Cabletron Systems HSIM-A6DP manual Signaling Screen Fields

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The Signalling Screen

3.15.1 Signaling Screen Fields

The Signaling screen allows the user to set the parameters for all SVCs, to view the Interim Local Management Interface (ILMI) Physical Address, view the current version of UNI being used by the HSIM-A6DP, to disable ILMI and UNI, and to restart ILMI and UNI.

The following list explains each of the Signaling screen fields:

ILMI Status (Modifiable)

This field allows the user to enable or disable the ILMI. This field contains the following options: [Auto Configure Enabled], [Enabled] and [Disabled]. The default for this field is [Auto Configure Enabled]. For instructions on how to change the ILMI status, refer to Section 3.15.2.

ILMI State (Read-Only)

This is a read-only field that displays the current status of the ILMI. For the HSIM-A6DP to function properly this field should read “Enabled”. Section 3.15.3 details what occurs when the ILMI is disabled.

ILMI Physical ATM Address (Read-Only)

This is a read-only field that displays the physical ATM address of the HSIM-A6DP.

UNI Status (Toggle)

This field displays the current UNI status. This field toggles between [Enabled] and [Disabled]. For instructions on how to change the UNI status refer to Section 3.15.4.

UNI Qsaal Status (Read-Only)

This is a read-only field that displays the current UNI Qsaal status. If the HSIM-A6DP is connected to an ATM network, this field should read “Enabled”. If this field reads “Disabled” UNI did not start up correctly, and some UNI services may not be available. If this field remains in a disabled state, check that all appropriate UNI services in the ATM network have been configured properly.

HSIM-A6DP User’s Guide

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Contents HSIM-A6DP Page HSIM-A6DP User’s Guide DOC Notice Cabletron Software Program License HSIM-A6DP User’s Guide Declaration of Conformity HSIM-A6DP User’s Guide Contents Viii HSIM-A6DP User’s Guide Chapter Contents HSIM-A6DP User’s Guide Chapter Introduction Document Conventions Using this ManualOverview FeaturesRelated Manuals SpecificationsYour email address Getting HelpHSIM-A6DP User’s Guide Unpacking the Hsim Chapter InstallationRemoving the Apim Coverplate Installing APIMsInstalling APIMs Installing an Hsim in an Interface Module Installing AN HsimInstalling an Hsim Installing the HSIM-A6DP Installing an Hsim in a Standalone Hub HSIM-A6DP User’s Guide Chapter Local Management Keyboard Conventions Local Management Keyboard ConventionsExiting Local Management Screens Navigating Local Management ScreensSelecting Local Management Menu Screen Items Using the Return Command HSIM-A6DP ATM Screen Accessing Local ManagementHSIM-A6DP ATM Screen ATM Connections Screen ATM Connections ScreenATM Connections Screen Fields 6E132-25 Local Management Interface 25 ATM Connection Setup ATM Connection Setup ScreenATM Connection Setup Screen Fields Encapsulation Type Read-Only 1 Add/Delete Entry Screen Fields ADD/DELETE Entry ScreenAdding an Entry PVC Deleting an Entry PVC Modifying an Entry PVCATM Redundancy Configuration Screen ATM Redundancy Configuration ScreenATM Redundancy Configuration Screen Fields Active Port Read-Only Setting the Active Port Setting the Redundancy StatusSetting the Primary Port Setting the Revert to Primary Port Field Setting the Activation of Redundant Port FieldSetting the Periodic Test Time Setting the Periodic Test Status FieldUsing the Reset to Factory Defaults Command Using the Test Ports NOW CommandATM LEC Screen ATM LEC ScreenATM LEC Screen Fields ATM LEC Table Screen ATM LEC Table ScreenATM LEC Table Screen Fields Prev Command 6E132-25 Local Management Interface 25 Elan Administration LEC Administration ScreenLEC Administration Screen Fields Modify Mode 11.3 Configuring the LEC Automatically Create Mode Only Changing the LEC Status Modify Mode Only11.4 Configuring the LEC Manually Create Mode Only Modifying an Existing LEC Deleting an Existing LEC Elan Properties Screen Fields Elan Properties ScreenThis field displays the ATM Address of the LEC Lecs ATM Addr Read-Only Interface 25 LEC ARP Cache Screen LEC ARP Cache ScreenLEC ARP Cache Screen Fields Search Command LEC ARP Cache Search Screen LEC ARP Cache Search ScreenPerforming a Search LEC ARP Cache Search Screen Fields13 LEC ARP Cache Search Results VPI, VCI Read-Only Auto Configure Enabled Signalling ScreenSignaling Screen Fields Changing the Ilmi Status Disabling the Ilmi Status Restarting the Ilmi Changing the UNI StatusRestarting UNI Setting the UNI Version 15 The ATM Discovery Elan Setup Screen Discovery Elan Setup ScreenATM Discovery Elan Setup Screen Fields Assigning the HSIM-A6DP to a discovery Elan Discovery Elan Setup Screen Enabling the Bandwidth Allocation Mode Feature Using the Bandwidth Allocation Mode FeatureEnabling the Bandwidth Allocation Mode Feature 17 The Bandwidth Allocation Mode Warning Screen 6E132-25 Local Management Interface 25 ATM Connection Setup Creating Pvcs with the Bandwidth Allocation Mode EnabledThis field displays the port Apim on which the PVC resides BW Mbps Read-Only 19 The Add/Delete Entry Screen 20.1 Add/Delete Entry Screen FieldsTotal Bandwidth On Interface Read-Only Adding an Entry PVC Modifying an Entry PVC Deleting an Entry PVC HSIM-A6DP LEDs ChapterLanview LEDs APIM-11 Specifications Appendix a Apim SpecificationsOC3 APIM-21 SpecificationsFigure A-3 APIM-29 APIM-29 SpecificationsFigure A-4 APIM-29LR APIM-29LR SpecificationsSTS3 APIM-22 SpecificationsBNC APIM-67 SpecificationsAPIM-67 Specifications HSIM-A6DP User’s Guide

HSIM-A6DP specifications

Cabletron Systems HSIM-A6DP is a versatile and powerful hardware component designed for use in networking environments. Primarily known as a High-Speed Interface Module, the HSIM-A6DP offers superior performance for connecting various network devices. Its design reflects the need for speed and reliability in an increasingly digital landscape, making it a popular choice among IT professionals and network administrators.

One of the standout features of the HSIM-A6DP is its ability to support high-speed data transmission. This module is capable of delivering up to 1 Gbps of throughput, which significantly enhances network performance. This speed is critical for applications that require quick data exchanges, such as video conferencing, large file transfers, and real-time data analysis.

Another key characteristic of the HSIM-A6DP is its dual-port functionality. This allows for increased flexibility in network configurations, enabling users to efficiently manage multiple connections. It supports both copper and fiber optic connections, catering to diverse networking requirements. The module is engineered with various fiber optic standards, ensuring compatibility with existing network setups.

The HSIM-A6DP is built with advanced technologies to ensure the robustness and reliability of the network. It uses sophisticated error detection and correction protocols, contributing to data integrity and minimizing packet loss. This reliability is essential for businesses that rely on consistent and accurate data transmission.

In terms of scalability, the HSIM-A6DP supports modular network topologies. This means it can be easily integrated into existing network infrastructures, allowing for gradual upgrades without the need for total overhauls. The module can also adapt to emerging technologies, which is a significant advantage as businesses evolve and expand.

Moreover, the HSIM-A6DP is designed with a user-friendly interface for ease of configuration and management. Its plug-and-play capability simplifies installation, allowing technicians to set up the module quickly without extensive training or technical expertise.

In summary, the Cabletron Systems HSIM-A6DP is an essential component for high-speed networking solutions. Its main features, including 1 Gbps throughput, dual-port functionality, and robust error management capabilities, make it suitable for modern networking demands. Its scalability and ease of use further enhance its appeal to businesses looking for an efficient and reliable networking solution. With the HSIM-A6DP, organizations can meet their growing data transmission needs while maintaining optimal performance.
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