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Inter VLAN routing

Inter VLAN routing. W.lilakiatsakun. What is inter VLAN routing. Traditional Inter VLAN Routing (1). Traditional Inter VLAN Routing (2). Traditional Inter VLAN Routing (3). Traditional Inter VLAN Routing (4). Traditional Inter VLAN Routing (5). Traditional Inter VLAN Routing (6).

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Inter VLAN routing

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  1. Inter VLAN routing W.lilakiatsakun

  2. What is inter VLAN routing

  3. Traditional Inter VLAN Routing (1)

  4. Traditional Inter VLAN Routing (2)

  5. Traditional Inter VLAN Routing (3)

  6. Traditional Inter VLAN Routing (4)

  7. Traditional Inter VLAN Routing (5)

  8. Traditional Inter VLAN Routing (6)

  9. Traditional Inter VLAN Routing (7)

  10. Traditional Inter VLAN Routing (8)

  11. Router on a stick Inter VLAN Routing (1)

  12. Router on a stick Inter VLAN Routing (2)

  13. Router on a stick Inter VLAN Routing (3)

  14. Router on a stick Inter VLAN Routing (4) • Router-on-a-stick is a type of router configuration in which a single physical interface routes traffic between multiple VLANs on a network. • The router interface is configured to operate as a trunk link and is connected to a switch port configured in trunk mode. • The router performs the inter-VLAN routing by accepting VLAN tagged traffic on the trunk interface coming from the adjacent switch and internally routing between the VLANs using subinterfaces.

  15. Router on a stick Inter VLAN Routing (5) • Subinterfaces are multiple virtual interfaces, associated with one physical interface. • These subinterfaces are configured independently configured with an IP address and VLAN assignment to operate on a specific VLAN.

  16. Router on a stick Inter VLAN Routing (6)

  17. Router on a stick Inter VLAN Routing (7)

  18. Switch Layer 3 inter VLAN routing (1)

  19. Switch Layer 3 inter VLAN routing (2)

  20. Switch Layer 3 inter VLAN routing (3)

  21. Switch Layer 3 inter VLAN routing (4)

  22. Traditional Vs Router-on-stick (1) • Port Limits • Physical interfaces are configured to have one interface per VLAN on the network. • On networks with many VLANs, using a single router to perform inter-VLAN routing is not possible. • Instead, you could use multiple routers to perform inter-VLAN routing for all VLANs if avoiding the use of subinterfaces is a priority. • Subinterfaces allow a router to scale to accommodate more VLANs than the physical interfaces permit..

  23. Traditional Vs Router-on-stick (2) • Performance • Because there is no contention for bandwidth on separate physical interfaces, physical interfaces have better performance when compared to using subinterfaces. • Traffic from each connected VLAN has access to the full bandwidth of the physical router interface connected to that VLAN for inter-VLAN routing. • When subinterfaces are used for inter-VLAN routing, the traffic being routed competes for bandwidth on the single physical interface. • On a busy network, this could cause a bottleneck for communication.

  24. Traditional Vs Router-on-stick (3) • Access Ports and Trunk Ports • Connecting physical interfaces for inter-VLAN routing requires that the switch ports be configured as access ports. • Subinterfaces require the switch port to be configured as a trunk port so that it can accept VLAN tagged traffic on the trunk link.

  25. Traditional Vs Router-on-stick (4) • Cost • Financially, it is more cost-effective to use subinterfaces over separate physical interfaces. • Routers that have many physical interfaces cost more than routers with a single interface. • Additionally, if you have a router with many physical interfaces, each interface is connected to a separate switch port, consuming extra switch ports on the network. • Switch ports are an expensive resource on high performance switches.

  26. Traditional Vs Router-on-stick (5) • Complexity • Using subinterfaces for inter-VLAN routing results in a less complex physicalconfiguration than using separate physical interfaces, because there are fewer physical network cables interconnecting the router to the switch. • On the other hand, using subinterfaces with a trunk port results in a more complex software configuration, which can be difficult to troubleshoot. • If one VLAN is having trouble routing to other VLANs, you need to check to see if the switch port is configured to be a trunk and verify that the VLAN is not being filtered on any of the trunk links before it reaches the router interface. • You also need to check that the router subinterface is configured to use the correct VLAN ID and IP address for the subnet associated with that VLAN.

  27. Traditional Vs Router-on-stick (6)

  28. Configuring Traditional Inter VLAN routing (1)

  29. Configuring Traditional Inter VLAN routing (2) Switch configuration

  30. Configuring Traditional Inter VLAN routing (3) Router configuration

  31. Configuring Traditional Inter VLAN routing (4)

  32. Configure router-on-a-stick inter VLAN routing (1)

  33. Configure router-on-a-stick inter VLAN routing (2)

  34. Configure router-on-a-stick inter VLAN routing (3)

  35. Troubleshooting inter VLAN routing – switch issues (1) Incorrect VLAN

  36. Troubleshooting inter VLAN routing – switch issues (2) Not configure as a trunk

  37. Troubleshooting inter VLAN routing – switch issues (3) No Redundant link

  38. Troubleshooting inter VLAN routing – router issues Incorrect VLAN on a stick

  39. Troubleshooting inter VLAN routing – IP addressing issues (1) Incorrect IP Addressing

  40. Troubleshooting inter VLAN routing – IP addressing issues (2) Incorrect subnet mask

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