Featured Functions |
#Differentiated Services
IEEE 802.1D Traffic Marking
The IEEE Std 802.1D, 1998 Edition marking scheme, which is an enhancement to IEEE Std 802.1D, enables Quality of Service on the LAN. Traffic service levels are defined in the IEEE 802.1Q
The IEEE Std 802.1D, 1998 Edition priority marking scheme assigns each frame with an IEEE 802.1p priority level between 0 and 7, which determines the level of service that that type of traffic should receive. Refer to the table below for an example of how different traffic types can be mapped to the eight IEEE 802.1p priority levels.
IEEE 802.1p Priority Level | IEEE 802.1D Traffic Type |
0 | Best Effort (default) |
1 | Background |
2 | Standard (spare) |
3 | Excellent Effort (business critical) |
4 | Controlled Load (streaming multimedia) |
5 | Video (interactive media); less than 100 milliseconds |
| of latency and jitter |
6 | Voice (interactive voice); less than 10 milliseconds of |
| latency and jitter |
7 | Network Control Reserved traffic |
Even though the IEEE 802.1D standard is the most widely used prioritization scheme in the LAN environment, it still has some restrictions:
#It requires an additional
#The tag is part of the IEEE 802.1Q header, so to implement QoS at layer 2, the entire network has to implement IEEE 802.1Q VLAN tagging.
It is only supported on a LAN and not across routed WAN links, because the IEEE 802.1Q tags are removed when the packets pass through a router.
Differentiated Services (DiffServ) Traffic Marking
DiffServ is a Layer 3 marking scheme that uses the DiffServ Code Point (DSCP) field in the IP header to store the packet priority information. DSCP is an advanced intelligent method of traffic marking because you can choose how your network prioritizes different types of traffic. DSCP uses 64 values that map to
Advantages of DiffServ over IEEE 802.1D are:
#You can configure how you want your switch to treat selected applications and types of traffic, by assigning various grades of network service to them.
#No extra tags are required in the packet.
#DSCP uses the IP header of a packet and therefore priority is preserved across the Internet.
#DSCP is backward compatible with IPV4 TOS, which allows operation with existing devices that are using the layer 3 TOS enabled prioritization scheme.
Traffic Prioritization
EDS classifies traffic based on layer 2 of the OSI 7 layer model, and the Switch prioritizes received traffic according to the priority information defined in the received packet. Incoming traffic is classified based upon the IEEE 802.1D frame and is assigned to the appropriate priority