Cisco Systems MGX 8220 manual Step

Page 186

Chapter

Initial Start-Up of the MGX 8220 Shelf

Step 4

While you are using the terminal, you can assign a nodename for the shelf entering the cnfname

 

 

command.

 

 

 

 

 

 

 

Note If you type any command mnemonic and press Return, the screen displays the syntax for

 

 

 

 

that command. You can now enter the command with the correct parameters.

 

 

 

 

 

Step 5

Log out.

 

 

When the IP addresses have been assigned, the shelf can be managed from CWM.

 

 

 

 

 

 

 

Cisco MGX 8220 Installation and Configuration

7-32

Release 5.0, Part Number 78-6430-03 Rev. D0, November 2003

Image 186
Contents Cisco MGX 8220 Installation and Configuration Corporate HeadquartersPage FIC 04DU9-ISN Page Page Equipment Attachment Limitations General Information Document InformationMailing Information Business Reply Mail Organization Cisco WAN Switching Product Name ChangeAudience OverviewSpacer Unit Cooling Assembly Power Power Entry OptionsDC Power Drain and Circuit Protection Core Module OverviewT1 Backcards Service ConfigurationIntroduction Upgrading FirmwareClearing Any Alarms Related to ds3 LMI InterfaceVPI/VCI Mapping Power UnpackingVertical Positioning Cabling Summary Dumb Terminal onto the Maintenance PortCabling for RJ-48 Connectors on T1 and E1 Ports A-5 T1 Cabling E1 CablingSpecifications B-1 FRSM-8E1 SpecificationIntroduction C-1 Service Interface T1/E1 Virtual Circuits Matm SpecificationUsing the Procedure Tables Finding the Right Procedure Virtual CircuitsResetsys Resetsys or clrallcnf Upgrade/Downgrade Save/Restore SM ConfigurationCompatibility C-46 Clrallcnf C-47 G U R E S Xviii Figure A-1 Figures Cisco MGX 8220 Installation and Configuration B L E S Table A-9 Cisco WAN Switching Product Name Change ObjectivesAudience Organization Chapter Title DescriptionRelated Documentation ConventionsObtaining Documentation World Wide WebDocumentation CD-ROM Documentation Feedback Obtaining Technical AssistanceOrdering Documentation Cisco.comTechnical Assistance Center Cisco TAC Web SiteCisco TAC Escalation Center Xxx New in Release Cisco MGX 8220 System OverviewA P T E R Configuration Examples Cisco BPX 8600 Series SwitchStandalone Cisco MGX 8220 Edge Concentrator Service InterfacesRemote Locations ATM UNI/NNIScalability Standards-Based Conversion to ATMTraffic Management ATM Local Management InterfaceCisco MGX 8220 Shelf Cards Supported in the Cisco MGX Frame Service ModulesCisco MGX 8220 Cards Broadband Network ModulesATM UNI Service Modules Circuit Emulation Service Modules Service Resource ModulesInverse Multiplexing for ATM Trunk Modules Cisco MGX 8220 Management Release 5.0, Part Number 78-6430-03 Rev. D0, November Common Equipment Description OverviewCisco MGX 8220 Shelf Front View of the Cisco MGX 8220 Shelf with Cards Installed Cisco MGX 8220 BackplanePower Entry Options Typical Cisco MGX 8220 Hardware WeightsDC Powered Systems AC Powered Systems AC Power Assembly front without grillCooling Assembly DC Power Drain and Circuit ProtectionMain Cooling Assembly Cisco MGX 8220 Shelf ConfigurationPlenum Exhaust Chamber Booster Cooling AssemblyCooling Assembly Power Spacer UnitOptional Cisco-Supplied Cabinet Cisco MGX 8220 CabinetCore Module Overview 10 Cisco MGX 8220 Top Level Block Diagram Cisco MGX 8220 ASC Shelf Controller 11 ASC CardsConsole Ports Ethernet Transceiver ExtendersBroadband Network Modules ASC LED IndicatorsAuto Card Restore Type of LED Color Meaning of LEDBNM-T3/E3 ATM Trunk Interface 15 CC, FFCI, EFCI, Supv, PTI, and CLP Fields BNM-T3/E3 LED Indicators Push ButtonsType of LED Color Meaning BNM-155 16 BNM-155 CardsATM Trunk Interface Back Card SMF-155 Back CardBNM-155 LED Indicators Service Resource Modules AX-SRM-T1/E1 FeaturesRules for Installation of SRMs 17 SRM-T1/E1 CardSRM-T1/E1 LED Indicators 1N REDBert 18 AX-SRM-3T3 Cards Release 5.0, Part Number 78-6430-03 Rev. D0, November Summary of User Interface Connections Functions of the User InterfacePhysical Connections ProtocolsBNM UI Function Physical Access Path TCP/IP Protocols Used User Interface Access PortsMaintenance Port Matrix of User Interface CombinationsMaintenance Port Access Control and LAN PortsControl Port Access In-Band Access LAN Port Access to the Cisco MGX 8220 ShelfAccounts PasswordsUser Accounts and Privilege Levels Privilege LevelsFollowing prompt appears Login Procedure Connecting Using the Maintenance PortConnecting Using the Control Port Connecting a PC using the COM PortConnecting a Terminal Server Command-Line Interface Connecting using an In-Band ConnectionConnecting using the LAN Port Cisco MGX 8220 Management Through Snmp Establishing the Cisco MGX 8220 to Cisco BPX ConnectionStructure of the MIBs AxisSystemCardGeneric AxisServices CardSpecificAxisLines Tftp User Interface Upgrading FirmwareASC Frsm Ausm Cesm Frasm Imatm MIB Tftp destIPaddConfiguring and Collecting Statistics Configuring StatisticsCollecting Statistics Configuration Save and Restore Statistics Collection File FormatField Description Field Size Save Tftp Command Format Restore Tftp Command FormatRelease 5.0, Part Number 78-6430-03 Rev. D0, November MGX 8220 Service Modules IntroductionFrame Relay Service Modules FRSMs Frsm Connection TypesFrame-Relay-to ATM Network Interworking NIW Congestion Indication BPX 8620 Network with Networking Interworking ConnectionsFrame-Relay-to ATM Service Interworking SIW PVC Status ManagementCell Loss Priority and Congestion Indication Command/Response Mapping Translation and Transparent Modes Frame ForwardingFrame-based User-to-Network Interface Funi Loss Priority IndicationFRSMs for T1 and E1 lines Fractional FRSMsChannelized FRSMs Example of T1/E1 Frsm Front Cards AX-FRSM-HS1 and MGX-FRSM-HS1/B Features FRSMs for High Speed Serial LinesMGX-FRSM-HS2 Features Example FRSM-HS1 Front CardFrame Relay Access Service Module Stun ConnectionsUsing Frasm for a Stun Connection Bstun ConnectionsUsing Frasm for a Bstun Connection Fras ConnectionsUsing Frasm for a Fras BNN Connection Example Frasm Front Cards Frame Relay to ATM Conversion User InterfaceCell Loss Priority ATM UNI Service Module Ausm Cards Ausm LED Indicators AUSM-8T1/E1 AUSM-8T1/E1 LED Indicators Type of LED Color Description10 AUSM-8T1/E1 Front Card Inverse Multiplexer for ATM Trunk Module An illustration of the Imatm cards is provided in FigureIMATM-8E1 IMATM-8T1BNC SMB-E3E1Imatm LED Indicators HsportCircuit Emulation Service Modules Circuit Emulation Service Module 4-port14 Cesm Card Active LED Cesm 4-Port LED IndicatorsPort LED Standby LEDT1/E1 Unstructured Data Transfer Circuit Emulation Service Module 8-portT1/E1 Structured Data Transfer AX-SMB-8E1-LM AX-R-SMB-8E1-LM15 8-Port Cesm Cards Cesm 8-Port LED Indicators Back Cards Service Module Back CardsT1 Backcards DB15-4X.21-BCHssi Back Cards Redundancy Back CardsT1/E1 Backcards 17 T1/E1 Redundancy Back Cards Release 5.0, Part Number 78-6430-03 Rev. D0, November Setting up a Frame Relay Connection Via Cisco WAN ManagerVia the Command-Line Interface Frsm Network Interworking ConnectionsEstablish the Customer Equipment to BPX Segments Frame Relay Connection through an MGX 8220 and BPX NetworkEstablish the BPX-to-BPX Segment Parameter Description Frsm Service Interworking ConnectionsFuni and Frame Forwarding MCRAusm Connections ATM to-ATM Connection ScreenCesm Connections BPX-to BPX-SegmentFrasm Connections Fras BNN Connections Stun Connections Ffffffff Bstun Connections Chapter Frasm Connections Adding the Line Configuring Imatm ConnectionsDownload procedure Sample DisplayChecking the Alarms on a ds1 Line Clearing Any Alarms Related to ds3LineNum LineAlarmState Plcp Configuration for ds3 Sample OutputConfiguring the Clock Source ExampleEND a END B Stratum 1/2 Add the Channel Route Entry Commands Related to AIM GroupConfigure the AIM Group AddchrteDisplay the AIM Group UNIConfiguring the Port Queue Sample DataDisplay the Port Counters Dspportcnt Aimgrp noRelease 5.0, Part Number 78-6430-03 Rev. D0, November Using the Command-Line Interface MGX 8220 in Stand-alone ApplicationsConfiguring the BNM Out-of-Band AccessLMI Interface Setting Trap Managers VPI/VCI MappingInterface Type VC ConnectionsVP Connections UNI NNIProvisioning Frsm Channels Provisioning Ausm ChannelsChapter Provisioning Ausm Channels Installation and Start-Up Safety RecommendationsMaintaining Safety with Electricity GroundingPower Site PreparationRack Space Unpacking CoolingParts Checklist Rack-Mounting the MGX 8220 UnitsUnpacking Each Container Horizontal Positioning Vertical PositioningCooling Configuration Guidelines Rack-Mounted MGX 8220-One- and Two-Shelf Configurations17.750 Minimum Plenum or spacer Or 2 U Rack-Mounting the Modules Use the Angle Bracket to Secure the Module to the RackLimited Access Center MountRack-Mounting the Plenum or Spacer Mounting the Electrostatic Wrist StrapColocating Cisco Units in the Same Rack Electrostatic Wrist Strap KitConnecting Power for DC Systems DC Power to the Shelf10 PEM Cable Clamp DC Power to the Fan Cooling Assembly 11 DC Power Cabling for One-Shelf and Two-Shelf Racks12 DC Cabling for Three-Shelf and Four-Shelf Racks Available Power Connecting Power for AC SystemsAC Input Power Monitoring Power Supply Status13 AC Power Assembly Block Diagram 14 AC Cabling for One-Shelf and Two-Shelf Racks 15 AC Cabling for Three-Shelf and Four-Shelf Racks Cable Management Plenum Chamber KitDescription Quantity Main Cooling and Booster Cooling Kit 16 Cable Management Kit on the Plenum ChamberCable support, attach with 10-32 thread forming screws Power Cable Routing Cable Routing19 Routing Power Cables at the Cooling Assembly Routing Data CablesRemoving and Installing the Front Cards Readying the CardsRemoving and Installing the Back Cards 22 Connecting BNM-T3 or BMN-E3 Cables Making the BNM Trunk ConnectionMaking the Service Interface Connections 23 Cabling for Redundant BNM CardsMaking External Clock Connections Alarm Output ConnectionDumb Terminal onto the Maintenance Port Attaching a Control ConsoleInitial Configuration Initial Start-Up of the MGX 8220 ShelfStep Preventive Maintenance Troubleshooting the MGX 8220 ShelfGeneral Troubleshooting Procedures Symptom Probable Cause RemedyASC Fail LED Procedure for All Errors DspcdsDisplayed Log Message Format Dsplog slot# slot# day offsetASC Log Codes Error Number Display Log String Detail DescriptionLog Codes Log Code Range Module Logging MessagesError Number Display Log String Detail Description Null Error Number Display Log String Detail Description Error Number Display Log String Detail Description Error BNM Log Codes Error Number Display Log String Detail Description Fwready = SRM Log Codes Bram Ausm Log Codes PDU Error Number Display Log String Detail Description Error Number Display Log String Detail Description Replacing Parts Replacing a Front Card Replacing a Back CardReplacing a DC Power Entry Module Chapter Replacing Parts Release 5.0, Part Number 78-6430-03 Rev. D0, November Imatm T1/E1 Connectors Connector DescriptionT3 Trunk Cabling Cable Parameter Description Frame Relay CablingT1 Cabling Pin No DescriptionBNC Connector DB-15 ConnectorE1 Cabling Pin No Name Signal Function Polarity Signal Source Port ConnectorsHssi Port Connectors DTECabling for RJ-48 Connectors on T1 and E1 Ports DC Power Cabling Figure A-2 RJ-48 ConnectorsControl and Clock Cabling AC Power CablingMaintenance and Control Ports Pin No Name Source DescriptionDSR DCE Modem CableExternal Clock Input Cabling DTR DTET1/E1 Clock Cabling E1 Clock CablingPin No. Description External Alarm Cabling Pin No Alarm DescriptionModel No Description Usage Standard MGX 8220 CablesRedundancy Y-Cables Cable Used OnRelease 5.0, Part Number 78-6430-03 Rev. D0, November BNM-T3 Specification Intershelf LinkCard General BNM-T3 PlcpBNM-E3 Specification LCV, LES, %EFS, LSES, SEFS, PCV, PES, PSES, SEFS, UASCcitt Card General Common Specifications BNM-155 SpecificationsIntershelf Link Specifications SMF Specific SpecificationsGeneral Card Specifications ASC Specification SRM-T1/E1 Specification BNC-3T#FRSM-4T1 Specification Service InterfaceSystem Interface Virtual Circuits Card General FRSM-4E1 Specification Transmit frames S Virtual Circuits ATM cells Number of cells transmitted to BNM FRSM-8T1 Specification Appendix B Specifications FRSM-8T1 Specification Release 5.0, Part Number 78-6430-03 Rev. D0, November FRSM-8E1 Specification ATM Layer Per Ccitt I.361 and ATM UNI Virtual Circuits ATM cells Number of cells transmitted to BNM FRSM-HS2 Specification Errors and Alarm HandlingExternal Interface Specification Statistics and Counters Specifications FRSM-HS2 LineCounters per line Statistics Service Interface E1 Ausm Specification 4 PortService Interface T1 LCV, LES, LSES, CV, ES, SES, SEFS, AISS, UASCBR, VBR, VBR+ ATM InterfaceVPI/VCI PCR, SCR VBR, Ccdv CBRCard General CESM-4T1/E1 Specification Service Interface T1/E1ESD AAL1 Matm Specification Physical Layer Interface T1SMB-E3E1-LM Physical Layer Interface E1 Physical Layer Interface T3LOS, OOF, AIS, RDI Physical Layer Interface E3 AIM Groups and LinksCard General Release 5.0, Part Number 78-6430-03 Rev. D0, November Firmware Upgrade and Downgrade Procedures Using the Procedure Tables Std. Upgrade Std. Downgrade Core Card Set From Rel ViaFinding the Right Procedure Standard Upgrade and Downgrade ProceduresProcedure 1-Standard Upgrade, 1-Core Card Set Enter the tftp put ASCFWfile AXISASCACTIVE.FW commandProcedure 2-Standard Downgrade, 1-Core Card Set Enter the tftp put SMFWfile AXISSM1$slot.FW commandProcedure 3-Standard Upgrade, 2-Core Card Set Enter the tftp put ASCFWfile AXISASCSTANDBY.FW command Procedure 4-Standard Downgrade, 2-Core Card Set Enter the tftp put ASCFWfile AXISASCACTIVE.FW command Procedure 5-Standard Upgrade, 1-Core Card Set Procedure 6-Standard Upgrade, 2-Core Card Set Enter the tftp put SMFWfile AXISSM1$slot/0.FW commandEnter the tftp put ASCFWfile AXISASCSTANDBY.FW command Procedure 7-Standard Downgrade, 1-Core Card Set Enter the tftp put SMBTfile AXISSM1$slot.BOOT commandProcedure 8-Standard Downgrade, 2-Core Card Set Enter the tftp put SMFWfile AXISSM1$slot.BOOT commandEnter the tftp put SMBTfile AXISSM!$slot.BOOT command Procedure 9-Standard Upgrade, 1-Core Card Set Procedure 10-Standard Upgrade, 2-Core Card Set Procedure 11-Standard Downgrade, 1-Core Card Set Step Procedure 12-Standard Downgrade, 2-Core Card Set Graceful Upgrade and Downgrade Procedures Procedure 13-Graceful Upgrade, 1-Core Card Set SM only Procedure 14-Graceful Downgrade, 1-Core Card Set SM only Procedure 15-Graceful Upgrade, 2-Core Card Set Enter the tftp put SMBTfile AXISSM1$slot.FW command Procedure 16-Graceful Downgrade, 2-Core Card Set Enter the tftp put SMFWfile AXISSM1$sl26 command Procedure 17-Graceful Upgrade, 1-Core Card Set SM only Procedure 18-Graceful Downgrade, 1-Core Card Set SM only Enter the tftp put SMBTfile AXISSM1$slot.FW command Procedure 19-Graceful Upgrade, 2-Core Card Set Procedure 20-Graceful Upgrade, 2-Core Card Set Release 5.0, Part Number 78-6430-03 Rev. D0, November Procedure 21-Graceful Upgrade, 2-Core Card Set Enter the tftp put SMBTfile AXISSM1$slot.FW command Procedure 22-Graceful Downgrade, 1-Core Card Set SM only Procedure 23-Graceful Upgrade, 2-Core Card Set Enter the tftp put SMBTfile AXISSM1$slot.BOOT command Procedure 24-Graceful Downgrade, 1-Core Card Set SM only Procedure 25-Graceful Upgrade, 2-Core Card Set Enter the tftp put SMBTfile AXISSM1$slot.BOOT command Description of Upgrade/Downgrade Terminology Tftp put File SizeASC.FW Dspfwrevs Slot-Specific and Card-Type-Specific SM FirmwareResetsys SoftswitchFlashStartAddr and flashEndAddr Dsptotals DonotupdatestandbyDspadrxlat CompatibilityUpgrade/Downgrade Resetsys or clrallcnfSave/Restore ASC Configuration ClrallcnfSave/Restore SM Configuration D E See CWM ASC BNMFirmware, upgrades Firmware Media Kit CWMASC Ausm PEMSIW HssiSnmp FRSM-HS2 B-24 Tftp
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MGX 8220 specifications

The Cisco Systems MGX 8220 is a versatile, high-performance media gateway that has become an integral component in the telecommunications infrastructure. Designed to facilitate the transition from traditional circuit-switched networks to advanced packet-switched environments, the MGX 8220 supports a wide array of voice, video, and data services, making it an essential tool for service providers and enterprises seeking to enhance their network capabilities.

One of the key features of the MGX 8220 is its robust signaling and media processing capabilities. Equipped with support for both Voice over IP (VoIP) and traditional telephony protocols, this gateway enables seamless integration of different communication formats. It boasts a modular architecture, which allows for the addition or removal of various line cards to meet changing demands and technology advancements. This modularity provides operators with the flexibility to scale their services without significant overhauls to their existing infrastructure.

The MGX 8220 is capable of delivering high-density media handling for a multitude of services. With its support for ATM and IP networks, the gateway can handle TDM (Time-Division Multiplexing) to packet voice conversions efficiently. It is designed to optimize network resources by dynamically allocating bandwidth based on traffic requirements, thus ensuring efficient use of network resources and improved performance.

Another significant characteristic of the MGX 8220 is its enhanced quality of service (QoS) features. This capability ensures that voice and video traffic is prioritized appropriately, minimizing latency and jitter while maximizing overall call quality. By employing sophisticated traffic management techniques, the MGX 8220 can deliver a superior user experience, which is critical for any service provider aiming to offer competitive communication solutions.

Furthermore, the gateway includes built-in security features to protect against unauthorized access and ensure the integrity of sensitive data. This includes encryption for voice and video transmission, as well as support for secure signaling protocols.

Overall, the Cisco Systems MGX 8220 stands out as a comprehensive media gateway solution, providing essential functionalities for modern communication needs. Its combination of modularity, high-density processing, effective QoS management, and security features makes it a compelling choice for organizations looking to modernize their telecommunications infrastructure while ensuring reliability and performance. As businesses continue to evolve and demand more from their networks, the MGX 8220 offers a pathway to future-ready communications.