- Written by Kamlesh Raghuvanshi
- Posted on 4月 19, 2021
- Updated on 8月 20, 2024
- 6755 Views
There are use cases where all broadcast, multicast and unknown MAC traffic are not needed to be flooded into the
- Written by Canberk Akcali
- Posted on 9月 12, 2024
- Updated on 9月 12, 2024
- 972 Views
Forced periodic ARP refresh adds support for a mechanism that allows forcing ARP/NDP refresh requests to be sent in periodic intervals independently of ARP/NDP entries' confirmed time in the kernel. By default, when a neighbor entry gets confirmed by various processes such as ARP synchronization between MLAG peers, an ARP refresh request is not sent for at least another duration of ARP aging timeout (or ND cache expiry time for the IPv6 case). This feature provides support for a configuration to force sending refresh requests at the configured ARP/ND aging timeout regardless of the last confirmed time.
- Written by Rashid Akhtar
- Posted on 12月 17, 2024
- Updated on 12月 17, 2024
- 144 Views
This feature introduces support for scaling both IPv4 and IPv6 hosts on our devices. Existing MDB profiles offer a maximum host scale of 128k with unique MAC rewrites. However, if hosts share the MAC rewrites, the scale can reach up to 204k. To address this issue, we are introducing a new MDB profile that will support a host scale of up to 192k when each host has a unique MAC rewrite. If hosts share the MAC rewrites, the scale can reach up to 256k.
- Written by Kallol Mandal
- Posted on 12月 12, 2024
- Updated on 12月 12, 2024
- 167 Views
Each ARP/ND packet into a switch may generate an update for the switch ARP/Neighbor table and this update may need to be synchronized with the MLAG peer when VXLAN is configured. Prior to this feature, these updates (on a VXLAN setup) are synchronized by sending an UDP packet (one packet per update) containing the IP/MAC/VLAN information from the MLAG peer where the ARP/ND packet is received to the other MLAG peer.
- Written by Kallol Mandal
- Posted on 1月 17, 2019
- Updated on 10月 9, 2024
- 8359 Views
Selective ARP install is the selective programming of remote ARPs in hardware as received through EVPN Type 2 MAC-IP routes in an EVPN VXLAN/ MPLS Integrated Routing and Bridging (IRB) scenario. Instead of installing every MAC+IP binding received from EVPN into the hardware, the switch installs them only when there is routed traffic destined to the IP, thereby saving TCAM space on the switch. However, there is a tradeoff as there is an initial one-time latency to install the hardware TCAM entry on the first flow of routed traffic to the IP.
- Written by Aaron Bamberger
- Posted on 6月 5, 2023
- Updated on 9月 20, 2023
- 5832 Views
Enabling “Proxy ARP/ND for Single Aggregation (AG) VTEP Campus Deployments without EVPN” allows an aggregation VTEP to proxy reply to a VXLAN-encapsulated ARP request/NS when the ARP/NS target host is remote and the ARP/ND binding is already learned by the AG VTEP.
- Written by Christopher Brown
- Posted on 12月 16, 2020
- Updated on 12月 23, 2020
- 6804 Views
ARP and IPv6 Neighbor Discovery use a neighbor cache to store neighbor address resolutions. The capacity of the
- Written by Kallol Mandal
- Posted on 10月 15, 2024
- Updated on 10月 15, 2024
- 669 Views
VXLAN ARP and IPv6 Neighbor Discovery (NDP) packet headend replication capability via VxlanSwFwd matches the COPP rate limit for these packets for the supported platforms regardless of the size of the VXLAN flood VTEP list. However, there still remains a case where the handling capacity is limited by CPU: the handling of ARP broadcast and NS multicast that result from Glean traffic (post routing).