Motorola T3 Power Broadband manual Network qos interface queue interface-id mode mode

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Quality of Service

Once a port has been set to use dynamic or static mode; specify whether T3 will use IP TOS or 802.1P precedence bit for dynamic packet classification.

network qos interface queue <interface-id> mode <mode>

Deprecated commands to set the queuing mechanism on a port. This command is superseded by network qos interface egress which has more configuration options.

When using this command, note that WFQ has a fixed percentage for each queue:

Critical:

strict priority over all other queues

High:

70% of available bitrate

Medium:

20% of available bitrate

Low:

10% of available bitrate

In priority mode, strict priority applies to all queues where a higher queue always transmits before a lower queue.

Note that when using wfq mode, a low priority queue will use all the available bandwidth if a higher priority queue is not in the transmission buffer.

network qos interface egress priority <interface-id> queue <queue>

Any queue assigned as a Priority queue will transmit using strict priority. A higher level queue will always transmit before a lower level queue. Use priority mode for latency and jitter sensitive applications.

network qos interface egress shaping <interface-id> queue <queue> peak <peak rate> average <avg rate> burst <burst size>

Set a fixed traffic shaping parameter for each queue. Note that a queue will never exceed the peak rate parameter regardless of other services on the port.

Where;

 

Queue:

the queue where you wish to shape traffic. Valid options are critical, high, medium, or low

Peak:

the maximum rate for the queue, in Mbits/second

Average:

the average rate for the queue, in Mbits/second

Burst:

the maximum data burst allowed at the peak rate

network qos interface egress wfq <interface-id> queue <queue> weight <0-200>

Configure the behavior of the WFQ scheduling method. Bitrates are determined as a percentage of the total queue weights.

In order to determine the percentage of bandwidth that will be allocated for a particular queue, divide the queue weight by the sum of all the queues “weight”.

For example; assume the High queue weight is 100 and the Medium queue weight is 50. 100 + 50 = 150. So, the High queue will receive 66% of the bandwidth (100/150=0.667) and the Medium queue will receive 33% of the bandwidth (50/150=0.33).

network qos multicast config queue-allocation <allocation>

Multicast packets are allocated a separate set of transmission buffers. Set the multicast queue to be the same queue where the multicast packets will be transmitted. For example, if using video packets with an IP TOS bit, assign the packets to the high queue based on the IP TOS bit, and assign the multicast queue to be also use high. T3 has no way to automatically determine where the multicast packets will be transmitted.

network qos wred enable disable

Motorola, Inc.

570510-001-00 rev A

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Contents T3 PowerBroadband Page International Regulatory Statements Model Number45225Frequency of Operation FCC and IC RF Exposure GuidelinesMarking and European Economic Area EEA Radio Frequency Interference Requirements- FCCM2 WallPlate T2-2500 and T3 SwitchWaste Electrical and Electronic Equipment Weee Commands and Syntax Quality of Service QoS Show Commands Commands and SyntaxCommand Hierarchy Administrative CommandsCommand Completion Global CommandsStyle Conventions Interface Range M2 Ethernet WallPlate T3 PowerBroadband SwitchAdaptive Line Power System DescriptionFeatures of the MC-802 802.11b/g radio Physical MC-802 Wireless WallPlateM2 Ethernet WallPlate Physical Radio Model Number Part Number Description HardwareModel Numbers and Description Model Numbers and Description for related ProductsMounting Options Front ViewRear View Cross-Connect ConnectionsLED Status Lights M2 2 port Ethernet WallPlatePage Access Methods System AdministrationManagement Access CLI Configuration Script filesFile dir Configuration Files using the webUIHttp Menus T3 Firmware Wireless WallPlate FirmwareReboot the Wireless WallPlate to activate the new software Upgrading the FirmwareLine Quality Summary Startup Running View System Configuration and StatusSystem config mode automanualmode Commit modeReset to Default Configuration Other Configuration HelpShow remote image Managing the Wireless WallPlatesWallPlate Inventory and Firmware Image Show remote inventoryPrivate IP address IP AddressesStatic IP address pool Public IP addressGlobal Radio Commands Configuring a WlanMonitor the WLANs and radios Per-WLAN CommandsExpanded Statistics and Status Ip access-list config 1 deny http Access Control Lists ACLsConfigure the Radius Server Radius network authenticated loginAuthenticating Administrative Access Authenticating Clients usingComponents provided with the MC-802 WallPlate WallPlate InstallationBasic Configuration Tools RequiredStep Components required to purchaseDetermine which port is being installed Enable line powerEnable line power Finish the installationTagged Untagged Vlan Specification802.1Q VLANs Vlan terminologyTag-based Vlan Mode Port-based Vlan Mode Vlan commandsVlan General webUI Web UI configurationSet Vlan Ingress Rules Tag-based Vlan webUICreate/Delete VLANs Set Vlan Egress RulesPort-based Vlan webUI QoS commands and concepts Quality of Service QoSNetwork qos interface queue interface-id mode mode 802.1P bit Dynamic packet classificationQueue Packet transmission CommandsQoS Example Packet ClassificationLine Status Line Current Value Watts Reference Line CurrentFast Ethernet WallPlate ports Appendix a Pin-out AssignmentsT3 PowerBroadband Appendix B Hardware SpecificationsM2 WallPlate MC-802 Wireless WallPlate
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