Congestion management, Causes, impacts, and countermeasures of congestion, Congestion management policies – H3C Technologies H3C SecPath F1000-E User Manual

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NOTE:

Traffic policing can be configured in the policy-based approach or CAR list-based approach. This chapter
introduces only how to configure traffic policing in the policy-based approach. For how to configure traffic
policing in the CAR list-based approach, see

Network Management Configuration Guide.

Congestion management

Causes, impacts, and countermeasures of congestion

Congestion occurs on a link or node when traffic size is so large that the processing capability of the link

or node is exceeded. It is typical of a statistical multiplexing network and can be caused by link failure,
insufficient resources, and various other causes.

Figure 175

shows two common congestion scenarios:

Figure 175 Typical traffic congestion scenarios

Congestion may bring these negative results:

•

Increased delay and jitter during packet transmission

•

Decreased network throughput and resource use efficiency

•

Network resource (memory in particular) exhaustion and even system breakdown

Congestion is unavoidable in switched networks or multi-user application environments. To improve the
service performance of your network, you must take measures to manage and control it.
One major issue that congestion management deals with is how to define a resource dispatching policy

to prioritize packets for forwarding when congestion occurs.

Congestion management policies

Queuing is a common technology used for congestion management. It classifies traffic into queues and
picks out packets from each queue following a certain algorithm. The device provides various queuing

algorithms, each addressing a particular network traffic problem. Your choice of algorithm affects

bandwidth assignment, delay, and jitter significantly.
Congestion management involves queue creating, traffic classification, packet enqueuing, and queue
scheduling. Queue scheduling treats packets with different priorities differently to transmit high-priority

packets preferentially.
Several common queue-scheduling mechanisms are introduced here.

1.

FIFO