(Final version of July 9, 2004) IETF IP Virtual Link eXtension (ipvlx) BOF Date: Monday, August 2, 13:00-15:00 BOF Chair: Erik Nordmark Organizations with large local networks may wish to administer them without the complications of internal IP address assignments. Layer 2 addresses provide the unique names, but the most common layer 2 interconnection method (dynamically created spanning tree formation using bridges) is not as flexible as layer 3 routing. The BoF will explore hybrid solutions that retain the simplicity of administration while taking full advantage of complex topologies. Bridges with spanning tree algorithms have obvious disadvantages: routing is confined to a spanning tree (precluding pair-wise shortest paths), ARP and Neighbor Discovery packets must be carried across all the links, the header on which the spanning tree forwards has no hop count, spanning tree forwarding in the presence of temporary loops spawns exponential copies of packets, nodes can have only a single point of attachment, the spanning tree, in order to avoid temporary loops, is slow to start forwarding on new ports, and it is not possible to take advantage of the rich physical topology for capacity since the packet flows are restricted to following the spanning tree. Routers avoid those disadvantages but have their own problems: IP addresses are link specific so a host that moves must change its IP address, the routers must be configured with unique link prefixes for each of the attached links, and the block of IP address space can not be fully utilized because it must be partitioned across the different links. The BoF will explore combining benefits of bridges and routers in a way that will co-exist with existing hosts, IP routers and bridges. The design should support both IPv4 and IPv6.