So what is defined as 'congestion'. Is congestion defined as reaching the interface bandwidth (or configured bandwidth) or is congestion just exceeding the hardware buffer AKA 'tx-ring-limit'? I'm trying to get a good answer on when to expect to see packet reach the software queues (CBWFQ, LLQ, etc). The reason being is that I have a Serial T3 interface (shaped down to 10Mb since thats the CIR) that I keep seeing drops and packets in queue on the 'class-default' queue although I never see the bandwidth reaching the limit when these drops/queues occur. So i'm confused as to why there is packets reaching the queue to begin with, since there's plenty of free bandwidth and also why there are drops as well.

Hi,

Can you please share "show ver" , "show module" and interface configuration. I guess on few LAN cards, inter cos bursting is not supported.

Regards,

Akash

After further researching and working with TAC, it was determined that the reason that I am seeing drops on what appears to be an under utilized interface is due to micro-burst. The micro-burst are filling up the tx-ring and software queues which are causing the drops that I am seeing. And since micro-burst are very short spikes, they aren't showing up in the SNMP or interface usage averages.

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I consider you have congestion anytime a frame/packet needs to be queued.

As your later post describes, congestion issues can be on a micro time scale, i.e. multi-second to subsecond, and are often "invisible" to higher monitoring tools monitoring on multi-minute time scales.

A short term high transmission ingress rate can often easily overflow a slower egress's queue.

Resulting drops may cause a fast sender to slow/pause (a lot) which lowers its average transmission rate - this also will "hide" the issue from "bandwidth" monitoring.