Default Vlan - HP ProCurve 9304M Installation And Configuration Manual

Installation and Basic Configuration Guide
ISR eliminates the need for an external router by allowing you to route between VLANs using virtual routing
interfaces (ves). A virtual routing interface is a logical port on which you can configure Layer 3 routing
parameters. You configure a separate virtual routing interface on each VLAN that you want to be able to route
from or to. For example, if you configure two IP sub-net VLANs on a Routing Switch, you can configure a virtual
routing interface on each VLAN, then configure IP routing parameters for the sub-nets. Thus, the Routing Switch
forwards IP sub-net broadcasts within each VLAN at Layer 2 but routes Layer 3 traffic between the VLANs using
the virtual routing interfaces.
NOTE: The Routing Switch uses the lowest MAC address on the device (the MAC address of port 1/1) as the
MAC address for all ports within all virtual routing interfaces you configure on the device.
The routing parameters and the syntax for configuring them are the same as when you configure a physical
interface for routing. The logical interface allows the Routing Switch to internally route traffic between the
protocol-based VLANs without using physical interfaces.
All the ports within a protocol-based VLAN must be in the same port-based VLAN. The protocol-based VLAN
cannot have ports in multiple port-based VLANs, unless the ports in the port-based VLAN to which you add the
protocol-based VLAN are 802.1q tagged.
You can configure multiple protocol-based VLANs within the same port-based VLAN. In addition, a port within a
port-based VLAN can belong to multiple protocol-based VLANs of the same type or different types. For example,
if you have a port-based VLAN that contains ports 1/1 – 1/10, you can configure port 1/5 as a member of an
AppleTalk protocol VLAN, an IP protocol VLAN, and an IPX protocol VLAN, and so on.
IP Sub-Net, IPX Network, and AppleTalk Cable VLANs
The protocol-based VLANs described in the previous section provide separate protocol broadcast domains for
specific protocols. For IP, IPX, and AppleTalk, you can provide more granular broadcast control by instead
creating the following types of VLAN:
• IP sub-net VLAN – An IP sub-net broadcast domain for a specific IP sub-net.
• IPX network VLAN – An IPX network broadcast domain for a specific IPX network.
• AppleTalk cable VLAN – An AppleTalk broadcast domain for a specific cable range.
The Routing Switch sends broadcasts for the IP sub-net, IPX network, or AppleTalk cable range to all ports within
the IP sub-net, IPX network, or AppleTalk cable VLAN at Layer 2.
The Routing Switch routes packets between VLANs at Layer 3. To configure an IP sub-net, IPX network, or
AppleTalk cable VLAN to route, you must add a virtual routing interface to the VLAN, then configure the
appropriate routing parameters on the virtual routing interface.
NOTE: The Routing Switch routes packets between VLANs of the same protocol. The Routing Switch cannot
route from one protocol to another.
NOTE: IP sub-net VLANs are not the same thing as IP protocol VLANs. An IP protocol VLAN sends all IP
broadcasts on the ports within the IP protocol VLAN. An IP sub-net VLAN sends only the IP sub-net broadcasts
for the sub-net of the VLAN. You cannot configure an IP protocol VLAN and an IP sub-net VLAN within the same
port-based VLAN.
This note also applies to IPX protocol VLANs and IPX network VLANs, and to AppleTalk protocol VLANs and
AppleTalk cable VLANs.

Default VLAN

By default, all the ports on an HP device are in a single port-based VLAN. This VLAN is called DEFAULT-VLAN
and is VLAN number 1. HP devices do not contain any protocol VLANs or IP sub-net, IPX network, or AppleTalk
cable VLANs by default.
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