option, as it gives you the best performance.
NBD over 10GbE VMKernel interfaces link will provide a very stable and good performing solution without any special configuration needed.
NBD over 1GbE VMKernel interfaces can be used for failover.
Direct Storage Access mode or Backup from Storage Snapshots modes are typically unavailable, as the disks of the host are local and thus cannot be mounted to an external proxy server.
If storage integration is available, use Backup from Storage Snapshots (BfSS)
For NFS based Storage, use Direct Storage Access
For shared storage connected via FC or iSCSI, you can choose one of the following two modes:
Physical proxy: Direct Storage Access will provide the best backup performance. For example, you can configure a physical server with access to FC datastores on the local site and perform backups to a local repository. If you use thin-provisioned disks for the VMs, configuring a dedicated backup proxy for restoring via Virtual Appliance (hot-add) mode can help to increasing restore performance.
Virtual proxy: The Virtual Appliance (hot-add) mode is a good an fast backup mode. Avoid to backing up VMs on NFS datastores using hot-add. Use Direct Storage Access or NBD backup modes instead.
NBD over 10 GbE VMKernel Interfaces link will provide a very stable and good performing solution.
NBD over 1 GbE VMKernel Interfaces can be used for failover and for situations where you do not have to transport much data.
When using NBD, check the Network Mode chapter for tuning tips.
In addition to the above considerations for Small and Medium, please see the following guidelines:
When Direct Storage Access, or Backup from Storage Snapshots are unavailable, and when virtual proxy servers are disallowed, Network Mode (NBD) is the only choice. In such cases, 10GbE interfaces are a must.
For virtual only deployments (virtual proxies only) in environments with many isolated clusters, using network mode (NBD) may be ideal. As hot-add requires at least one proxy within each cluster, it may require many more proxy servers compared to using network mode.
A combination of hot-add mode for large clusters and NBD mode for smaller clusters may be ideal.
In addition to the above considerations for Large, please see the following guidelines:
In large enterprise scale environments, the deployment of Veeam components, configuration and job creation is typically automated using the Veeam PowerShell SDK.
To balance the management load, it is recommended to use multiple Veeam backup servers for at least every 5,000 VMs and federate them for central reporting and administration by using either Veeam Enterprise Manager, Veeam Managed Backup Portal, Veeam Management Pack for Microsoft System Center Operations Manager or Veeam ONE.
When running a central backup server and with multiple branches connected to it, a dedicated backup server is recommended for at least every 200 branches. Consider using Veeam Enterprise Manager for federation.