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Lossless dynamic load sharing on ports – Dell POWEREDGE M1000E User Manual

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Fabric OS Administrator’s Guide

125

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Lossless Dynamic Load Sharing on ports

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The -txport and -rxport options accept the arguments “-1” (for fixed-port switches) or “-1/-1”
(for modular switches). These stand for “any back-end port.”. Using this notation you can select
specifically those discarded frames that have a back-end port in the TX port or RX port field.

NOTE

Individual back-end ports cannot be specified, only the quality of being a back-end port can be
specified.

Lossless Dynamic Load Sharing on ports

Lossless Dynamic Load Sharing (DLS) allows you to rebalance port paths without causing
input/output (I/O) failures. For devices where in-order delivery (IOD) of frames is required, you can
set IOD separately. You can use this feature with the following hardware:

Brocade 300

Brocade 5100

Brocade 5300

Brocade 6505

Brocade 6510

Brocade 6520

Brocade VA-40FC

Brocade FC8-16, FC8-32, FC8-48, and FC8-64 port blades

Brocade DCX 8510 Backbone family and supported blades

Brocade FC16-32 and FC16-48 port blades

Brocade FC8-32E and FC8-48E port blades

Brocade FX8-24 application blades in the Brocade DCX and DCX-4S Backbones

On the Brocade 7800 switch and the FX8-24 application blade, Lossless DLS is supported only on
FC-to-FC port flows.

ATTENTION

When you implement Lossless DLS, the switches in the fabric must have either Fabric OS v6.3.0 or
Fabric OS v6.4.0 or later installed to guarantee no frame loss.

Lossless DLS must be implemented along the path between the target and initiator. You can use
Lossless DLS on ports connecting switches to perform the following functions:

Eliminate dropped frames and I/O failures by rebalancing the paths going over the ISLs
whenever there is a fabric event that might result in suboptimal utilization of the ISLs.

Eliminate the frame delay caused by establishing a new path when a topology change occurs.

Lossless mode means no frame loss during a rebalance and only takes effect if DLS is enabled.
Lossless DLS can be enabled on a fabric topology in order to have zero frame drops during
rebalance operations. If the end device also requires the order of frames to be maintained during
the rebalance operation, then IOD must be enabled. However this combination of Lossless DLS and
IOD is supported only in specific topologies, such as in a FICON environment.