Vlans And Ip Interfaces; Assigning Ip Network Addresses And Subnet Masks To Vlans - D-Link DES-3326SR Manual

D-Link DES-3326SR Layer 3 Switch
Chapter 18
VLAN IP I
S AND NTERFACES
VLANs can function somewhat differently in a Layer 3 Switch, that is when the VLANs are Layer 3-based, than
if they are strictly based on Layer 2 information. Since IP Switching among VLANs may be unfamiliar to users
who are otherwise well acquainted with conventional VLANs used in standard Ethernet Switches, some
explanation of VLANs used in Layer 3 Switching is presented below. It is essential to fully grasp this difference
to take advantage of the improved efficiency of Layer 3 Switching.
VLANs in Layer 2
In normal 802.1Q VLAN implementation, packets cannot cross VLANs in a Switch that is limited to Layer 2
functions. If a member of one VLAN wants to connect to another VLAN, the link must be through an external
router.
Layer 3-Based VLANs
Layer 3-based VLANs use network-layer addresses (subnet address for TCP/IP) to determine VLAN
membership. These VLANs are based on layer 3 information, however this does not constitute a 'routing'
function.
The DES-3326SR Switch allows an IP subnet to be configured for each 802.1Q VLAN that exists on the Switch.
That is, a VLAN can be associated or attached to an IP subnet. This represents an improvement in performance
since it bypasses any routing functions, packets transferred between subnets are reduced to a "hardware"
decision.
Even though a Switch inspects a packet's IP address to determine VLAN membership, no route calculation is
performed, the RIP protocol is not employed, and packets traversing the Switch are bridged using the Spanning
Tree algorithm.
A Switch that implements layer 3 (or 'subnet') VLANs without performing any routing function between these
VLANs is referred to as performing 'IP Switching'.
Planning VLAN Layout
VLANs on the DES-3326SR have considerably more functions and are more complex than on a traditional layer
2 Switch, and must therefore be laid-out and configured with a bit more forethought. VLANs with an IP
interface assigned to them could be thought of as network links – not just as a collection of associated end users.
Further, VLANs assigned an IP network address and subnet mask enables IP routing between them.
VLANs must be configured on the Switch before they can be assigned IP subnets. Furthermore, the static
VLAN configuration is specified on a per port basis. On the DES-3326SR a VLAN can consist of end-nodes –
just like a traditional layer 2 Switch, but a VLAN can also consist of one or more Switches – each of which is
connected to multiple end-nodes or network resources.
So, the IP subnets for a network must be determined first, and the VLANs configured on the Switch to
accommodate the IP subnets. Finally, the IP subnets can be assigned to the VLANs.

Assigning IP Network Addresses and Subnet Masks to VLANs

The DES-3326SR allows the assignment of IP subnets to individual VLANs. This is the fundamental advantage
of VLANs in IP Switching.
Developing an IP addressing scheme is a complex subject, but it is sufficient here to mention that the total
number of anticipated end nodes – for each IP interface – must be accommodated with an unique IP address. It
should be noted that the Switch regards a VLAN with an IP network address and corresponding subnet mask
assigned as an IP interface.
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