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 VMs and 1000 physical servers with 200 GB of used storage. The VMs are hosted on the HPE VME Hypervisor . The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups target a local HPE StoreOnce Appliance and copied to the Veeam Data Cloud (VDC) Vault. The Veeam Workers are automatically deployed and use the hot add backup method. Zerto is used to provide replication to a secondary datacenter.
The environment described in this architecture is one main datacenter with 500 VMs with 200 GB of used storage hosted on the HPE VME Hypervisor . The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups target a local HPE StoreOnce Appliance and copied to the Veeam Data Cloud (VDC) Vault. The Veeam Workers are automatically deployed and use the hot add backup method.
The environment described in this architecture consists of a single primary datacenter hosting 10,000 virtual machines and 100 physical servers. Each VM and physical server averages 200 GB of used storage. All backups will use the Veeam Software Appliance and target a local HPE Data Protector Accelerator connected to an HPE Alletra MP X10000 object storage platform, with a secondary copy sent to a Veeam Data Cloud Vault repository. Backup proxies are deployed on physical servers, and the NBD transport mode is used for backups.
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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will be targeted to a local Veeam Hardened Repository and copied to a Veeam Data Cloud VAULT. The Veeam Infrastructure Appliance that host the proxies are installed in VMs and use the virtual appliance (hot add) backup method. The Veeam hardened repository will be on Dell PowerEdge R760xd2 servers.
The environment described in this architecture is one main datacenter with 500 VMs with 200 GB of used storage hosted on the HPE VME Hypervisor . The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups target a local HPE StoreOnce Appliance and copied to a second HPE StoreOnce in an offsite location. The Veeam Workers are automatically deployed and use the hot add backup method
The environment described in this architecture is one main datacenter with 500 HPE VME VMs, 1000 vSphere VMs, and 100 physical servers. All servers have an average of 200 GB of used storage. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups target a local HPE StoreOnce Appliance and copied to the Veeam Data Cloud (VDC) Vault. The Veeam Workers are automatically deployed and use the hot add backup method.
V13 - 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance with exception of the Veeam hardened Repository. All backups will target a local physical server attached via fibre channel to a NetApp E-series storage array. A secondary copy will be sent to Veeam Data Cloud Vault.
V13 - 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will target a local physical server attached via fibre channel to a NetApp E-series storage array. A secondary copy will be sent to Veeam Data Cloud Vault.
V13 - The environment described in this architecture is one main datacenter with 1000 VMs with 200 GB of used storage hosted on the Proxmox VE Hypervisor . The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups target a local Veeam Hardened Repository Appliance and copied to the Veeam Data Cloud (VDC) Vault. The Veeam Infrastructure Appliance that host the proxies are installed in VMs and use the virtual appliance (hot add) backup method.
V13 - The environment described in this architecture is one main datacenter with 500 VMs with 200 GB of used storage hosted on the Proxmox VE Hypervisor . The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups target a local Veeam Hardened Repository Appliance and copied to the Veeam Data Cloud (VDC) Vault. The Veeam Infrastructure Appliance that host the proxies are installed in VMs and use the virtual appliance (hot add) backup method.
V13 - 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will be targeted an ObjectFirst object storage repository and copied to a Veeam Data Cloud (VDC) Vault. The Proxies are installed on a physical server and uses secure the network transport (NBDSSL) method. The backup target will be ObjectFirst Ootbi set for Immutability and accessed via Gateway servers.
V13 - 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will be targeted an ObjectFirst object storage repository and copied to a Veeam Data Cloud (VDC) Vault. The Proxies are installed on a physical server and use the secure network transport (NBDSSL) method. The backup target will be ObjectFirst Ootbi set for Immutability and accessed via Gateway servers.
V13 - 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will be targeted to a primary backup repository and copied to a Veeam Data Cloud (VDC) Vault. Proxies are installed on a physical server and use the network transport (NBD) method. The backup target will be ObjectFirst Ootbi set for Immutability.
V13 - The environment described in this architecture is one main datacenter containing 5000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will target a local Pure Storage FlashBlade\\S 200 object storage array and a secondary copy will be sent to Veeam Data Cloud Vault. The Veeam Infrastructure Appliance that host the proxy/gateway server(s) are installed on a physical and use the secure network (NBDSSL) backup method.
V13 - The environment described in this architecture is one main datacenter containing 10000 VMs and 100 physical servers. Each VM and physical server has an average of 200 GB of used storage space. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will target a local Pure Storage FlashBlade//S 100 object storage array, and a secondary copy will be sent to Veeam Data Cloud Vault. The Veeam Infrastructure Appliance that host the proxy/gateway server(s) are installed on physical servers and will use the secure network (NBDSSL) backup method.
V13 - 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will target a local Pure Storage FlashBlade\\S 100object storage array and a secondary copy will be sent to Veeam Data Cloud Vault. The Veeam Infrastructure Appliance that host the proxy/gateway server(s) are installed in VMs and use the virtual appliance (hot add) backup method.
V13 - 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will be targeted to a local ExaGrid repository and copied to a Veeam Data Cloud Vault repository. Proxies deployed the Veeam Infrastructure Appliance installed on physical servers and use the secure network transport (NBDSSL) method. The Veeam Data Mover is configured to run on the ExaGrid appliances in a SOBR configuration.
V13 - 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. The Veeam Backup & Replication server is hosted on an Azure VM. The on-premises components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. The Veeam proxy service is host on physical servers. All backups will be targeted to a local ExaGrid repository and copied to a Veeam Data Cloud Vault repository. All backups must be able to be recovered quickly to the customer's Azure tenant.
V13 Software Appliance. 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will be targeted to a local Veeam Hardened Repository and copied to a Veeam Data Cloud VAULT. The Veeam Infrastructure Appliance hosting the 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.
V13 Veeam Software ApplianceThe 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. The Veeam components are hosted on the Veeam Software Appliance and Veeam Infrastructure Appliance. All backups will be targeted to a local Veeam Hardened Repository and copied to a Veeam Data Cloud VAULT. The Veeam Infrastructure Appliance that host the proxies are installed in VMs and use the virtual appliance (hot add) backup method. The Veeam hardened repository will be on HPE Alletra 4120 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 primary Veeam Hardened repository will be on Dell PowerEdge R760xd2 server and the secondary repository will be on Data Domain 9800.
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 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 Object Storage, which is set for Immutability and accessed via Gateway 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 primary Veeam Hardened repository will be on Dell PowerEdge R760xd2 server and the secondary repository will be on Data Domain 9300.
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 primary Veeam Hardened repository will be on Dell PowerEdge R760xd2 server and the secondary repository will be on Data Domain 6800.
The environment described in this architecture is one datacenter containing 1,000 VMs and 100 servers. Each VM and server has an average of 100 GB of used storage space. All backups will be targeted to a local primary backup repository and copied to a secondary offsite location. Flowmon provides full network layer visibility of potential attacks so customers can leverage early detection and warnings to trigger data protection workflows in Veeam® Backup & Replication™ using the Veeam Incident API.
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