Configuration

Table 3-8. PVC Connection Options (2 of 2)

Primary Destination Link

Possible Settings: Net1-FR1

Default Setting: Initially blank; no default.

Specifies the frame relay interface used as the primary destination link; the to end of a from-to link. The only valid settings for this configuration option are frame relay interfaces that have at least one DLCI or EDLCI defined which are not part of a PVC connection or management link. For example, if the network data port has no DLCIs defined, this interface would not appear as a valid setting.

Net1-FR1± Specifies the network interface as the destination link.

Primary Destination DLCI

Possible Settings: 16 ± 1007

Default Setting: Initially blank; no default.

Specifies the primary destination DLCI for a frame relay interface. The DLCI must be defined and cannot be part of a PVC connection or management link. For multiplexed DLCIs, at least one EDLCI must be unconnected for the DLCI to be a valid selection.

NOTE: Primary Destination DLCI has no value if Primary Destination Link contains no value.

16 ± 1007 ± Specifies the DLCI number.

Primary Destination EDLCI

Possible Settings: 0 ± 62

Default Setting: Initially blank; no default.

Specifies the primary destination Embedded Data Link Connection Identifier (EDLCI) for a frame relay interface when a multiplexed DLCI record is selected as one end of a connection.

Display Conditions ± This option only appears when the Primary Destination DLCI contains a multiplexed DLCI record number.

0 ± 62 ± Specifies the EDLCI number.

3-32

March 2000

9664-A2-GB20-00

Page 60
Image 60
Paradyne 9664 PVC Connection Options 2, Primary Destination Link, Primary Destination Dlci, Primary Destination Edlci

9664 specifications

The Paradyne 9664 is a high-performance broadband multiplexer designed for the reliable transmission of data over various types of communication media. This advanced device enables businesses and service providers to integrate multiple digital signal formats into a single high-capacity transmission line, thereby optimizing bandwidth usage and enhancing overall network efficiency.

One of the standout features of the Paradyne 9664 is its ability to support multiple protocols, including T1, T3, and Ethernet. This versatility allows users to consolidate their networking infrastructure, reducing the need for multiple types of equipment and simplifying network management. The device's capability to handle diverse data formats not only makes it suitable for various applications but also ensures future-proofing as technology continues to evolve.

The Paradyne 9664 utilizes advanced Time Division Multiplexing (TDM) technology, which enables it to allocate bandwidth dynamically based on real-time traffic demands. This intelligent bandwidth allocation helps to reduce latency and ensures that critical applications receive the necessary resources when needed. Additionally, the system features robust error correction algorithms to minimize data loss during transmission, enhancing the reliability of the network.

In terms of characteristics, the Paradyne 9664 is designed with user-friendliness in mind. Its modular architecture allows for easy upgrades and scalability, making it an attractive option for growing businesses. The device also features a comprehensive set of diagnostic tools, enabling network administrators to monitor performance and troubleshoot issues effectively.

Another noteworthy aspect of the Paradyne 9664 is its security features. With built-in encryption capabilities and the option to implement virtual private networks (VPNs), the device provides secure data transmission, protecting sensitive information from unauthorized access.

Overall, the Paradyne 9664 stands out as a robust, flexible, and efficient solution for organizations looking to enhance their communication networks. With its combination of advanced technologies, user-centric design, and strong security measures, it is well-equipped to meet the demands of today’s dynamic networking environment, making it an essential tool for businesses aiming to maintain a competitive edge in an increasingly connected world.