Concept Guide

ManualsBrandsDell ManualsAccess PlatformsPowerSwitch S5048F-ON

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Step Task Command Command Mode

Apply the DCB map, created to disable the PFC operation,

on the interface

dcb-map {name | default}

INTERFACE

Congure the port queues that still function as no-drop

queues for lossless trac. For the dot1p-queue

assignments.

The maximum number of lossless queues globally supported

on a port is 2.

You cannot congure PFC no-drop queues on an interface

on which a DCB map with PFC enabled has been applied,

or which is already congured for PFC using the pfc

priority command.

Range: 0-3. Separate queue values with a comma; specify a

priority range with a dash; for example: pfc no-drop queues

1,3 or pfc no-drop queues 2-3 Default: No lossless queues

are congured.

pfc no-drop

queuesqueue-range

INTERFACE

Priority-Based Flow Control Using Dynamic Buer

Method

In a data center network, priority-based ow control (PFC) manages large bursts of one trac type in multiprotocol links so that it does not

aect other trac types and no frames are lost due to congestion. When PFC detects congestion on a queue for a specied priority, it

sends a pause frame for the 802.1p priority trac to the transmitting device.

Pause and Resume of Trac

The pause message is used by the sending device to inform the receiving device about a congested, heavily-loaded trac state that has

been identied. When the interface of a sending device transmits a pause frame, the recipient acknowledges this frame by temporarily

halting the transmission of data packets. The sending device requests the recipient to restart the transmission of data trac when the

congestion eases and reduces. The time period that is specied in the pause frame denes the duration for which the ow of data packets

is halted. When the time period elapses, the transmission restarts.

When a device sends a pause frame to another device, the time for which the sending of packets from the other device must be stopped is

contained in the pause frame. The device that sent the pause frame empties the buer to be less than the threshold value and restarts the

acceptance of data packets.

Dynamic ingress buering enables the sending of pause frames at dierent thresholds based on the number of ports that experience

congestion at a time. This behavior impacts the total buer size used by a particular lossless priority on an interface. The pause and resume

thresholds can also be congured dynamically. You can congure a buer size, pause threshold, ingress shared threshold weight, and

resume threshold to control and manage the total amount of buers that are to be used in your network environment.

Buer Sizes for Lossless or PFC Packets

You can congure up to a maximum of 4 lossless (PFC) queues. By conguring 4 lossless queues, you can congure 4 dierent priorities

and assign a particular priority to each application that your network is used to process. For example, you can assign a higher priority for

time-sensitive applications and a lower priority for other services, such as le transfers. You can congure the amount of buer space to be

allocated for each priority and the pause or resume thresholds for the buer. This method of conguration enables you to eectively

manage and administer the behavior of lossless queues.

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Data Center Bridging (DCB)