Command Line Reference Guide
1162 | Quality of Service (QoS)
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show queue statistics ingress
e
Display the ingress queue statistics.
Syntax
show queue statistics ingress [unicast [src-card ID [dst-card ID]] | [multicast] [src-card ID]]
[brief]
Parameters
Defaults
No default behavior or values
Command Modes
EXEC
EXEC Privilege
Command
History
Usage
Information
TeraScale systems display cumulative queued bytes (in KB), cumulative queued packets (in KB), and
cumulative dropped packets (in KB).
The display area is limited to 80 spaces to accommodate the screen and for optimal readability.
Numbers, that is values, are limited to 12 characters. The conventions are detailed in the following
table.
Table 49-139. Numbering Conventions for show queue statistics ingress Output
unicast [src-card ID
[dst-card ID]]
(OPTIONAL) Enter the keyword unicast to display Unicast queue statistics.
Optionally, enter the source card identification (
src-card ID) and the destination card
identification (
dst-card ID) to display the unicast statistics from the source card to the
destination card.
Destination card Identification: Range 0 to 13 or RPM
multicast [src-card
ID]
(OPTIONAL) Enter the keyword multicast to display only Multicast queue statistics.
Optionally, enter the source card identification (
src-card ID) to display the multicast
statistics from the source card. Default: Both Unicast and Multicast queue statistics are
displayed.
brief (OPTIONAL) Enter the keyword brief to display only ingress per link buffering and
egress per port buffering statistics.
Version 6.2.1.1 Introduced
Value Divide the number by Quotient Display Examples
(10
^11) - (10^14)
1024 K 12345678901K
(10
^14) - (10^17)
1024*1024 M 12345678901M
> (10^17)
1024*1024*1024 T 12345678901T
Note: The show queue statistics command displays Queued Packets and Queued Bytes. The show qos
statistics command displays Matched Packets and Matched Bytes. The following example explains how
these two displays relate to each other.
• 9000 byte size packets are sent from Interface A to Interface B.
• The Matched Packets on Interface A are equal to the Queued Packets on Interface B.
• Matched bytes on Interface A = matched packets *9000
• Queued bytes on Interface B = queued packets *(9020)—Each packet has an additional
header of 20 bytes.