Missed to mention interface is GigE with hardcoded Bandwidth of 100Mbps.

Regards,

Smitesh

It seems a lot to have 25% overhead. I don't understand the ratios, are you saying that voice has 80/180 * 75 Mbps bandwidth? Why such strange ratios?

How much of the traffic are you expecting to be voice? Which codec are you using? No 802.1Q on the Ethernet interface?

I wonder if they are counting in the MPLS encapsulation into that. In my opinion that should not be your problem though. If you buy a 100 Mbps circuit it should be 100 or close to it, how the packets are transported is not of your concern.

Daniel Dib
CCIE #37149

Please rate helpful posts.

Hi All,

The policy-map is bit more complex,so I just wrote the consice and brief what it is doing.

Let me put my doubt in other words, say if bandwidth provided by telco is 100Mbps, also same is configured on interface with bandwidth command.

Now if I shape any class at 68 Mbps, while shaping is in action does it includes L2 overheads ?

Regards,

Smitesh

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The problem is, (I believe) many shapers don't account for L2 overhead.  So, you need to shape slower than the nominal L2 bandwidth.  The question then, is how much slower.  The answer depends on the size of the your underlying packet as the percentage of L2 overhead increases as the packet size decreases.

If you looks at this Table 1 in http://www.cisco.com/web/about/security/intelligence/network_performance_metrics.html, you'll see the minimum size Ethernet packets actually use 84 bytes on the wire to send a payload of 46 bytes.  So for those, your overhead is 38/84 = 45.2%.  I.e. if your packets were all that small, even shaping at 25% slower would be "too fast".

Conversely, if you were sending maximum (standard) Ethernet packets, your payload is 1500 bytes with 1538 bytes on the wire.  In that case, your L2 overhead is only 38/1538 = 2.47%.

Usually, though, all your packets are not minimum nor maximum size, and so you can often shape for average packet size, but when supporting VoIP, you want to err on the side of too small.

Personally, I've found 15% usually works okay, but although 25% seems excessive, it may not be.  In fact, depending on your traffic, it may be insufficient.

The above is one of the reasons I'll often suggest running physical interfaces at the logical bandwidth (if possible).  I.e. if your agreed bandwidth is 100 Mbps, run the GigEthernet interface at 100 Mbps, not gig. Then use physical congestion on your interface to cause any necessary "backpressure".

BTW, another issue with shapers is they average transmission rate over some time period, which can lead to transient congestion on a physical interface.  The impact of this can be minimized by using a small Tc, generally 10 ms or less will work well.  What Tc is your Telco using?

PS:

Nice Wiki article with image of parts of an Ethernet frame, http://en.wikipedia.org/wiki/Ethernet_frame