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7 Apply the QoS output policy with the bandwidth percentage for specied priority queues to an egress interface.

INTERFACE mode

Dell(conf-if-te-0/1)#service-policy output test12

Congure a DCBx Operation

DCB devices use data center bridging exchange protocol (DCBx) to exchange conguration information with directly connected peers

using the link layer discovery protocol (LLDP) protocol.

DCBx can detect the misconguration of a peer DCB device, and optionally, congure peer DCB devices with DCB feature settings to

ensure consistent operation in a data center network.

DCBx is a prerequisite for using DCB features, such as priority-based ow control (PFC) and enhanced trac selection (ETS), to exchange

link-level congurations in a converged Ethernet environment. DCBx is also deployed in topologies that support lossless operation for FCoE

or iSCSI trac. In these scenarios, all network devices are DCBx-enabled (DCBx is enabled end-to-end). For more information about how

these features are implemented and used, refer to:

• Conguring Priority-Based Flow Control

• Congure Enhanced Transmission Selection

• Conguring FIP Snooping

DCBx supports the following versions: CIN, CEE, and IEEE2.5.

Prerequisite: For DCBx, enable LLDP on all DCB devices.

DCBx Operation

DCBx performs the following operations:

• Discovers DCB conguration (such as PFC and ETS) in a peer device.

• Detects DCB mis-conguration in a peer device; that is, when DCB features are not compatibly congured on a peer device and the

local switch. Mis-conguration detection is feature-specic because some DCB features support asymmetric conguration.

• Recongures a peer device with the DCB conguration from its conguration source if the peer device is willing to accept

conguration.

• Accepts the DCB conguration from a peer if a DCBx port is in “willing” mode to accept a peer’s DCB settings and then internally

propagates the received DCB conguration to its peer ports.

DCBx Port Roles

To enable the auto-conguration of DCBx-enabled ports and propagate DCB congurations learned from peer DCBx devices internally to

other switch ports, use the following DCBx port roles.

Auto-upstream

The port advertises its own conguration to DCBx peers and receives its conguration from DCBX peers (ToR or

FCF device). The port also propagates its conguration to other ports on the switch.

The rst auto-upstream that is capable of receiving a peer conguration is elected as the conguration source. The

elected conguration source then internally propagates the conguration to other auto-upstream and auto-

downstream ports. A port that receives an internally propagated conguration overwrites its local conguration

with the new parameter values.

When an auto-upstream port (besides the conguration source) receives and overwrites its conguration with

internally propagated information, one of the following actions is taken:

952 FC Flex IO Modules