Setup Guide

ManualsBrandsDell ManualsAccess PlatformsPowerSwitch S4048-ON

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– On a DCBx port in an auto-downstream role, all PFC, application priority, ETS recommend, and ETS

conguration TLVs are enabled.

Conguration source The port is congured to serve as a source of conguration information on the switch. Peer DCB congurations

received on the port are propagated to other DCBx auto-congured ports. If the peer conguration is compatible

with a port conguration, DCBx is enabled on the port.

On a conguration-source port, the link with a DCBx peer is enabled when the port receives a DCB conguration

that can be internally propagated to other auto-congured ports. The conguration received from a DCBx peer is

not stored in the switch’s running conguration. On a DCBx port that is the conguration source, all PFC and

application priority TLVs are enabled. ETS recommend TLVs are disabled and ETS conguration TLVs are enabled.

Manual The port is congured to operate only with administrator-congured settings and does not auto-congure with

DCB settings received from a DCBx peer or from an internally propagated conguration from the conguration

source. If you enable DCBx, ports in Manual mode advertise their congurations to peer devices but do not accept

or propagate internal or external congurations. Unlike other user-congured ports, the conguration of DCBx

ports in Manual mode is saved in the running conguration.

On a DCBx port in a manual role, all PFC, application priority, ETS recommend, and ETS conguration TLVs are

enabled.

When making a conguration change to a DCBx port in a Manual role, Dell EMC Networking recommends shutting

down the interface using the shutdown command, change the conguration, then re-activate the interface using

the no shutdown command.

The default for the DCBx port role is manual.

NOTE

: On a DCBx port, application priority TLV advertisements are handled as follows:

• The application priority TLV is transmitted only if the priorities in the advertisement match the congured PFC priorities on the

port.

• On auto-upstream and auto-downstream ports:

– If a conguration source is elected, the ports send an application priority TLV based on the application priority TLV received on

the conguration-source port. When an application priority TLV is received on the conguration-source port, the auto-

upstream and auto-downstream ports use the internally propagated PFC priorities to match against the received application

priority. Otherwise, these ports use their locally congured PFC priorities in application priority TLVs.

– If no conguration source is congured, auto-upstream and auto-downstream ports check to see that the locally congured

PFC priorities match the priorities in a received application priority TLV.

• On manual ports, an application priority TLV is advertised only if the priorities in the TLV match the PFC priorities congured on the

port.

DCB Conguration Exchange

The DCBx protocol supports the exchange and propagation of conguration information for the enhanced transmission selection (ETS) and

priority-based ow control (PFC) DCB features.

DCBx uses the following methods to exchange DCB conguration parameters:

Asymmetric

DCB parameters are exchanged between a DCBx-enabled port and a peer port without requiring that a peer port

and the local port use the same congured values for the congurations to be compatible. For example, ETS uses

an asymmetric exchange of parameters between DCBx peers.

Symmetric DCB parameters are exchanged between a DCBx-enabled port and a peer port but requires that each congured

parameter value be the same for the congurations in order to be compatible. For example, PFC uses an

symmetric exchange of parameters between DCBx peers.

300 Data Center Bridging (DCB)