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Packet processing, Bandwidth allocation, Packet prioritization – Allied Telesis AT-S63 User Manual

Page 341

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AT-S63 Management Software Menus Interface User’s Guide

Section II: Advanced Operations

341

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A policy may have many traffic classes.

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A policy may be assigned to many ports.

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A port may only have one policy.

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You can create a policy without assigning it to a port, but the policy will
be inactive.

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A policy must have at least one action defined in the flow group, traffic
class, or the policy itself. A policy without an action is invalid.

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The switch can store up to 64 flow groups.

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The switch can store up to 64 traffic classes.

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The switch can store up to 64 policies.

Packet Processing

You can use the switch’s QoS tools to perform any combination of the
following functions on a packet flow:

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Limiting bandwidth

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Prioritizing packets to determine the level of precedence the switch will
give to the packet for processing

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Replacing the VLAN tag User Priority to enable the next switch in the
network to process the packet correctly

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Replacing the TOS precedence or DSCP value to enable the next
switch in the network to process the packet correctly.

Bandwidth

Allocation

Bandwidth limiting is configured at the level of traffic classes, and
encompasses the flow groups contained in the traffic class. Traffic classes
can be assigned maximum bandwidths, specified in kbps, Mbps, or Gbps.

Packet

Prioritization

The switch has eight Class of Service (CoS) egress queues, numbered
from 0 to 7. Queue 7 has the highest priority. When the switch becomes
congested, it gives high priority queues precedence over lower-priority
queues. When the switch has information about a packet’s priority, it
sends the packet to the appropriate queue. You can specify the queue
where the switch sends traffic, how much precedence each queue has,
and whether priority remapping is written into the packet’s header for the
next hop to use.

Prioritizing packets cannot improve your network’s performance when
bandwidth is over-subscribed to the point that egress queues are always
full. If one type of traffic is causing the congestion, you can limit its
bandwidth. Other solutions are to increase bandwidth or decrease traffic.

You can set a packet’s priority by configuring a priority in the flow group or
traffic class to which the packet belongs. The packet is put in the
appropriate CoS queue for that priority. If the flow group and traffic class
do not include a priority, the switch can determine the priority from the
VLAN tag User Priority field of incoming tagged packets. The packet is put