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DellEMC(conf-if-vl-50-stack)#member port-channel 10

DellEMC(conf-if-vl-50-stack)#member port-channel 20

DellEMC(conf-if-vl-50-stack)#

DellEMC#show running-config interface vlan 50

interface Vlan 50

vlan-stack compatible

member Port-channel 10,20

shutdown

DellEMC#

Verify that the Port Channels used in the VLT Domain are Assigned to the VLAN-Stack VLAN

DellEMC#show vlan id 50

Codes: * - Default VLAN, G - GVRP VLANs, R - Remote Port Mirroring VLANs, P - Primary, C

- Community, I - Isolated

O - Openflow

Q: U - Untagged, T - Tagged

x - Dot1x untagged, X - Dot1x tagged

o - OpenFlow untagged, O - OpenFlow tagged

G - GVRP tagged, M - Vlan-stack

i - Internal untagged, I - Internal tagged, v - VLT untagged, V - VLT tagged

NUM Status Description Q Ports

50 Active M Po10(Gi 1/8)

M Po20(Gi 1/20)

V Po1(Gi 1/30-32)

DellEMC#

IPv6 Peer Routing in VLT Domains Overview

VLT enables the physical links between two devices that are called VLT nodes or peers, and within a VLT domain, to be

considered as a single logical link to external devices that are connected using LAG bundles to both the VLT peers. This

capability enables redundancy without the implementation of Spanning tree protocol (STP), thereby providing a loop-free

network with optimal bandwidth utilization.

IPv6 peer routing is supported on all the platforms that are compatible with IPv6 routing and support VLT. This functionality

performs the following operations:

● Forwarding control traffic to the correct VLT node when the control traffic reaches the wrong VLT node due to hashing at

the VLT LAG level on the ToR.

● Routing the data traffic which is destined to peer VLT node.

● Synchronizing neighbor entries learned on VLT VLAN interfaces between the primary and secondary node.

● Synchronizing the IP address of VLT VLAN interfaces between the VLT primary node and secondary node.

● Performing routing on behalf of peer VLT nodes for a configured time period when a peer VLT node goes down.

When you configure Layer 3 VLT peer routing using the peer-routing command in VLT DOMAIN mode, it applies for both

IPv4 and IPv6 traffic in VLT domains. Layer 3 VLT provides a higher resiliency at the Layer 3 forwarding level. Routed VLT

allows you to replace VRRP with routed VLT to route the traffic from the Layer 2 access nodes. With neighbor discovery (ND)

synchronization, both the VLT nodes perform Layer 3 forwarding on behalf of each other.

The neighbor entries are typically learned by a node using neighbor solicitation (NS) and ND messages. These NS or neighbor

advertisement (NA) messages can be either destined to the VLT node or to any nodes on the same network as the VLT

interface. These learned neighbor entries are propagated to another VLT node so that the peer does not need to relearn the

entries.

IPv6 Peer Routing

When you enable peer routing on VLT nodes, the MAC address of the peer VLT node is stored in the ternary content

addressable memory (TCAM) space table of a station. If the data traffic destined to a VLT node, node1, reaches the other VLT

Virtual Link Trunking (VLT)

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