1. Network Management Specification

6.3.1.2ATM Cell Layer Table (atmfM4ATMLayerEntry)

These are the ATM Forum M4 interface Configuration table extensions for the ATM cell layer. The default configuration of an entry in this table is used whenever the entries for the physical path TP, etc., are created. The management system configures a UNI, B-ICI, or B-ISSI on the interface by first modifying the atmfM4IfType column (this can be done in the same SNMP Set-request that sets up the other necessary variables.

6.3.1.3“atmfM4IfType” Object (atmfM4ATMLayerEntry 1)

Always uni(1).

6.3.1.4“atmfM4IfSubscriberAddress” Object (atmfM4ATMLayerEntry 3)

Returns zero length string. Used for SVCs.

6.3.1.5“atmfM4IfPreferredCarrier” Object (atmfM4ATMLayerEntry 4)

Returns zero length string. Used for SVCs.

6.3.1.6“atmfM4IfFarEndCarrierNetwork” Object (atmfM4ATMLayerEntry 5)

Returns zero length string. Used for SVCs in B-ICI interface.

6.3.2VCL Termination Point Configuration Table (atmfM4VclEntry)

6.3.2.1“atmfM4VclSegEndPt” Object (atmfM4VclEntry 1)

Specifies whether the VCL termination point is a segment end-point. The only valid value for this object is:

false (2)

6.3.3VC Cross-Connect Table (atmfM4VcXConnEntry)

This table augments the VC Cross-Connect configuration table in RFC 2515.

6.3.3.1“atmfM4VcXConnRecover” Object (atmfM4VcXConnEntry1)

The only valid value for this object is: true.

6.3.4ATM Cell Protocol Monitoring Current Data (atmfM4CellProtoCurrEntry)

Each ATM interface automatically has an entry in this table associated with it This table maintains per-interface statistics for the fifteen-minute interval currently being collected. Supported by unknown cell process.

6.3.4.1“atmfM4CellProtoCurrInOAMCells” Object (ATMfM4CellProtoCurrEntry 3)

Count of OAM Cells on this interface.

6.3.5ATM Cell Protocol Monitoring History Data (atmfM4CellProtoHistEntry)

This table maintains per-interface statistics for previous fifteen-minute intervals.

6.3.5.1“atmfM4CellProtoHistInOAMCells”Object (atmfM4CellProtoHistEntry 6)

Count of OAM Cells on this interface.

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June 2003

8000-A2-GB30-00

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Paradyne 8820, 8620 manual ATM Cell Layer Table atmfM4ATMLayerEntry, AtmfM4IfType Object atmfM4ATMLayerEntry

8620, 8820 specifications

The Paradyne 8620 and Hotwire 8620 GranDSLAM are advanced DSLAM devices designed to provide high-speed broadband access over existing copper lines. This installation guide will outline the main features, technologies, and characteristics of these powerful units.

The Paradyne 8620 is engineered to support various DSL technologies, including ADSL, ADSL2+, and VDSL. This versatility allows operators to deploy services tailored to the needs of their customers, enabling data rates of up to 50 Mbps downstream, making it an ideal choice for meeting increasing bandwidth demands. The Hotwire 8620 GranDSLAM shares many similarities, focusing on providing enhanced service delivery for both residential and business users.

One of the key features of the GranDSLAM series is its modular architecture. Both models support up to 48 subscriber line interfaces in a single chassis, which provides significant scalability. Operators can seamlessly increase capacity by adding additional cards to accommodate growth. The devices are designed for easy deployment and management, equipped with an intuitive web-based interface that simplifies configuration and monitoring tasks.

Both units also feature advanced management capabilities, including support for SNMP and TR-069 protocols. This allows service providers to manage and provision devices remotely, significantly reducing operational costs and improving service reliability. The GranDSLAM models can also provide detailed diagnostic information, helping operators quickly identify and troubleshoot issues.

The Paradyne and Hotwire series ensure interoperability with various customer premises equipment, enabling service providers to offer bundled services such as voice, video, and data over the same connection. This capability is enhanced by the units’ ability to support VLANs and QoS features, ensuring that high-priority traffic receives the necessary bandwidth.

In addition to performance, the 8620 series is built with energy efficiency in mind. By utilizing power-saving features, these units help reduce overall operational costs while still providing reliable service.

Overall, the Paradyne 8620 and Hotwire 8620 GranDSLAM are robust solutions for service providers looking to deliver high-speed broadband services. Their modular design, advanced management capabilities, and support for multiple DSL technologies make them an excellent choice for today’s demanding telecommunications environment. With these advantages, operators can effectively meet customer needs while preparing for future growth and technology advancements.