Command Line Reference Guide
• In the event of fragmented packets, the egress port of the subsequent
fragments.
NOTE: In the show port channel flow command output, the egress port
for an unknown unicast, multicast, or broadcast traffic is not displayed.
The following example shows the show port-channel-flow outgoing-port-
channel number incoming-interface interface source-mac address
destination-mac address
• Load-balance is configured for MAC
• Load-balance is configured for IP 4-tuple/2-tuple
• A non-IP payload is going out of Layer 2 LAG interface that is a member of
VLAN with an IP address
Example
Dell#show port-channel-flow outgoing-port-channel 1 incoming-
interface te 2/0
source-mac 00:00:50:00:00:00 destination-mac 00:00:a0:00:00:00
Egress Port for port-channel 1, for the given flow, is Te
2/1
HiGig Port Channel Commands
High-Gigabit Ethernet (HiGig) port channels are used to transmit data between internal backplane ports
on line-card (leaf) and switch fabric module (SFM - spine) network processing units (NPUs). You can
configure an SNMP trap to be generated when traffic distribution in a HiGig port channel is uneven.
NOTE: HiGig port channels on the backplane are also referred to as HiGig link bundles in Z9500
documentation and CLI.
On the Z9500, backplane port channels operate as HiGig link bundles to transmit data traffic between
line-card and SFM NPUs. There are 11 line-card and 6 SFM NPUs. The 6 SFM (spine) NPUs comprise the
switch fabric module; the 11 line-card (leaf) NPUs are used across three Z9500 line cards.
Line-card NPUs are numbered as follows:
• Line-card slot 0 uses three NPUs numbered 0 to 2.
• Line-card slot 1 uses four NPUs numbered 0 to 3.
• Line-card slot 2 uses four NPUs numbered 0 to 3.
SFM NPUs are numbered 0 to 5.
Line-card and SFM NPUs use HiGig port channels to transmit data.
• An SFM NPU uses 11 HiGig port channels, one port channel to transmit data to each line-card NPU.
Each HiGig port channel in an SFM NPU consists of two HiGig links.
Interfaces
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