Enhanced transmission selection – Dell PowerEdge FX2/FX2s User Manual

• You can enable link-level flow control on the interface. To delete the dcb-map, first disable link-level

flow control. PFC is then automatically enabled on the interface because an interface is by default

PFC-enabled.

• PFC still allows you to configure lossless queues on a port to ensure no-drop handling of lossless

traffic.

NOTE: You cannot enable PFC and link-level flow control at the same time on an interface.

When you apply a dcb-map to an interface, an error message displays if:

• The PFC dot1p priorities result in more than two lossless port queues globally on the switch.
• Link-level flow control is already enabled. You cannot be enable PFC and link-level flow control at the

same time on an interface.

• In a switch stack, configure all stacked ports with the same PFC configuration.

A DCB MAP for PFC applied to an interface may become invalid if you reconfigure dot1p-queue mapping.
This situation occurs when the new dot1p-queue assignment exceeds the maximum number (2) of
lossless queues supported globally on the switch. In this case, all PFC configurations received from PFC-
enabled peers are removed and resynchronized with the peer devices.

Traffic may be interrupted when you reconfigure PFC no-drop priorities in a dcb-map or reapply the
dcb-map to an interface.

NOTE: All these configurations are available only in PMUX mode and you cannot perform these

configurations in Standalone mode.

Enhanced Transmission Selection

Enhanced transmission selection (ETS) supports optimized bandwidth allocation between traffic types in

multiprotocol (Ethernet, FCoE, SCSI) links.

ETS allows you to divide traffic according to its 802.1p priority into different priority groups (traffic
classes) and configure bandwidth allocation and queue scheduling for each group to ensure that each
traffic type is correctly prioritized and receives its required bandwidth. For example, you can prioritize
low-latency storage or server cluster traffic in a traffic class to receive more bandwidth and restrict best-
effort LAN traffic assigned to a different traffic class.
Although you can configure strict-priority queue scheduling for a priority group, ETS introduces flexibility
that allows the bandwidth allocated to each priority group to be dynamically managed according to the
amount of LAN, storage, and server traffic in a flow. Unused bandwidth is dynamically allocated to
prioritized priority groups. Traffic is queued according to its 802.1p priority assignment, while flexible
bandwidth allocation and the configured queue-scheduling for a priority group is supported.

The following figure shows how ETS allows you to allocate bandwidth when different traffic types are
classed according to 802.1p priority and mapped to priority groups.

Data Center Bridging (DCB)

31