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Chapter 11 Interfaces
ZyWALL USG 50 User’s Guide
247
Figure 161 Example: After VLAN
Each VLAN is a separate network with separate IP addresses, subnet masks, and
gateways. Each VLAN also has a unique identification number (ID). The ID is a 12-
bit value that is stored in the MAC header. The VLANs are connected to switches,
and the switches are connected to the router. (If one switch has enough
connections for the entire network, the network does not need switches A and B.)
• Traffic inside each VLAN is layer-2 communication (data link layer, MAC
addresses). It is handled by the switches. As a result, the new switch is required
to handle traffic inside VLAN 2. Traffic is only broadcast inside each VLAN, not
each physical network.
• Traffic between VLANs (or between a VLAN and another type of network) is
layer-3 communication (network layer, IP addresses). It is handled by the
router.
This approach provides a few advantages.
• Increased performance - In VLAN 2, the extra switch should route traffic inside
the sales department faster than the router does. In addition, broadcasts are
limited to smaller, more logical groups of users.
• Higher security - If each computer has a separate physical connection to the
switch, then broadcast traffic in each VLAN is never sent to computers in
another VLAN.
• Better manageability - You can align network policies more appropriately for
users. For example, you can create different content filtering rules for each
VLAN (each department in the example above), and you can set different
bandwidth limits for each VLAN. These rules are also independent of the
physical network, so you can change the physical network without changing
policies.
In this example, the new switch handles the following types of traffic:
•Inside VLAN 2.
• Between the router and VLAN 1.
• Between the router and VLAN 2.
A
B