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CHAPTER 5
Intel
®
NetStructure™ 470T and 470F Switches User Guide
Flow Control
During times of heavy network activity, the switch’s port buffers can
receive too much traffic and fill up faster than the switch can send the
information. In cases like this, the switch tells the transmitting device to
wait so the information in the buffer can be sent. This intervention is called
flow control.
The method of flow control depends on whether the ports are set to full-
duplex or half-duplex. If a port is operating at half-duplex, the switch sends
a collision which causes the transmitting device to wait. If the port operates
at full-duplex, the switch sends out an 802.3x PAUSE frame. You can
enable or disable flow control for each port on the NetStructure™ 470
switches.
Priority
IEEE 802.1p is part of a new standard for tagging, or adding additional
information (4 bytes) to packets to indicate a priority level. When these
packets are sent out on the network, the higher priority packets are
transferred first. Priority packet tagging (also known as Traffic Class
Expediting) is usually set at the adapter and works with other elements of
the network (switches, routers) to deliver priority packets first. 802.1p
tagging consists of eight levels from 0 (low) to 7 (high).
The NetStructure™ 470 switches have the ability to read IEEE 802.1p
priority tags and forward traffic on a per port basis. Each switch has two
priority queues and routes traffic to a queue depending on the packet’s tag.
For example, when a packet comes into the switch with a high priority tag,
the switch routes the packet to its high-priority queue.
Even though there are eight priority levels, the switch can only route a
packet into one of the two queues. The switch maps levels 0-3 to the low
queue and levels 4-7 to the high queue. If a packet is untagged, the switch
determines the best way to send the packet.