Cisco Systems CATALYST 8500 User's Manual
Contents
1. fail over capabilities when needed Profiles Allows you to apply established configuration parameters to a bulk number of objects e Accounting Provides real time inventory information e Performance Supplies real time performance related statistics for modules interfaces and connection as well as capabilities to log historical performance data for analysis e Security Provides capabilities to manage system security at the EM or device level e Alarm Notification Provides support of multiple traps producing alarm notification per the criteria established Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts HZ EM Objects and Interfaces EM Objects and Interfaces The EM manages both physical and logical objects as follows e Physical Represents tangible components and devices such as the chassis hardware frame module interfaces and port adapters and interfaces e Logical Represents intangible more abstract features such as ATM connections objects and profiles Fault Configuration Accounting Performance and Security FCAPS windows are accessible on both physical and logical EM objects in the form of FCAPS menu options that appear when you right click on any object in the EM FCAPS functionality provides a complete management interface to features of the router This section covers the following areas e Physical Objects e Cisco Catalyst 8500 Router Chassis e Supporting Modules e Modu2. module interface or port adapter has at_ Configuration least one if not multiple physical interfaces ports The type of Fault Management physical interface is equivalent to the type of module the interface Performance resides on Each different physical interface can support multiple Configuration Profile technologies for details see the Physical Interfaces and Logical Inventory Interface Technologies section on page I 11 The module type determines what technologies reside on the interfaces Supporting Modules Additional subchassis cards and modules __ Inventory which include switch fabric cards SFCs AC or DC power supply module s and fan tray modules The physical objects and interfaces in the preceding table are organized as follows e The chassis contains the modules including supporting modules e g processors SFCs power supplies and fan trays e The modules contain the physical interfaces For further details on hierarchies within Cisco EMF and the EM see the Views section on page I 13 Tip Physical objects contained within a chassis are often referred to as subchassis objects or modules Cisco Catalyst 8500 Router Chassis The C8500MGR application supports three Cisco Catalyst 8500 router models e Cisco 8510 multiservice ATM switch router MSR e Cisco 8540 MSR e Cisco LightStream 1010 LS1010 The Cisco 8510 and Cisco LS1010 chassis are exactly the same The followin
3. sections detail the views you will use to perform the majority of the EM capabilities are the Physical and Component Managed views Both a similar in structure and allow you to initiate the EM windows however it is recommended that you use the Physical view to perform most management functions within the EM The Physical view provides a graphical representation of the chassis that the Component Managed view does not It should however be noted that you must use the Component Managed view to see representative ATM connection objects within the EM as ATM connection objects are not available through the Physical view Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts E Views Component Managed View The Component Managed view displays all objects within the Cisco EMF system For example say you have two types of EM applications installed in Cisco EMF EM A and EM B Information for both the EM A and EM B display within the Component Managed view Additionally the Component Managed view also displays ATM connections such as PVCs and SPVCs Connection objects are not visible in any other view However it is not recommended to work within this view unless you have multiple EM applications installed The Component Managed view and Physical view have the same basic hierarchy structure as shown in the following figure Note that the Physical view does not display logical ATM connections like the Component Managed view does Fig
4. when met run the applicable notification profiles Event Groups Organizes events by managed object s according to query settings For further information on Cisco EMF and the tools it provides see the following items The Cisco EMF Launchpad section on page 2 5 The Cisco Element Management Framework User Guide Release 3 2 Cisco EMF help windows available through the Help button or menu on the Cisco EMF Launchpad Cisco Catalyst 8500 Manager User Guide _ Chapter 1 Concepts EM Software Features Ml EM Software Features Installed with Cisco EMF the EM allows for precise management of the device s it supports through custom GUI windows and modeling behavior Invoked from the Cisco EMF Map Viewer application the EM provides Fault Configuration Accounting Performance and Security FCAPS windows on chassis module interface and connection levels as applicable These windows provide the features which compliment the Cisco EMF capabilities to provide for complete efficient network management Specifically the C8500MGR supports the Cisco Catalyst 8500 routers including the Cisco MSR 8540 Cisco MSR 8510 and the Cisco LightStream 1010 LS1010 C8500MGR supports various modules such as ATM Gigabit and Fast Ethernet modules and ATM Ethernet IP and SONET interfaces Element management capabilities for these items are provided in windows and wizards eliminating the need for operators to have detailed Cisco IOS
5. 00 RJ45 w ACL 16K C85FE 16TACL 64K C8540 16 port 10 100 RJ45 w ACL 64K Cisco Catalyst 8500 Manager User Guide Concepts Chapter1 Concepts EM Objects and Interfaces W Physical Interfaces and Logical Interface Technologies Physical interfaces and logical interface technologies are modeled as objects below a parent module As mentioned before the type of module characterizes the type of interface Interface types further break down into two categories physical interfaces and logical interface technologies Physical interfaces are the ports which exist on line cards This EM supports the following physical interfaces e Ethernet e SONET The EM handles both SDH and SONET in the same manner The routers support both SDH and SONET For a comparison chart of SONET and SDH speeds see Appendix B SONET SDH Conversion Chart Logical interface technologies represent the communication between two network devices Logical interface technologies allow for virtual connections such as PVCs and SPVCs This EM supports the following logical interface technologies e ATM e IP Physical interfaces and logical interface technologies are classified as interfaces within this EM and therefore are referred to as such within this guide Keep in mind the differences previously described as you manage the interfaces within your network Tip The technologies an interface supports are accessible wi
6. CHAPTER Concepts The Cisco Catalyst 8500 router is a Layer 3 enhanced ATM switch that seamlessly integrates Layer 3 and ATM switching into a single chassis Additionally the Cisco Catalyst 8500 switch provides an integrated ATM and Gigabit Ethernet network solution The C8500MGR application supports three of the Cisco Catalyst 8500 routers e Cisco Catalyst 8510 multiservice ATM switch router MSR e Cisco Catalyst 8540 MSR e Cisco LightStream 1010 LS1010 The following figure shows a typical Cisco Catalyst 8500 router deployment Figure 1 1 Typical Cisco Catalyst 8500 Router Deployment Router Video Headquarters sor ATM core Branch Catalyst 8540 g with ARM Servers is Backup Data Center Cisco Catalyst 8500 Manager User Guide Chapter 1 Concepts The Concepts chapter describes EM concepts and covers the following information EM Documentation Set Cisco EMF Software Features EM Software Features EM Objects and Interfaces Views Object States Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts EM Documentation Set W EM Documentation Set This guide is one part of the C8500 MGR EM documentation set The following figure displays all of the guides in the EM documentation set and details the contents of each Figure 1 2 EM Documentation Set Cisco Element Management Framework Installation and Describes how to install the Cisco Element M
7. anagement Framework Administration Guide application and provides additional setup and licensing information Version 3 2 Cisco Element Management Framework User Guide Describes how to use the Cisco Element Management Framework Version 3 2 application Cisco Catalyst 8500 Manager Installation Guide release 1 0 Cisco Catalyst 8500 Manager User Guide Release 1 0 Describes how to install the Cisco Catalyst 8500 Manager application and provides additional setup information Describes how to use the Cisco Catalyst 8500 Manager application 80592 The guides identified in the preceding figure are available from Cisco Systems For further information on obtaining Cisco documentation see the Obtaining Documentation section on page xvii Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts HZ Cisco EMF Software Features Cisco EMF Software Features Cisco EMF provides a flexible framework which supports a variety of EM applications making it possible to manage multiple device types within a given network on a single system Common network management functionality provides for complete management of the logical and physical components of the network Using a solid base Cisco EMF provides vital core functionality which allows for optimal network management when combined with EMs Features include the following Map Viewer Displays the content
8. bjects by expanding the text Click on the plus sign next to any object to expand the view A minus sign next to an object indicates there are no more levels to expand you may however click on a minus sign to collapse the view to the level of the specific object as necessary Each view represents a different way of containing and grouping objects The EM adds specific views to the standard views supplied by Cisco EMF The standard Cisco EMF views are the Physical and Network views Note For further information on views see the Cisco Element Management Framework User Guide Release 3 2 Figure 1 5 C8500MGR Views E S ComponentManaged lt 11 gt amp S Layer 300SView 12 gt a Network 12 gt aes Physical lt 1 gt SS RME lt 1 63 SelfManagement lt 2 2 VLANView The number in parenthesis next to a view indicates how many top level objects are contained within the view For example in the preceding figure the Network Physical and Component Managed views each contain top level object and the Layer 3 QoS view contains 2 top level objects 80522 The Views section covers the following areas e Component Managed View e Layer 3 QoS View e Network View e Physical View You may or may not see all of these views using this EM exceptions noted These views all exist within EMs however they are not all implemented If multiple EMs are co resident the applicable views are displayed As the following
9. c physical or logical generic support is available through Configuration Status and Performance windows for each of the interface types in the preceding table Logical Objects The EM supports one logical object type ATM connections ATM connections may be Permanent Virtual Circuits PVCs Soft Permanent Virtual Circuits SPVCs or Switched Virtual Circuits SVCs that can be applied to ATM interfaces The following table describes the management functions for ATM logical objects Table 1 7 ATM Logical Objects Logical Object Management Functions You Can Perform PVC Upload create configure manage and delete on main or sub interfaces Status information can be collected and displayed for VCL objects only SPVC Upload create configure manage and delete on main or sub interfaces Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts Views Views W Views are accessible by clicking the Viewer icon on the Cisco EMF launchpad These views appear in the frame at the left of the window when you open the Map Viewer window see the following figure for an example Views model hierarchical relationships between objects both physical and logical Objects are organized into different views and can exist in multiple views simultaneously by reference Each object can have a number of parent and child objects You can access EM objects by navigating through one of the views to find specific o
10. ed Processor Modules Processor Sub Module Description C8545MSR MRP3CLK C8540 multiservice router processor stratum 3 C8545MSR MRP4CLK C8540 multiservice route processor C8546MSR MSP FCL C8540 multiservice switch processor with ATM FC C8515 MSRP C8510 multiservice switch route processor L1010 ASP C FC 1 LS1010 ATM switch processor with FC per class queuing L1010 ASP C FCPFQ LS1010 ATM switch processor with FC per flow queuing The EM supports three types of module interfaces and port adapters Generic For a complete listing of the Generic module interfaces and port adapters the EM supports see Table 1 3 ATM Asynchronous Transfer Mode For a complete listing of the ATM module interfaces and port adapters the EM supports see Table 1 4 Ethernet Fast or Gigabit Fast Ethernet supports data transfer rates of 100 Mbps Gigabit Ethernet supports data transfer rates of 1000 Mbps or 1 Gigabit For a complete listing of the Ethernet module interfaces and port adapters C8500MGR supports see Table 1 5 Cisco Catalyst 8500 Manager User Guide Chapter 1 HZ EM Objects and Interfaces Table 1 3 C8500MGR Supported Generic Modules Module Interface Port Adapter Description C85MS 4E1 FRRJ48 C8500 4 port El Frame Relay PAM C85MS SCAM 2P C8540 SuperCAM for Port Adapter Modules PAMs WAI E1C 4BNC 4 Port El circuit emulation BNC PAM WAI E1C 4RJ48 4 Port El circuit emula
11. erational When an object enters the normal state the EM performs heartbeat polling on objects at varying intervals to determine whether their presence and to current state For instance chassis presence polling occurs every minute while module and interface presence polling occurs every five minutes Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts HZ Object States Decommissioned State Errored P The decommissioned state indicates that an object is not managed When you manually deploy an object the object is normally put into the decommissioned state Tip Initially deployed objects are decommissioned to leave you with the option of managing the object or not If you want to manage the object you must commission the object The following actions occur on a decommissioned object e Active management stops e All sub objects also decommission Decommission buttons are located in Chassis Module Interface and Connection Configuration windows When you decommission an object any children of that object also change their state to decommissioned For example if you decommission a chassis all objects within that chassis modules interfaces and connections also decommission If you decommission a module all interfaces and connections on that module decommission and so on If the operational status of a module goes down it moves into the errored state In the errored state performance polling if act
12. first you must assess the source of the problem If the operator was at fault and predeployed an incorrect module the operator should delete the predeployed module and re deploy the correct module If the person who inserted the module is at fault because they inserted the wrong type of module into the chassis the module should be removed When you remove a module the EM moves the module into a lost comms state Inserting the correct module enables the EM to find the new module and download the correct pre deployment and offline configuration information then places the module into its respective state typically normal Mismatch can also occur on a chassis If during deployment of a chassis an incorrect IP address is entered the EM cannot discover the chassis due to an erroneous IP address that was entered during the commissioning process Because of this discovery fails a major alarm is raised against the chassis and Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts HZ Object States the chassis enters the mismatched state To rectify this problem you must either delete the predeployed chassis and deploy the correct one or fix the IP address by re entering the correct one in the chassis Management Information window Synchronizing The EM provides capabilities to synchronize hardware components and settings between the management system EM and the device By default the device is the master in the synchronizat
13. g figure displays an example of the Cisco 8510 and Cisco LS1010 router chassis and identifies the modules and sub modules that you would find Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts HZ EM Objects and Interfaces Figure 1 3 Cisco 8510 and Cisco LS1010 Chassis Slots 0 1 Port adapters ae o Interface modules MLSS MMES MSS a SS cl s g E Bl cs Bl se By co By g oo r A EIE 88 g Slot 2 Route processor QL Bl ens comer i s Slots 3 4 Port adapters e EMNE mS nel 22 ect ye g Interface modules 2 E se Bl se als Mew J The Cisco 8510 and Cisco LS1010 are 5 slot chassis which support the following components e Internal fan tray e Upto 2 AC or DC power supplies providing redundancy or back up in the event that one supply fails e 1 card carriage consisting of 4 module slots which may be filled with up to 4 full slot interface modules or up to 8 half slot port adapters e A single board which incorporates 1 switch fabric and route processor The following figure displays a Cisco Catalyst 8540 MSR router chassis and identifies the modules and sub modules that you would find Figure 1 4 Cisco 8540 Chassis Slots 0 3 Port adapters Interface modules Slot 4 Route processor Slots 5 7 Switch processors Slot 8 Route processor Slots 9 12 Port adapters Interface modules ORC sils o fa
14. ion policy Therefore synchronization mirrors the settings on the device to the management system overwriting any existing data Synchronization can be extremely useful when a device has been operational for some time and the Cisco EMF management system is available to manage it Synchronizing occurs as a result of the following actions e Chassis commissioning e Manual synchronization e Auto synchronization Manual synchronization is not available in C3S500MGR When an object deploys and initially commissions the state changes to discovery then normal then synchronizing When the management system and device complete synchronization the state changes to the appropriate post commissioning state typically normal Transient Object States Certain states in the EM are temporary or transient that is they exist only for a short time while a process is underway The following states are transient e Download Temporary state when a Cisco IOS Download is processing e Reset Temporary state during a Cisco IOS Download when the device reboots for the new image to take effect e Discovery Temporary state during subchassis discovery during this stage objects are discovering e Commissioning Temporary state during subchassis discovery during this stage the EM is determining which state to move each object into Cisco Catalyst 8500 Manager User Guide 1 20 l
15. ive stops however heartbeat polling which polls an object every 5 minutes to verify its existence and current state continues until the device responds positively to a heartbeat request When the module responds positively to heartbeat requests it moves back into the previously held state Performance Logging On Enabling performance logging on for an object in the Normal state moves the object into the performance logging on state This means that performance data collection for the object begins and is available for review in the Cisco EMF Performance Manager window Regardless of whether performance logging is on or off for a particular object current performance data is available in the EM Performance windows as Chapter 8 Performance describes Performance logging collects data for interfaces only You can enable performance logging on a global scale or on an individual object basis Enabling global performance logging puts all subchassis objects into a performance logging on state However remember that only interfaces actually collect performance data Performance logging occurs every 15 minutes This means that when you enable performance logging or global performance logging initially on an object at least one 15 minute increment must pass before data displays in the Performance Manager Heartbeat polling occurs on objects in the performance logging on state If the object moves into the errored state it returns to the pe
16. lamee E siata a _felsials The Cisco 8540 is a 13 slot chassis which supports the following components e Internal fan tray e 2card carriages upper and lower each consisting of 4 module slots which may be filled by up to 4 full slot interface modules or up to 8 half slot port adapters Cisco Catalyst 8500 Manager User Guide 1 8 Chapter1 Concepts A EM Objects and Interfaces W Up to 2 route processor modules where 1 processor is the primary and 1 is redundant Up to 3 switch processor modules Switch Fabric Cards where 2 processors are primary and 1 is redundant Up to 2 AC or DC power supplies providing redundancy in the event that one supply fails Caution Do not mix power supplies within the Cisco Catalyst 8540 In multiple power supply system configurations all power supplies must be of the same type either 2 AC input power supplies or 2 DC input power supplies Supporting Modules Modules The EM supports three types of supporting modules within a chassis Some modules only apply to certain chassis types SFC Switch Fabric Card AC or DC Power Supply Module Chassis can be ordered with either dual redundant AC or DC power supply modules Fan Tray tThe fan tray circulates cooling air through the card cage in the chassis The EM does not provide for management of supporting modules The EM supports the following processor modules Table 1 2 C8500MGR Support
17. les e Physical Interfaces and Logical Interface Technologies e Logical Objects Physical Objects The following table lists all physical objects created in the EM and the management functions that can be performed on each object Table 1 1 Physical Objects and Management Functions Physical Object Management Functions Chassis The hardware frame of the Cisco Catalyst 8500 router which houses all subchassis objects modules Management Information Configuration SNMP Management IOS Image Download Configuration Backup Restore Profile Management Fault Management Inventory Performance Processor Cards The Cisco Catalyst 8500 routers support switch Configuration fabric and router processor cards The Cisco 8540 chassis can Fault Management accommodate multiple processor cards where one card is the Inventory primary and up to two are redundant Performance Redundancy Status Failover Modules Modules may be either module interfaces or port adapters There are various types of modules within a chassis for example ATM Ethernet and Generic Each of these modules support a given number of physical interfaces ports Configuration Fault Management Inventory Performance Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts EM Objects and Interfaces W Table 1 1 Physical Objects and Management Functions continued Physical Object Management Functions Physical Interfaces Each
18. ng figure highlights an object s state Figure 1 8 EM Object States Commission Status Status of last commission Succeeded Chassis Status CiscoChassis normal Dynamic updates are enabled an as Object State The two most common object states are Normal and Decommissioned For example when you deploy a module in the EM the initial state of the module is decommissioned You can then commission the module to begin active management For instruction on how to commission a module see the Commissioning Modules section on page 3 40 or on page 5 44 When you commission the module it passes through two transitory states discovery then commissioning The commissioning process determines which state to move the object into typically Normal This example reflects the basic process of deploying and commissioning an object Certain states ripple down to objects below For example if you decommission a chassis all subchassis objects also decommission If you enable performance logging on a module all interfaces under the module also enable By default FCAPS windows refresh at a rate dependent upon the type of window For example inventory windows refresh at a lower rate than performance windows The average refresh rate is every 30 seconds The following sections describe the possible states that an object may be in and provides a description of these states The normal state indicates that an object is op
19. rformance logging on state when the error is rectified For example if a module is in the performance logging on state and it goes down it moves into the errored state When heartbeat polling finds that the module is back up it restores the module to the performance logging on state Cisco Catalyst 8500 Manager User Guide 1 18 Chapter1 Concepts Lost Comms Object States W The lost comms lost communications state indicates that the object is not responding to heartbeat polling The EM can apply this state to a chassis module or interface When an object is in the lost comms state heartbeat polling occurs on the object When the object responds to heartbeat polling it moves out of the lost comms state For example say an ATM module in the EM was predeployed When you perform device synchronization commissioning a chassis the ATM module is not yet physically present in the hardware In this situation the EM places the ATM module into the lost comms state where it continues to poll for the presence of the module When the ATM module is inserted into the chassis the EM detects its presence and moves the module out of the lost comms state and into a respective state typically normal Lost Comms No Poll The lost comms lost communications no poll state occurs when the router is not contactable When the EM loses connectivity with a device the representative chassis object remains in the lost comms state so that hear
20. s of the managed device s and serves as the primary entry point for the EM application allowing for enhanced object monitoring status for all network elements within the managed network Deployment templates Provides object deployment prompts increasing ease and consistency Auto Discovery Allows for the automatic discovery of devices entering the network based on IP and or SNMP data Event Browser Notifies the system of events e g alarms which occur on the managed network and in turn notifies the network manager according to adjustable settings Object Group Manager Enables you to organize managed objects which relate to one another into groups Performance manager Presents performance statistics for monitored objects in a variety of formats according to the criteria selected User Access Control Administration tool allowing system administrators to manage application privileges per user and user passwords Query Editor Provides custom filtering capabilities which include or exclude certain information from writing to the database and enables object group management Notification Profiles Warns the user of system events according to defined environmental occurrences through an audible or visual indicators e g beep display pop up window scripts which for example sends an e mail message or event generation Thresholding Regimes Defines a set of polling attributes and the polling period for monitoring which
21. see the Automatically Discovering Chassis section on page 3 2 Physical View Objects in the Physical view are ordered according to their relative physical location The Physical view defines physical containment relationships meaning that each object is defined according to which object it is contained within For example a site is located under the Physical view a chassis is contained under a site and sub modules and supporting modules are contained within a chassis See the previous figure for an overview of the structure of the Physical view The Physical view also provides chassis maps which are graphical representations of the chassis and its contents You can access management menus on objects within chassis maps To display a chassis map simply click on the chassis object for the router you wish to view Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts E Views Figure 1 7 Physical View Chassis Map PORTED CARD 80524 Cisco Catalyst 8500 Manager User Guide 1 16 Chapter1 Concepts Object States W Object States Normal State Object states reflect the life cycle of an object Whatever stage the object is in at any given time displays in the state type The state of an object can change frequently depending upon what actions take place on the object All objects within the EM are in a specific state which appears at the bottom left corner of each FCAPS window The followi
22. software and SNMP based knowledge for individual interface or system parameter commands The following features highlight the capabilities of the EM e Framework Based on Cisco EMF 3 2 which includes FCAPS management tools e IOS Versions See the corresponding release note document for specific versions supported e Deployment and Discovery Allows for manual or automatic deployment and discovery Deployment Supports manual deployment for generic objects and pre deployment of chassis objects using templates which provide faster deployment with fewer errors Auto Discovery Discovers chassis and all submodules automatically within a given IP range providing real time information regarding the contents of the network e Synchronization Synchronizes the physical inventory model with managed NEs providing accurate real time information on what is deployed in the network e Fault management Provides status information as well as fault detection troubleshooting and repair tools e Configuration Provides base configuration for managed objects within the device as well as Discovery Allows for discovery of individual chassis and modules or complete subchassis discovery ATM Provisioning Logical inventory reflects real time provisioning Restoration Configuration backup functionality is available enabling configuration restoration as required Redundancy Dual CPUs allow for fail over backups and provide forced
23. tbeat polling continues on the chassis However all modules and interfaces within that chassis move into a lost comms no poll state There is no point in polling modules and interfaces within a device that is not contactable If the connection with the device is down all modules and interfaces will be down When the device becomes contactable again the chassis modules and interfaces are moved out of the lost comms no poll state Discovery Lost Comms Mismatched The discovery lost comms state occurs only during subchassis discovery If for example you commission a chassis which begins the process of subchassis discovery and a module discovers with a faulty connection the module goes into the discovery lost comms state When connectivity establishes with the corresponding object in the device subchassis discovery resumes and the object moves out of the discovery lost comms state The mismatched state occurs when a mismatch is found between what hardware is in the device and that which is deployed in the EM For example say you are expecting an ATM OC 3 module so you predeploy and perform offline configuration in the EM to prepare for that type of module However when the module becomes available in the chassis it is not an ATM OC 3 module but an OC 12 module When the EM detects the new module it finds a mismatch The module is put into the mismatch state and a major alarm raises against the module To rectify a mismatch problem
24. thin FCAPS based management windows It is important to understand that physical interfaces require logical interface technologies in order to fully manage an interface The following table outlines each interface type and the applicable physical and logical interface technologies supported Also included are the different FCAPS service windows that are applicable to each physical and logical interface technology For example if you want to configure an ATM interface type look in the table under ATM and you will notice that three physical interface and logical interface technologies apply ATM SONET and IP This means that to fully configure an ATM over SONET interface for example you should open and update the appropriate fields in all the physical and logical configuration windows to completely configure a SONET interface which supports ATM technology Note that the shaded areas denote logical interface technologies Cisco Catalyst 8500 Manager User Guide Chapter1 Concepts HZ EM Objects and Interfaces Table 1 6 Physical Interfaces Related Technologies and Windows Interface Type Physical and Logical Interface Technologies FCAPS Service Windows Ethernet Ethernet Configuration Status Performance Profile IP Configuration SONET SONET Status Performance ATM Fault Configuration Status Performance Profile IP Configuration Although not technology specifi
25. tion RJ 48 PAM WAI T1C 4RJ48 4 Port T1 circuit emulation RJ 48 PAM Table 1 4 C8500MGR Supported ATM Modules Module Interface Port Adapter Description C8540 ARM2 C8540 Enhanced ATM Router Module C85MS 16F OC3MM C8540 MSR 16 port OC 3 MMF Installed C85MS 4F OC 12MM C8540 4 port OC 12 MMF C85MS 4F OC12SS C8540 MSR 4 port OC 12 SMF Intermediate Reach install WAI E1 4BNC 4 Port E1 ATM BNC PAM WAI E3 4BNC 4 Port E3 BNC PAM WAI OC3 4SS 4 Port OC 3c STM 1 SMF IR PAM WAI OC3 1S3M OC 3c STM 1 Mix PAM l port SMF IR 3 port MMF WAI OC3 4MM 4 Port OC 3c STM 1 MMF PAM WAI OC12 1SS 1 Port OC 12c STM 4c SMF IR PAM WAI T3 4BNC 4 Port DS 3 PAM Table 1 5 C8500MGR Supported Ethernet Modules Module Interface Port Adapter Description C85EGE 2X 16K C8540 2 port Enhanced GE 16K C85EGE 2X 64K C8540 2 port Enhanced GE 64K C85EGE 2X 256K C8540 2 port Enhanced GE 256K C85GE 8 X 64K C8540 8 port GE Module 64K C85FE 16F 16K C8540 16 port 100 FX MT RJ 16K C85FE 16F 64K C8540 16 port 100 FX MT RJ 64K C85FE 16FACL 16K C8540 16 port 100 FX MT RJ w ACL 16K C85FE 16FACL 64K C8540 16 port 100 FX MT RJ w ACL 64K C85FE 16T 16K C8540 16 port 10 100 RJ 45 64K C85FE 16T 64K C8540 16 port 10 100 RJ 45 64K C85FE 16TACL 16K C8540 16 port 10 1
26. ure 1 6 Hierarchy of Component Managed and Physical Views Logical connections PVC and SPVCs gt Site lt Cisco chassis Cisco chassis Cisco chassis A A Supporting Line cards Supporting Line cards Supporting Line cards modules modules modules f A A Physical Physical Physical interfaces interfaces interfaces Logical connections PVC and SPVCs Logical connections PVC and SPVCs 80564 E Cisco Catalyst 8500 Manager User Guide _ Chapter 1 Concepts Views W Layer 3 QoS View The Layer 3 QoS view displays only Layer 3 QoS objects within the EM such as the following e Access Lists e Committed Access Rate CAR objects e Weighted Random Early Detection WRED objects You can work within this view to create and configure Access Lists or CAR or WRED objects by accessing the respective EM menus C8500MGR does not provide Layer 3 QoS support Neither the Layer 3 QoS view nor the respective menus are applicable to the C8500MGR Network View This view displays all network devices within their relevant networks and subnets The auto discovery system of Cisco EMF uses this view to determine which devices exist on the system so that it does not try to discover the same device multiple times For details on auto discovery
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