Posts Tagged ‘marking’

Oct
30

In this post we will look at the basic classification and marking features available in the 3550 and 3560 switches. Basic features include packet marking using port-level settings and port-level policy-maps. Discussing Per-VLAN classification is outside the scope of this document.

The Catalyst QoS implementation bases on Differentiated Services model. In a few words, the ideas of this model could be outlined as follows:

1) Edge nodes classify ingress packets based on local policy and QoS label found in packets.
2) Edge nodes encode traffic classes using a special field (label) in packets to inform other nodes of the classification decision.
3) Core and edge nodes allocate resources and provide services based on the packet class.

Continue Reading

Tags: , , , , , , ,

Feb
26

Catalyst QoS configuration for IP Telephony endpoints is one of the CCIE Voice labs topics. Many people have issues with that one, because of need to memorize a lot of SRND recommendations to do it right. The good news is that during the lab exam you have full access to the QoS SRND documents and UniverCD content. The bad news is that you won’t probably have enough time to navigate the UniverCD with comfort plus the reference configurations often have a lot of typos and mistakes in them.

Continue Reading

Tags: , , , , , ,

Feb
23

QoS features available on Catalyst switch platforms have specific limitations, dictated by the hardware design of modern L3 switches, which is heavily optimized to handle packets at very high rates. Catalyst switch QoS is implemented using TCAM (Ternary Content Addressable Tables) – fast hardware lookup tables – to store all QoS configurations and settings. We start out Catalyst QoS overview with the old, long time available in the CCIE lab, the Catalyst 3550 model.

Continue Reading

Tags: , , , , , , ,

Categories

CCIE Bloggers