4. Configuration Options

Table 4-15. DLCI Records (2 of 3)

CIR (bps)

Possible Settings:

9720: 0 – 144000

9783: 0 – 2320000

9788: 0 – 2312000

Default Setting: 0

Determines the data rate for the DLCI that the network commits to accept and carry without discarding frames; the CIR in bits per second. Entry of an invalid rate causes the error message Value Out of Range (0 – x), where x is the maximum line rate available on the port.

0maximum – Specifies the network-committed data rate.

Committed Burst Size Bc (Bits)

Possible Settings: CIR, Other

Default Setting: CIR

Specifies whether the DLCI’s committed burst size will follow the CIR, or whether it will be entered independently. This value is the maximum amount of data that the service provider has agreed to accept during the committed rate measurement interval (Tc).

CIR – Uses the value in the CIR (bps) option as the committed burst size (Bc). The Bc and excess burst size (Be) options are updated when a CIR update is received from the network switch.

Other – Allows you to specify the committed burst size for the DLCI. When Other is selected, the Bc and Be values must be manually entered and maintained, as well.

Bc

Possible Settings:

9720: 0 – 144000

9783: 0 – 2320000

9788: 0 – 2312000

Default Setting: 0

Allows you to display or change the DLCI’s committed burst size.

Display Conditions – This option appears only when Committed Burst Size is set to Other.

0 – maximum – Specifies the DLCI’s committed burst size.

9700-A2-GB20-20

December 2002

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Paradyne manual Dlci Records 2, 9720 0 9783 0 9788 0

9720, 9788 specifications

The Paradyne 9820-8M, 9788, 9128 standalone, 9128 carrier-mount, and 9820-2M are critical components in telecommunications networks, designed to enhance data transmission and improve connectivity. Each model offers unique features and capabilities that cater to various requirements in both enterprise and service provider environments.

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The 9128 standalone model is aimed at customers requiring an easy-to-deploy solution for point-to-point connections. This model offers critical features such as an intuitive user interface, comprehensive diagnostics, and monitoring capabilities that facilitate system management. It also supports diverse network topologies, making it suitable for various deployment scenarios.

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Collectively, these Paradyne models exemplify advanced telecommunications technology, offering scalability, resilience, and high performance. Their diverse features cater to the unique demands of various users, from enterprise networks to service providers, facilitating the continual evolution of communication technologies.