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Classifying, Upstream traffic management, Priority classes – Polycom V2IU 4350 User Manual

Page 90: Scheduler, Traffic shaper, Classifying –72 upstream traffic management –72

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User Manual V

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IU 4350 Converged Network Appliance

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applied to traffic in both the upstream (LAN to WAN) and downstream (WAN

to LAN) direction. Each direction is independent of the other and can support

different size priority queues.

Classifying

High priority voice and video traffic generated by endpoint devices is

automatically identified by the V

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IU’s VoIP Application Layer Gateway. Other

VoIP devices (not making use of the ALG) can be defined as high-priority by

their IP address. The user configures these addresses into the priority list in the

Traffic Shaper section of the 4350 web GUI.
As the 4350 processes packets they are identified as either high or low priority

based on this configuration. Packets identified as high priority are marked as

such in the TOS bits of their IP header, allowing prioritization by downstream

routers. The TOS field is set to 12 hexadecimal “minimize delay and maximize

throughput.” This value overwrites any prior value.

Upstream Traffic Management

The 4350 appliance uses a combination of Class Based Queuing and simple

classless queuing to send data in the upstream direction. The Class Based

Queue (CBQ) consists of two priority classes (high and low), a scheduler to

decide when packets need to be sent, and a traffic shaper to rate-limit by

delaying packets before they are sent. Each of these is described in more detail

below.

Priority classes

Voice and video traffic is placed in the high-priority queue and data traffic is

placed in the low-priority queue. The IP header TOS field of packets in the

high-priority queue is set to “minimize delay and maximize throughput”.

Scheduler

High-priority data is polled before low priority data, thereby minimizing the

latency for voice and video traffic. High-priority data is allowed to use up to

85% of the total WAN bandwidth. Although preferential treatment is given to

high-priority data, 15% of the WAN link is always reserved so that

low-priority data is not starved.
High priority data is polled before lower priority data to reduce overall latency

for voice traffic.

Traffic shaper

To smooth bursts from high speed data links (typically from the LAN Ethernet

heading to the WAN) the 4350 appliance uses a buffer that clocks data out at

rates not exceeding automatically-calculated maximums. Low-priority data is