Setup Guide

Link Aggregation Control Protocol (LACP)
A link aggregation group (LAG), referred to as a port channel by the Dell EMC Networking OS, can provide both load-sharing and port
redundancy across line cards. You can enable LAGs as static or dynamic.
Introduction to Dynamic LAGs and LACP
A link aggregation group (LAG), referred to as a port channel by Dell EMC Networking OS, can provide both load-sharing and port
redundancy across line cards. You can enable LAGs as static or dynamic.
The benets and constraints are basically the same, as described in Port Channel Interfaces in the Interfaces chapter.
The unique benet of a dynamic LAG is that its ports can toggle between participating in the LAG or acting as dedicated ports, whereas
ports in a static LAG must be removed from the LAG in order to act alone.
The Dell EMC Networking OS uses LACP to create dynamic LAGs. LACP provides a standardized means of exchanging information
between two systems (also called Partner Systems) and automatically establishes the LAG between the systems. LACP permits the
exchange of messages on a link to allow their LACP instances to:
Reach an agreement on the identity of the LAG to which the link belongs.
Move the link to that LAG.
Enable the transmission and reception functions in an orderly manner.
The Dell EMC Networking OS implementation of LACP is based on the standards specied in the IEEE 802.3: “Carrier sense multiple
access with collision detection (CSMA/CD) access method and physical layer specications.
LACP functions by constantly exchanging custom MAC protocol data units (PDUs) across local area network (LAN) Ethernet links. The
protocol packets are only exchanged between ports that are congured as LACP capable.
Important Points to Remember
LACP allows you to add members to a port channel (LAG) as long as it has no static members. Conversely, if the LAG already contains
a statically dened member (the channel-member command), the port-channel mode command is not permitted.
A static LAG cannot be created if a dynamic LAG using the selected number exists.
No dual membership in static and dynamic LAGs:
If a physical interface is a part of a static LAG, the port-channel-protocol lacp command is rejected on that interface.
If a physical interface is a part of a dynamic LAG, it cannot be added as a member of a static LAG. The channel-member
tengigabitethernet command is rejected in the static LAG interface for that physical interface.
A dynamic LAG can be created with any type of conguration.
There is a dierence between the shutdown and no interface port-channel commands:
The shutdown command on LAG “xyz” disables the LAG and retains the user commands. However, the system does not allow the
channel number “xyz” to be statically created.
The no interface port-channel channel-number command deletes the specied LAG, including a dynamically created
LAG. This command removes all LACP-specic commands on the member interfaces. The interfaces are restored to a state that is
ready to be congured.
NOTE
: There is no conguration on the interface because that condition is required for an interface to be part of a
LAG.
You can congure link dampening on individual members of a LAG.
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466 Link Aggregation Control Protocol (LACP)