Paradyne 4929 DSLAM manual Parameter Description

Page 58

5. Configuration Using the NMS

Parameter

Description

 

 

Allow Tag/Untag on Ingress

Specify tag or untag. Tag indicates that ingress

Pkt.

packets already matched to the Diffserv Rule must

 

have a VLAN tag to be further considered; packets

 

without a VLAN tag will be dropped. Untag indicates

 

that ingress packets already matched to the Diffserv

 

Rule cannot have a VLAN tag to be further

 

considered; packets with a VLAN tag will be dropped.

 

 

VLAN ID Range

Specify a VLAN ID range. For each rule, if you

 

selected Tag for Allow Tag/Untag, the VLAN field

 

should specify either an acceptable single VLAN, or

 

an acceptable VLAN Range, for VLAN tags on ingress

 

packets. If you selected Untag, the VLAN field should

 

specify a single VLAN only if you intend to have a

 

VLAN tag added to packets; if you do not intend to

 

have a VLAN tag added to packets, the VLAN field

 

should be left at the 0 - 0 default.

 

 

Add VLAN to Ingress Pkt.

Specify whether the VLAN ID should be added to

 

ingress packets.

 

 

Priority

Specify the priority to be used when adding a

 

configured VLAN ID to a packet.

 

 

Fixed/Max

Specify the handling of VLAN priority (used only if the

 

received packet is already tagged):

 

„ Fixed – The packet's original priority will

 

automatically be replaced with the Priority

 

specified above,

 

„ Max – The packet's original priority will be replaced

 

with the configured Priority only if the packet's

 

original priority is greater than the configured

 

Priority.

 

 

Ingress Limit

Specify the ingress limit in kbps for packets matching

 

this rule.

 

 

Egress Limit

Specify the egress limit in kbps for packets matching

 

this rule.

 

 

3. Click on Submit.

5-24

March 2005

4929-A2-GN20-00

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Contents Dslam Copyright 2005 Paradyne Corporation All rights reserved Software and Firmware License Agreement Important Safety Instructions Page United States EMI Notice Contents Command Line Interface Configuration Using the NMSLEDs Equipment List Technical Specifications Index Connectors and Pin AssignmentsSnmp Interface Contents March Document Purpose and Intended Audience About This GuideDocument Summary Related Product Documents Document Number Document TitleIntroduction FeaturesOverview Introduction Preparation InstallationCables Required SFP ADSL2+Pots MIM-100FXMounting Configurations Package ContentsUnpacking the Hardware Installing the Brackets for Rack Mounting ProcedureInstalling the Dslam Into a Rack 05-17616 Installing the Dslam on a Wall 17.85 in 453 mm Installing the Dslam on a Shelf or Desktop Installation March Cabling Cabling OverviewInstalling the Micro Interface Module Connecting the ADSL2+ and Pots Connectors Connecting the SFP Connector or the 10/100/1000 Connector Connecting DSLAMs to Each Other Connecting the COM Port Connecting a Terminal or PC to the COM PortConnecting to Power Connecting a Modem to the COM Port+48 VDC -48 VDC LED Meanings LEDsLED Locations Front Panel LEDs 1ACT Front Panel LEDs 2PWR Configuration Using the NMS Web Interface System RequirementsConfiguring Your Windows PC to Communicate with NMS NMS home page appears Management Configuration Parameter DescriptionAdvanced Configuration DslamHttp Password Snmp Configuration Snmp Community Administration Global SetGlobal Circuit Configuration Parameter Description Global Dscp Rules Vlan Global IP Rules Specify a Vlan ID range. For each Global IP Range Global MAC Rules Specify a Vlan ID range. For each Global MAC Rule Global Vlan Rules Specify a Vlan ID range that constitutes a match Global Advanced Configuration EC/FDMCircuit Summary Circuit Configuration Parameter Description Dscp Rules Parameter Description IP Rules Parameter Description MAC Rules Parameter Description Vlan Rules Allow Tag/Untag on Ingress Specify tag or untag Pkt Backbone Vlan ID Upstream device must be properly configured Port Statistics Copy Port SNR Advanced Configuration MAC and Igmp Summary MAC-IGMPParameter Description Configuration Using the NMS Dslam Interconnect Configuration Configuration Using the NMS March Connecting a PC Directly Command Line InterfaceCLI System Requirements Launching the Terminal Emulation Program CLI CommandsCLI Commands 1 Description Logging Into the CLICLI Commands 2 Description Set and Show Command Items and Values 1Set and Show Command Items and Values 2 Using the CLI to Establish Inband Management Set and Show Command Items and Values 3Command Line Interface March Snmp Interface Downloading MIBsSnmp Community Strings Access Community StringSnmp Community String Connectors and Pin Assignments Figure A-1 Dslam Front PanelDSL Ports and Pots Splitter Connectors SFP Connector Table A-2. Port 3 GigE Connector Signal PinTable A-3 /100/1000 Pinouts Signal 10/100/1000BaseT ConnectorDB9 to RJ45 Adapter Pinouts Equipment List Equipment List March DSL Technical SpecificationsTable C-1 Series Dslam Technical Specifications 1 Criteria EMCTable C-1 Series Dslam Technical Specifications 2 Criteria Index CLIIN-2 Snmp IN-4

4929 DSLAM specifications

The Paradyne 4929 Digital Subscriber Line Access Multiplexer (DSLAM) represents a significant advancement in broadband access technology, designed to facilitate high-speed internet connectivity over existing copper phone lines. Its deployment has empowered telecommunications providers to offer enhanced services, ensuring reliable and efficient data transmission.

One of the main features of the Paradyne 4929 DSLAM is its ability to support multiple DSL technologies. Primarily, it accommodates both Asymmetric Digital Subscriber Line (ADSL) and Very high-bit-rate Digital Subscriber Line (VDSL), allowing operators to offer various service tiers depending on customer needs. This flexibility caters to both residential consumers seeking basic internet access and businesses requiring higher bandwidth and improved performance.

The Paradyne 4929 is designed with a robust architecture that supports high-density line cards. This enables the multiplexing of numerous DSL connections, maximizing the number of subscribers that can be served from a single unit. Additionally, its compact design and modular construction allow for easy scalability, ensuring that providers can expand capacity as subscriber demand grows without major overhauls to existing infrastructure.

Another notable characteristic of the Paradyne 4929 DSLAM is its advanced capabilities for traffic management and Quality of Service (QoS) features. By implementing intelligent traffic prioritization, the DSLAM can optimize bandwidth allocation for different types of data, ensuring that critical applications such as VoIP and streaming services receive the necessary resources for smooth performance. This focus on QoS enhances user experience and customer satisfaction.

The DSLAM also integrates seamlessly with the existing network infrastructure, supporting various management and provisioning protocols, including SNMP (Simple Network Management Protocol). This facilitates real-time monitoring and maintenance, allowing operators to quickly address issues and optimize performance.

Moreover, the Paradyne 4929 DSLAM includes built-in security features, protecting against unauthorized access and potential cyber threats. This increased security aspect is crucial for service providers looking to safeguard their networks and customer data.

In summary, the Paradyne 4929 DSLAM stands out in the competitive landscape of broadband access technologies. With its support for multiple DSL standards, high-density capabilities, intelligent traffic management, and robust security measures, it remains a reliable choice for telecommunications providers aiming to deliver high-speed internet services effectively. The 4929 DSLAM's adaptability and performance make it a strong contender in the evolution of broadband technology, driving the digital transformation in both residential and business environments.
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