Reference architecture documents related to common Veeam Backup & Replication scenarios using alliance vendors hardware target
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The environment described in this architecture is one main datacenter with 500 Nutanix AHV VMs with 100TB of source data. All local backups will be targeted to Hardened Repositories grouped in a Scale-out Backup Repository. Offsite backups will also target Veeam Hardened Repositories. VMs will require 2vCPUs, 4GB of RAM, and 200GB of disk space.
The environment described in this architecture is one main datacenter containing 1,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on VMs and use the virtual appliance (hotadd) backup method. The Veeam hardened repository will be on Dell PowerEdge R760xd2 servers.
The environment described in this architecture is one main datacenter containing 10,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on VMs and use the virtual appliance (hotadd) backup method. The Veeam Hardened repository will be on Dell PowerEdge R760xd2 servers.
The environment described in this architecture is one main datacenter containing 5,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on VMs and use the virtual appliance (hotadd) backup method. The Veeam Hardened repository will be on Dell PowerEdge R760xd2 servers.
The environment described in this architecture is one main datacenter containing 1,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on a VM and will use the Virtual Appliance (hot add) backup method. The backup target will be servers attached to a Pure FlashArray//C
The environment described in this architecture is one main datacenter containing 10,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on physical HPE DL380 servers (or similar) and will use the Network Block Device (NBD) backup method. The Veeam Hardened repository will be on HPE Alletra 4140 servers.
The environment described in this architecture is one main datacenter containing 5,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on physical HPE DL380 servers (or similar) and will use the Network Block Device (NBD) backup method. The Veeam Hardened repository will be on HPE Alletra 4140 servers.
The environment described in this architecture is one main datacenter containing 1,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on VMs and use the virtual appliance (hotadd) backup method. The Veeam hardened repository will be on HPE Alletra 4140 servers.
Updated 12.1The environment described in this architecture is one main datacenter containing 1,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a primary backup repository and copied to a secondary offsite location. Proxies are installed on a physical server and use the network transport (NBD) method. The backup target will be ObjectFirst Ootbi set for Immutability and accessed via Gateway servers.
Updated - V12.1The environment described in this architecture is one main data center containing 5,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on physical servers and use the secure network transport (NBDSSL) method. The backup repository is an ExaGrid appliance.
The environment described in this architecture is one main data center containing 5,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on a physical server and use the network transport (NBDSSL) method. The backup target will be servers attached to a Pure FlashArray//C.
The environment described in this architecture is one main data center containing 5,000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Proxies are installed on a physical server and use the network transport (NBD) method. The backup target will be servers with a Hitachi Vantara VSP SAN Attached array.
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