Learn how VXLAN defines a packet and how EVPN works with VXLAN in what it needs to do. VXLAN and EVPN working together are powerful.
Define the fundamentals of VXLAN EVPN and how they fit together. Learn the of history of how VXLAN EVPN came about, and what problems it solves.
Remote leaf provides centralized management of configuration, discovery and operations to a pair of switches without the need of full fabric with APIC and Spine at edge location. It locally forwards traffic to other remote locations and locally conne
EVPN Distributed NAT enables Network Address Translation in a VXLAN EVPN fabric and offers enhancements like mobility and traffic engineering at host level and on border nodes for DCI (Data Center Interconnect).
Prior to APIC Release 5.2, PBR destinations must be in a BD, not in an L3Out. Starting with APIC Release 5.2, PBR destinations can be in an L3Out, which provides a more flexible design for service insertion.
This feature allows NX-OS VTEPs operating in Symmetric IRB mode to seamlessly inter-operate with VTEPs running in Asymmetric IRB mode within the same VXLAN EVPN fabric.
Learn and understand the benefits of choosing VXLAN EVPN as your fabric mode.