Avaya 8800 Planning And Engineering, Network Design page 156

SPBM design guidelines
Figure 70: Traditional routing after moving VMs
Optimized data center routing of VMs
There are two main features that make a data center optimized:
• VLAN Routers in the Layer 2 domain (green icons)
• VRRP BackupMaster
The VLAN Routers use lookup tables to determine the best path to route incoming traffic (red dots)
to the destination VM.
VRRP BackupMaster solves the problem with traffic congestion on the IST. Because there can only
be one VRRP Master, all other interfaces are in backup mode. In this case, all traffic is forwarded
over the IST link towards the primary VRRP switch. All traffic that arrives at the VRRP backup
interface is forwarded, so there is not enough bandwidth on the IST link to carry all the aggregated
riser traffic. VRRP BackupMaster overcomes this issue by ensuring that the IST trunk is not used in
such a case for primary data forwarding. The VRRP BackupMaster acts as an IP router for packets
destined for the logical VRRP IP address. All traffic is directly routed to the destined subnetwork and
not through Layer 2 switches to the VRRP Master. This avoids potential limitation in the available
interswitch trunk bandwidth.
The following figure shows a solution that optimizes your network for bidirectional traffic flows.
However, this solution turns two SPBM BCB nodes into BEBs where MAC and ARP learning will be
enabled on the Inter-VSN routing interfaces. If you do not care about top-down traffic flows, you can
omit the Inter-VSN routing interfaces on the SPBM BCB nodes. This makes the IP routed paths top-
down less optimal, but the BCBs will remain pure BCBs, thus simplifying core switch configurations.
June 2016 Planning and Engineering — Network Design
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