3Com 3c17300 Implementation Guide - Page 50

How Traffic Prioritization Works, 802.1D traffic classification, Resource planning applications

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52 CHAPTER 6: USING TRAFFIC PRIORITIZATION ■ Resource planning applications - Used by organizations that require predictable and reliable access to enterprise resource planning applications such as SAP. ■ Financial applications - Used by Accounts departments that need immediate access to large files and spreadsheets. ■ CAD/CAM design applications - Used by design departments that need priority connections to server farms and other devices for transferring large files. How Traffic Prioritization Works Traffic prioritization ensures that high priority data is forwarded through the Switch without being delayed by lower priority data. Traffic prioritization uses the two traffic queues that are present in the hardware of the Switch to ensure that high priority traffic is forwarded on a different queue from lower priority traffic. High priority traffic is given preference over low priority traffic to ensure that the most critical traffic gets the highest level of service. The Switch employs two methods of classifying traffic for prioritization. Traffic classification is the means of identifying which application generated the traffic, so that a service level can be applied to it. The two supported methods for classifying traffic are: ■ 802.1D (classification is done at layer 2 of the OSI model). ■ DiffServ code point (classification is done at layer 3 of the OSI model). 802.1D traffic classification At layer 2, a traffic service class is defined in 802.1Q frame, which is able to carry VLAN identification and user priority information. The information is carried in a header field immediately following the destination MAC address, and Source MAC address. 802.1D Priority Levels The traffic prioritization feature supported by the Switch at layer 2 is compatible with the relevant sections of the IEEE 802.1D/D17 standard (incorporating IEEE 802.1p). Once a packet has been classified, the level of service relevant to that type of packet is applied to it. The 802.1D standard specifies eight distinct levels of priority (0 to 7), each of which relates to a particular type of traffic. The priority levels and their traffic types are shown in Figure 13 in order of increasing priority.

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52
C
HAPTER
6: U
SING
T
RAFFIC
P
RIORITIZATION
Resource planning applications
— Used by organizations that
require predictable and reliable access to enterprise resource planning
applications such as SAP.
Financial applications
— Used by Accounts departments that need
immediate access to large files and spreadsheets.
CAD/CAM design applications
— Used by design departments that
need priority connections to server farms and other devices for
transferring large files.
How Traffic
Prioritization Works
Traffic prioritization ensures that high priority data is forwarded through
the Switch without being delayed by lower priority data. Traffic
prioritization uses the two traffic queues that are present in the hardware
of the Switch to ensure that high priority traffic is forwarded on a
different queue from lower priority traffic. High priority traffic is given
preference over low priority traffic to ensure that the most critical traffic
gets the highest level of service.
The Switch employs two methods of classifying traffic for prioritization.
Traffic classification is the means of identifying which application
generated the traffic, so that a service level can be applied to it.
The two supported methods for classifying traffic are:
802.1D (classification is done at layer 2 of the OSI model).
DiffServ code point (classification is done at layer 3 of the OSI model).
802.1D traffic
classification
At layer 2, a traffic service class is defined in 802.1Q frame, which is able
to carry VLAN identification and user priority information. The
information is carried in a header field immediately following the
destination MAC address, and Source MAC address.
802.1D Priority Levels
The traffic prioritization feature supported by the Switch at layer 2 is
compatible with the relevant sections of the IEEE 802.1D/D17 standard
(incorporating IEEE
802.1p). Once a packet has been classified, the level
of service relevant to that type of packet is applied to it.
The 802.1D standard specifies eight distinct levels of priority (0 to 7),
each of which relates to a particular type of traffic. The priority levels and
their traffic types are shown in
Figure 13
in order of increasing priority.