The number of VLANs that will be implemented on a network is dependent on traffic patterns, application
types, segmenting common workgroups, and network management requirements. However, consideration
must be given to the relationship between VLANs and the IP addressing schemes. Cisco recommends a oneto- one correspondence between VLANs and IP subnets, which means that if a Class C network address is
used for a VLAN, then no more than 254 devices should be in the VLAN. Cisco also recommends that
VLANs not extend beyond the Layer 2 domain of the distribution switch, i.e., the VLAN should not reach
across the core of a network and into another switch block. This is designed to keep broadcasts and
unnecessary movement of traffic out of the core block. VLANs can be scaled in the switch block by using
two basic methods: end-to-end VLANs and local VLANs.
• End-to-end VLANs span the entire switch fabric of a network and are also called campus-wide VLANs.
They are positioned to support maximum flexibility and mobility of end devices. Users are assigned to
VLANs regardless of their physical location. This means that each VLAN must be made available at the
access layer in every switch block. End-to-end VLANs should group users according to common
requirements, following the 80/20 rule. Although only 20 percent of the traffic in a VLAN is expected to
cross the network core, end-to-end VLANs make it possible for all traffic within a single VLAN to cross
the core. Because all VLANs must be available at each access layer switch, VLAN trunking must be
used to carry all VLANs between the access and distribution layer switches.
• In the modern network, end users require access to central resources outside their VLAN. Users must
cross into the network core more frequently, making the end-to-end VLANs cumbersome and difficult to
maintain. Most enterprise networks have adopted the 20/80 rule. Local VLANs deployed in this type of
network. Local VLANs are designed to contain user communities based on geographic boundaries, with
little regard to the amount of traffic leaving the VLAN. They range in size from a single switch in a
wiring closet to an entire building. Local VLANs enables the Layer 3 function in the campus network to
intelligently handle the inter-VLAN traffic loads. This provides maximum availability by using multiple
paths to destinations, maximum scalability by keeping the VLAN within a switch block, and maximum
manageability.