Setup Guide
NOTE: The show cam-usage command provides much of the same information as the test cam-usage command, but
whether a policy-map can be successfully applied to an interface cannot be determined without rst measuring how many CAM
entries the policy-map would consume; the test cam-usage command is useful because it provides this measurement.
• Verify that there are enough available CAM entries.
test cam-usage
Example of the test cam-usage Command
DellEMC# test cam-usage service-policy input pmap_l2 port-set 0 | port pipe
Port-pipe | CAM Partition | Available CAM | Estimated CAM | Status
=====================================================================
0 L2ACL 500 200 Allowed(2)
Specifying Policy-Based Rate Shaping in Packets Per
Second
You can congure the rate shaping in packets per second (pps) for QoS output policies.
You can congure rate shaping in pps for a QoS output policy, apart from specifying the rate shaping value in bytes. You can also congure
the peak rate and the committed rate for packets in kilobits per second (Kbps) or pps.
Committed rate refers to the guaranteed bandwidth for trac entering or leaving the interface under normal network conditions. When
trac propagates at an average rate that is less than or equal to the committed rate, it is considered to be green-colored or coded. When
the transmitted trac falls below the committed rate, the bandwidth, which is not used by any trac that is traversing the network, is
aggregated to form the committed burst size. Trac is considered to be green-colored up to the point at which the unused bandwidth
does not exceed the committed burst size.
Peak rate refers to the maximum rate for trac arriving or exiting an interface under normal trac conditions. Peak burst size indicates the
maximum size of unused peak bandwidth that is aggregated. This aggregated bandwidth enables brief durations of burst trac that
exceeds the peak rate and committed burst.
In releases of Dell EMC Networking OS earlier than Release 9.3(0.0), you can congure only the maximum shaping attributes, such as the
peak rate and the peak burst settings. You can now specify the committed or minimum burst and committed rate attributes. The
committed burst and committed rate values can be dened either in bytes or pps.
You can use the rate-shape pps peak-rate burst-packets command in the QoS Policy Out Conguration mode to congure
the peak rate and burst size as a measure of pps. Alternatively, you can use the
rate shape kbps peak-rate burst-KB command
to congure the peak rate and peak burst size as a measure of bytes.
Similarly, you can use the rate-shape pps peak-rate burst-packets committed pps committed-rate burst-
packets command in the QoS Policy Out Conguration mode to congure the committed rate and committed burst size as a measure of
pps. Alternatively, you can use the
rate shape kbps peak-rate burst-KB committed kbps committed-rate burst-
KB command to congure the committed rate and committed burst size as a measure of bytes. If you congure the peak rate in pps, the
peak burst size must also be congured as a measure of number of packets. Similarly, if you congure the peak rate in Kbps, the peak burst
size must also be congured as a measure of bytes.
Conguring Policy-Based Rate Shaping
You can congure the rate shaping for QoS output policies in packets per second (pps).
You can explicitly specify the rate shaping functionality for QoS output policies as peak rate and committed rate attributes. You can also
congure the peak burst and committed burst sizes. All of these settings can be congured in Kbps, Mbps, or pps.
To congure the peak and committed rates and burst sizes, perform the following steps:
1 Congure the peak rate and peak burst size in pps in QoS Policy Out Conguration mode.
QOS-POLICY-OUT mode
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Quality of Service (QoS)