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V
LAN
IRTUAL
IEEE 802.1Q T
UNNELING
(Q
Q)
IN
T
P
RAFFIC
RIORITIZATION
convergence than RSTP by limiting the size of each region, and prevents VLAN
members from being segmented from the rest of the group (as sometimes
occurs with IEEE 802.1D STP).
The switch supports up to 256 VLANs. A Virtual LAN is a collection of network
S
nodes that share the same collision domain regardless of their physical location or
connection point in the network. The switch supports tagged VLANs based on the
IEEE 802.1Q standard. Members of VLAN groups can be dynamically learned via
GVRP, or ports can be manually assigned to a specific set of VLANs. This allows the
switch to restrict traffic to the VLAN groups to which a user has been assigned. By
segmenting your network into VLANs, you can:
◆
Eliminate broadcast storms which severely degrade performance in a flat
network.
◆
Simplify network management for node changes/moves by remotely
configuring VLAN membership for any port, rather than having to manually
change the network connection.
◆
Provide data security by restricting all traffic to the originating VLAN.
◆
Use private VLANs to restrict traffic to pass only between data ports and the
uplink ports, thereby isolating adjacent ports within the same VLAN, and
allowing you to limit the total number of VLANs that need to be configured.
◆
Use protocol VLANs to restrict traffic to specified interfaces based on protocol
type.
This feature is designed for service providers carrying traffic for multiple customers
across their networks. QinQ tunneling is used to maintain customer-specific VLAN
and Layer 2 protocol configurations even when different customers use the same
internal VLAN IDs. This is accomplished by inserting Service Provider VLAN
(SPVLAN) tags into the customer's frames when they enter the service provider's
network, and then stripping the tags when the frames leave the network.
This switch prioritizes each packet based on the required level of service, using four
priority queues with strict priority, Weighted Round Robin (WRR) scheduling, or a
combination of strict and weighted queuing. It uses IEEE 802.1p and 802.1Q tags to
prioritize incoming traffic based on input from the end-station application. These
functions can be used to provide independent priorities for delay-sensitive data and
best-effort data.
This switch also supports several common methods of prioritizing layer 3/4 traffic
to meet application requirements. Traffic can be prioritized based on the priority
bits in the IP frame's Type of Service (ToS) octet using DSCP, or IP Precedence. When
these services are enabled, the priorities are mapped to a Class of Service value by
the switch, and the traffic then sent to the corresponding output queue.
– 37 –
Chapter 1
| Introduction
Description of Software Features
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