OSM User's Guide Next Version and Copyright Information Published June 20, 2006 Table of Contents What's New in This Guide About This Guide Related Reading 1. Introducing OSM OSM Interfaces OSM Service Connection OSM Notification Director OSM Guided Procedures OSM Low-Level Link OSM Event Viewer What Changed From TSM to OSM New Look-and-Feel Functional Differences Between OSM and TSM 2.
4. Starting the OSM Service Connection Launching an OSM Service Connection OSM Service Connection Session Error Messages Using OSM Bookmarks Verifying the OSM Service Connection State Running Multiple Sessions 5.
Suppressing Alarms Deleting Alarms 7. Viewing Attributes Using the Details Pane to View Attributes Using the Attributes Dialog Box to View Attributes Suppressing Problem Attributes 8.
Attributes Actions ATM Line Attributes Actions Battery Attributes Actions Blower (FCDM) Attributes Actions CCSA (Common Communication ServerNet Adapter) Attributes Actions Disk Attributes Actions Disk (Fibre Channel) Attributes Actions E4SA (Ethernet 4 ServerNet Adapter) Attributes Actions EMU Attributes Actions ESS Disk Attributes Actions ESS Disk Collection Attributes External Disk Attributes
Actions External Disk Collection Attributes Actions Fan Attributes Actions Fan (IOAM) Attributes Actions FC-AL I/O Module Attributes Actions FCDM Attributes Actions FCDM Collection Attributes Actions FCSA Attributes Actions Removing and Installing a Fibre Channel ServerNet Adapter FCSA FSAC Attributes Actions FESA (Fast Ethernet ServerNet Adapter) Attributes Actions FSAC (Fiber ServerNet Addressable Controller) Attributes Actions FXSA / FX2SA (ServerNet/FX / ServerNet/FX2)
Attributes Actions G4SA Attributes Actions G4SA PIF Attributes Actions G4SA SAC Attributes Actions GESA (Gigabyte Ethernet ServerNet Adapter) Attributes Actions Group (I/O or Processor Enclosure) Attributes Actions Group (IOAM) Attributes Actions Internal ServerNet Fabric Attributes Actions IOAM (I/O Adapter Module) Attributes Actions IOAM Enclosure Attributes Actions IOMF (I/O Multifunction) Attributes Actions IOMF2 (I/O Multifunction 2)
Attributes Actions LIF Attributes Actions Maintenance Switch Attributes Actions MIOE (Ethernet Controller) Attributes Actions MIOE PIF Attributes Actions MIOE SAC Attributes Actions Module Attributes Actions Set Physical Location Monitored Service LAN Devices Attributes Actions MSEB Attributes Actions PIC Attributes Actions PIF Attributes Actions
PMCU Attributes Actions PMF (Processor Multifunction) Attributes Actions PMF2 (Processor Multifunction 2) Attributes Actions Power Supply Attributes Actions Replacement Guidelines and Precautions Power Supply (FCDM) Attributes Actions Power Supply (IOAM) Attributes Actions Processor Attributes Actions SAC (ServerNet Addressable Controller) Attributes Actions SCSI Controller Attributes Actions SEB Attributes Actions ServerNet Switch Board Attributes
Actions Service Processor (SP) Attributes Actions SNDA (ServerNet/DA) Attributes Actions SSAC (SCSI SAC) Attributes Actions Storage Router Attributes Actions SWAN / SWAN2 Attributes Actions SWAN Battery Attributes Actions SWAN CLIP Attributes Actions SWAN Collection Attributes Actions SWAN FAN Attributes Actions SWAN LAN Logic Board (LANLB) Attributes Actions SWAN Line Attributes
Actions SWAN Path Attributes Actions SWAN (Power Supply) Attributes Actions System Attributes Actions Tape Collection Attributes Actions Tape Attributes Actions TRSA (Token Ring ServerNet Adapter) Attributes Actions Unknown CRU Attributes Actions UPS Attributes Actions CLIM Collection Attributes Actions CLIM Attributes Actions Common Attribute Values Battery Charge Status
Compare State Device State Enabled State Group Type Path State Power State Processor State Processor Type Service State Tape Types Topology 12.
External ServerNet Fabric Attributes Actions Remote 6770 Switch Attributes Actions ServerNet Cluster Attributes Actions ServerNet Local Node Attributes Actions ServerNet Remote Node Attributes Actions ServerNet II Switch Attributes Actions Switch Fan Attributes Actions Switch Group Attributes Actions Switch Logic Board Attributes Actions Switch PIC Attributes Actions Switch Power Supply Attributes Actions
Switch-to-Node PIC Attributes Actions Switch Node Port Attributes Actions Switch-to-Switch PIC Attributes Actions Switch Port Attributes Actions UPS (6770 Switch Module) Attributes Actions Common Attribute Values Service State Fabric State Configuration Tag Port Connectivity Status 14.
X Fabric Connections for Three Zones Y Fabric Connections for Three Zones Glossary Index Next What's New in This Guide 527274-018 Legal Notices
What's New in This Guide Prev Next What's New in This Guide The OSM Service Connection Suite has been updated to T0682G07 AAR for G06.29. Enhancements include an improved module-level Redundant Power Scrub test. (Click the link or see softdoc for details.) For a complete list of fixes and known problems, see T0682 softdoc. Recent OSM History At G06.28, the OSM Service Connection Suite was updated to T0682G07 AAL.
About This Guide Prev Next About This Guide The OSM User's Guide is available as online help within the OSM Service Connection, and in the NonStop Technical Library. From within the OSM Service Connection, you can: ● Get context-sensitive help by selecting a system resource object, action, or OSM management window area and pressing the F1 key. Help is also available from dialog box Help button.
Related Reading Prev Next Related Reading Sources of OSM-related information: ● This manual, the OSM User's Guide, is available in the NonStop Technical Library (NTL) and as online help from within the OSM Service Connection. It deals mostly with using the OSM Service Connection to monitor and perform actions on system and cluster resources. ● The NonStop S-Series Hardware Installation and FastPath Guide describes how to connect and configure a system console for use with OSM software.
NTL. Prev About This Guide 527274-018 Up Home Next Chapter 1.
Chapter 1. Introducing OSM Prev Next Chapter 1. Introducing OSM OSM Interfaces OSM Service Connection OSM Notification Director OSM Guided Procedures OSM Low-Level Link OSM Event Viewer What Changed From TSM to OSM New Look-and-Feel Functional Differences Between OSM and TSM The OSM client components are installed on a PC workstation that serves as the system console. The OSM server components are installed on the NonStop server running the HP NonStop operating system.
OSM Interfaces OSM Service Connection OSM Notification Director OSM Guided Procedures OSM Low-Level Link OSM Event Viewer OSM Service Connection The OSM Service Connection is the primary OSM management component. You use the OSM Service Connection to log on and establish a connection with a NonStop server. From the Management window, you can manage the resources of your server. If your server is part of a ServerNet cluster, you can also manage cluster resources.
● Configuration of remote access (dial-in) and remote notification (dial-out) information ● Configuration of dial-out point status for your system console ● Specification of the interval at which your OSM server generates periodic incident reports ● Authorization (automatically or manually) of incident reports to be dialed out to your service provider Note: You can receive and dial out incident reports only from systems for which your system console is a primary or backup dial-out point.
Replace Power Supply Add Switch Replace Upgrade Topology Troubleshoot ServerNet Fabric External Loopback Test Each CRU ServerNet Cluster MSEB and IOMF2 ServerNet plug-in cards (PICs) Firmware Update and Configuration Switch Update Use the Multi-Resource Actions dialog SWAN Fast Firmware Update box to stop, update, and restart any or all SWAN CLIP CLIPs simultaneously.
● Tree pane tabs have been replaced by a view of both the system and the cluster in the tree pane. ● A view pane drop-down list lets you select either a Physical or Inventory view. ● The system-level physical view no longer allows you to change icon sizes. Group icons used in the system-level physical view are smaller than those used by default in TSM, so you can view more groups without scrolling. ● OSM displays object names in the format [Object type] [Object name] ([group.module.slot.port]).
● Attributes are arranged in subgroups under an object, For example, the Fan object has a group of attributes under logical fan and another group under physical fan. Functional Differences Between OSM and TSM To find familiar TSM Service Application functions that have been enhanced or otherwise changed in the OSM Service Connection: This TSM feature... Launching the client, adding systems to your system list, and logging on to a system.
Performing the same TSM action The Multi-Resource Actions dialog box (available from the Display menu) on several objects allows you to initiate an action on any or all resources of the same type of the same type simultaneously. (individually) Rediscover is supported as an action on all system and some cluster objects. For most objects, Rediscover is available only in the shortcut menu. Rediscover menu item Rediscover causes OSM to refresh and reanalyze the object and all subcomponents.
Using Quick-key accelerators (keyboard shortcuts) Prev Related Reading 527274-018 Shortcuts are not supported in OSM because Internet Explorer uses the same keyboard shortcuts for other purposes. Up Home Next Chapter 2.
Chapter 2. Preparing the OSM Environment Prev Next Chapter 2. Preparing the OSM Environment Installing OSM Components System Console-Based Components Server-Based Components Using OSM in Conjunction with HP SIM To plan your network LAN configuration and connect your system console so it can communicate with your NonStop server through OSM client/server software, see the NonStop S-Series Hardware Installation and FastPath Guide. To migrate from TSM to OSM, see the OSM Migration Guide.
Using OSM in Conjunction with HP SIM HP Systems Insight Manager (SIM), which provides infrastructure management for all HP servers and storage, now supports the NonStop platform via a Web-Based Enterprise Management (WBEM) provided by OSM. HP SIM is capable of discovering NonStop systems, displaying and forwarding alarms generated by OSM, and collecting system and device data.
Chapter 3. Configuring OSM Prev Next Chapter 3. Configuring OSM Configuring the Server Defining Users Configuring Service Provider Access Dial-out/Dial-in Unattended Site Before using OSM applications to manage your system: ● Configure the server using the OSM Low-Level Link. ● Configure service provider access using the OSM Notification Director. ● Configure the OSM Notification Director during OSM installation to run as a Windows Service, which allows it to run without requiring a Windows logon.
Use this dialog box To Network Configure unique MSP IP addresses for your primary and backup LANs. Define the workstations authorized to display the startup TACL prompt Startup Windows and receive the event messages that occur during a system load. Define the users that are authorized to connect to the master service processors (MSPs) or maintenance entities (MEs) on your server.
1. Define the general actions each person or group of persons will perform using the OSM software package. 2. Using the OSM Low-Level Link, define the MSP user names and passwords you will use. For more information about defining user names and passwords, see the OSM Low-Level Link online help.
application. This means you can configure it to automatically start upon Windows startup, without requiring a user logon. Unlike the TSM Notification Director, the OSM Notification Director receives and processes incident reports without having to leave the system console logged onto by a super-group user. When you configured TSM as an unattended site during TSM client installation, the installer would configure your PC to automatically log on to Windows when the PC restarted.
Chapter 4. Starting the OSM Service Connection Prev Next Chapter 4. Starting the OSM Service Connection Launching an OSM Service Connection OSM Service Connection Session Error Messages Using OSM Bookmarks Verifying the OSM Service Connection State Running Multiple Sessions You can: ● Launch an OSM Service Connection ● OSM Service Connection Session Error Messages ● Using OSM Bookmarks ● Verify the OSM Service Connection State ● Run Multiple Sessions Launching an OSM Service Connection 1.
a. From the Start menu, select: Start>Programs>HP OSM>OSM Service Connection b. In the left column of the home page, select a bookmark for the system you want to access. 2. The first time you try to establish a service connection you are prompted Click here to download Java Runtime Environment. Select Open and install it according to the instructions. Then close the current browser, open a new browser, and repeat Step 1.
systems through OSM (provided those systems are now running OSM server software). The two bookmarks displayed per system represent the two IP addresses configured by default for fault-tolerant service connections. For details on migrating an existing TSM system list to a new system console (with or without TSM installed), see the OSM Migration Guide. ● You can also create your own bookmarks for future use from within the OSM Service Connection.
Chapter 5. Using the Management Window Prev Next Chapter 5.
Displays a high-level view of system objects, such as internal fabrics, groups, and Overview external devices (external disks and tapes), and of ServerNet Cluster objects, such as external fabrics, local nodes, and remote nodes. Tree Displays both system and cluster resources at the same time. Allows you to choose a view of the cluster or system: View ● Select Physical from the view drop-down list to display a physical view. ● Select Inventory from the view drop-down list to display an inventory view.
Management Window Example Internet Explorer Menu Bar The Internet Explorer menu bar is not customized for the OSM application. For most OSM functions, use the OSM toolbar (located just above the view pane) and the various panes within the Management window. Internet Explorer functions that you might use for OSM include ● Access OSM bookmarks from the Internet Explorer Favorites menu. However, you must use the OSM Create Bookmark function in the Tools menu to create the bookmarks.
● Use Find to search the contents of the Inventory view. Internet Explorer features you should not use during an OSM Service Connection session: ● The Go To, Stop, or Refresh options from the View menu. For updating OSM attributes and alarms, use the OSM Rediscover action, available by right-clicking on system resource objects. ● You cannot use Internet Explorer's Add to Favorites menu option to create OSM bookmarks. For this functionality, see Using OSM Bookmarks.
Summary Menu The Summary menu contains the following items: Displays the Problem Summary dialog box, which lists all resources that have some type of problem. Displays the Action Status Summary dialog box, which lists all actions in Action progress. Displays the Alarm Summary dialog box, which lists the alarms in the current system or ServerNet cluster and enables you to find the resource Alarm with the selected alarm in the Management window. If no alarms are outstanding, this menu item is unavailable.
Initiates the process of reloading your OSM server configuration settings. Select Reload Configuration Settings to put into effect any changes made to your OSMCONF file. A dialog will instruct you which OSM processes must be restarted for the reload to be complete. Creates an entry in your Internet Explorer Favorites list for the system you Create Bookmark are currently logged on to. Use this bookmark for future access to this system instead of entering the full URL for the system.
Using the Physical View Physical View of the ServerNet Cluster Physical View of a Local System Physical View of an Enclosure The Physical view is displayed in the view pane of the Management window. You can display the Physical view of either: ● A ServerNet Cluster ● A local system or its components When you select any resource in the Physical view, its attributes, alarms (if any), and actions are displayed in the details pane.
To display the Physical view of a system: 1. In the tree or Overview pane, select the system name. 2. From the View list, select Physical. Physical View of an Enclosure The Physical view of a group enclosure is similar to the way the group looks with the enclosure door open. This view shows both the appearance side and the service side of a group. The appearance side is the front view, which you see when you open the door of the enclosure. The service side is the back view.
1. From the tree or overview pane, click ServerNet Cluster or System. 2. From the View list, select Inventory. Inventory View of a ServerNet Cluster The Inventory view of a ServerNet Cluster displays a complete or partial list of resources in the cluster, depending on the resource you select in the tree pane. The Inventory view of a ServerNet cluster displays: The logical name of a component in the cluster and the switch zone and Name fabric in which it is located.
Type Indication of the type of plug-in card, such as ECL or SSAC. Power State Indication of whether the component is powered on or off. Hardware Revision The hardware design revision, similar to a version number. The unique number assigned to every component. If you know a Track ID components part number and tracking ID, you can find its exact location in the system. The part number assigned to the component. Use this part number to Part Number order a replacement component.
The states are indicated as green (normal), yellow (warning), and red (critical). See Alarm Severity. State Indicators The color of the System Status icon in the view pane indicates the A green System Status icon indicates no problems, or that all overall state of the problem conditions have been suppressed. system. You can suppress alarms and problem attributes to acknowledge problems on the System Status icon, thus keeping the icon green unless other problems occur that you were not aware of.
Alarm Indicators If the object has at least one alarm, an alarm icon appears: In the tree pane On the alarms tab and detail In the Alarm Summary
Alarm Severity Immediate corrective action is required. A service-affecting fault occurred. For example, a resource might have become unavailable. Urgent corrective action is required. A service-affecting fault has Major developed. For example, a resource might have lost fault tolerance. A fault exists that does not affect service. Corrective action should be taken to Minor prevent a more serious fault. For example, an unexpected path change occurred.
text box. ● To search for a particular type of disk drive, enter its part number, such as 425752, in the find text box. ● To search for any MSEB, enter MSEB in the find text box. Prev Chapter 4. Starting the OSM Service Connection 527274-018 Up Home Next Chapter 6.
Chapter 6. Viewing Alarms Prev Next Chapter 6. Viewing Alarms Viewing the Alarms Tab Viewing the Alarms Dialog Box Viewing Alarm Details Suppressing Alarms Deleting Alarms When certain problem conditions exist on a system, OSM generates alarms on the objects in need of service or attention. Alarms can be viewed in these ways: ● ● Alarms associated with a specific resource: ❍ Right-click the object and select Alarms to display the Alarms dialog box.
The Severity column contains a colored icon corresponding to the severity of the alarm. Red icons represent Critical and Major alarms. Yellow icons represent Minor, Warning, and Indeterminate alarms. See Alarm Severity. ● Time and date the alarm occurred ● Description of the alarm, including the probable cause ● Whether the alarm is dialed out to your service provider (assuming your system console is configured to dial out). To view alarms in the Alarms tab: 1.
● Time and date the alarm occurred ● Description of the alarm, including the probable cause ● The type of alarm ● Whether the alarm is dialed out to your service provider (assuming your system console is configured to dial out) You can also view alarms for a selected resource without opening the Alarms dialog box as explained in Viewing the Alarms Tab. To display detailed information for an alarm: Highlight the alarm and then click Detail. See also Viewing Alarm Details.
Suppressing Alarms To stop known problems from propagating up and causing higher level object icons to indicate problem conditions within, you can choose to suppress a particular alarm. To suppress an alarm: Right-click an alarm in either the Alarms tab, Alarms dialog box, or the Alarm Summary dialog box and select Suppress. (In the Alarms dialog box or the Alarm Summary dialog box, you can also highlight the alarm and click the Suppress button.). To undo the alarm suppression, select Unsuppress.
Chapter 7. Viewing Attributes Prev Next Chapter 7. Viewing Attributes Using the Details Pane to View Attributes Using the Attributes Dialog Box to View Attributes Suppressing Problem Attributes Every resource has attributes associated with it. You can view the attributes of a resource in the details pane of the Management window, or you can display the Attributes dialog box, which is available from any view.
To show actions for a resource: Click Show Actions to display the Actions dialog box for the resource. To save the list of attributes: Click Save to display a Save dialog box. To reach the attributes dialog box: Do one of: ● In the tree view, select a resource and select Display>Attributes. ● Right-click any resource and select Attributes from the menu that appears. ● In the physical view, right-click a resource and select Attributes from the menu that appears.
Chapter 8. Performing Actions Prev Next Chapter 8.
Performing Actions on a Selected Resource Performing an Action Viewing Detailed Information About an Action Use the Actions dialog box to perform actions on a selected resource in the server or ServerNet cluster. Actions for the selected resource appear in the Available Actions list. For a description of a particular action, highlight the action and press the F1 key. A history of actions performed on the resources within the last eight hours appears in the Action Status list.
Saving a Multi-Resource View Using Customized Resource Views Use the Multi-Resource Actions dialog box to perform an action on a group of resources of the same type. The dialog box allows you to select the resource type. All resources of that type appear in an available resources list, and actions for the selected resource type appear in the Action drop-down menu. You can select an action and then select specific resources on which to perform the action.
Move a specific resource (selected by clicking it) from the available list to the selected list. Remove all Move all resources from the selected list back to the available list. Move a specific resource (selected by clicking it) from the selected list back Remove to the available list. Add 5. Click Perform Action. As the action is performed, its status appears to the left of the resource name in the selected resources list. A summary of the action progress is shown in the Progress status boxes. 6.
Actions dialog box, you can also select a previously saved resource view from the Configuration list.) 2. The Multi-Resource Actions dialog box is displayed. Only the resources specified in the saved resource view appear under Resource Types. Deleting a Resource View 1. In the Multi-Resource Actions dialog box, click Configure&. 2. In the Multi-Resource Configuration dialog box, select the name of the resource view you want to delete from the drop-down menu. 3. Click Delete.
3. From the Action drop-down menu, select the action to perform. A second resources list is displayed below the first: ● You can resize the panes by using the divider line above the add and remove buttons. ● You can sort either resources list by clicking the bottom line of the column heading. 4. To further refine the resources on which to perform the firmware update, select a parameter from the Filter by drop-down list.
Chapter 7. Viewing Attributes 527274-018 Home Chapter 9.
Chapter 9. Viewing Summary Reports Prev Next Chapter 9. Viewing Summary Reports Viewing a Problem Summary Viewing a Summary of Actions Actions Not Displayed OSM Software-Triggered Actions Viewing Action Details Viewing a Summary of Alarms Viewing a Resource Summary You can view a: ● Problem Summary ● Summary of Actions ● Summary of Alarms ● Resource Summary Viewing a Problem Summary The Problem Summary lists all resources that are in a problem state.
Viewing a Summary of Actions Actions Not Displayed OSM Software-Triggered Actions Viewing Action Details The Action Status Summary displays a summary of all actions in progress and actions that have taken place in past 24 hours. Information for each action includes resource name, action name, action status, and progress of the action. You can also view detailed information about each action. Actions Not Displayed The Rediscover action is not reported in the Action Summary dialog box.
alarms for a single resource, as described in Viewing the Alarms Dialog Box. The Alarm Summary dialog box provides this information about each alarm: ● Alarm severity ● Time and date the alarm occurred ● Resource name ● Description of the alarm, including probable cause and alarm type ● Whether the alarm is dialed out to your service provider (assuming your system console is configured to dial out) To display detailed information for an alarm: Highlight the alarm and click Detail.
3. To perform an action on any of the resources, see Performing Actions on Multiple Resources of the Same Type. Prev Chapter 8. Performing Actions 527274-018 Up Home Next Chapter 10.
Chapter 10. Managing a System Prev Next Chapter 10. Managing a System Locating and Viewing System Resources Monitoring a System Performing Actions on a System Updating Firmware A system consists of all the hardware components, software, and firmware that are managed by a single operating system. Using the OSM applications, you can monitor and maintain your local server to check the status of all system components and to watch for indications of potential system problems.
● Checking for incident reports in the OSM Notification Director. The OSM Notification Director generates problem incident reports when critical changes occur to a resource on the system. ● Checking the OSM Event Viewer for events. The OSM Event Viewer displays events from EMS-formatted log files such as $0 and $ZLOG. ● Checking the internal X and Y fabrics to examine the systems connections between its groups.
Chapter 11. System Resources Prev Next Chapter 11.
Actions ESS Disk Collection Attributes External Disk Attributes Actions External Disk Collection Attributes Actions Fan Attributes Actions Fan (IOAM) Attributes Actions FC-AL I/O Module Attributes Actions FCDM Attributes Actions FCDM Collection Attributes Actions FCSA Attributes Actions Removing and Installing a Fibre Channel ServerNet Adapter FCSA FSAC Attributes Actions FESA (Fast Ethernet ServerNet Adapter) Attributes Actions
FSAC (Fiber ServerNet Addressable Controller) Attributes Actions FXSA / FX2SA (ServerNet/FX / ServerNet/FX2) Attributes Actions G4SA Attributes Actions G4SA PIF Attributes Actions G4SA SAC Attributes Actions GESA (Gigabyte Ethernet ServerNet Adapter) Attributes Actions Group (I/O or Processor Enclosure) Attributes Actions Group (IOAM) Attributes Actions Internal ServerNet Fabric Attributes Actions IOAM (I/O Adapter Module) Attributes Actions IOAM Enclosure Attributes Actions IOMF (I/O Multifunction)
Attributes Actions IOMF2 (I/O Multifunction 2) Attributes Actions LIF Attributes Actions Maintenance Switch Attributes Actions MIOE (Ethernet Controller) Attributes Actions MIOE PIF Attributes Actions MIOE SAC Attributes Actions Module Attributes Actions Set Physical Location Monitored Service LAN Devices Attributes Actions MSEB Attributes Actions PIC Attributes Actions PIF
Attributes Actions PMCU Attributes Actions PMF (Processor Multifunction) Attributes Actions PMF2 (Processor Multifunction 2) Attributes Actions Power Supply Attributes Actions Replacement Guidelines and Precautions Power Supply (FCDM) Attributes Actions Power Supply (IOAM) Attributes Actions Processor Attributes Actions SAC (ServerNet Addressable Controller) Attributes Actions SCSI Controller Attributes Actions SEB Attributes Actions ServerNet Switch Board
Attributes Actions Service Processor (SP) Attributes Actions SNDA (ServerNet/DA) Attributes Actions SSAC (SCSI SAC) Attributes Actions Storage Router Attributes Actions SWAN / SWAN2 Attributes Actions SWAN Battery Attributes Actions SWAN CLIP Attributes Actions SWAN Collection Attributes Actions SWAN FAN Attributes Actions SWAN LAN Logic Board (LANLB) Attributes Actions SWAN Line Attributes
Actions SWAN Path Attributes Actions SWAN (Power Supply) Attributes Actions System Attributes Actions Tape Collection Attributes Actions Tape Attributes Actions TRSA (Token Ring ServerNet Adapter) Attributes Actions Unknown CRU Attributes Actions UPS Attributes Actions CLIM Collection Attributes Actions CLIM Attributes Actions Common Attribute Values Battery Charge Status Compare State
Device State Enabled State Group Type Path State Power State Processor State Processor Type Service State Tape Types Topology Using OSM, you can monitor and maintain these system resources: ATM Adapter ATM Line Battery Blower (FCDM) G4SA G4SA PIF G4SA SAC Group (I/O or Processor Enclosure) Processor SAC SCSI Controller SEB CCSA Group (IOAM) ServerNet Switch Board CLIM CLIM Collection Internal ServerNet Fabric IOAM SSAC SNDA Disk Disk (Fibre Channel) IOAM Enclosure IOMF Service Processor Storage R
FXSA / FX2SA GESA Power Supply (FCDM) IOAM Power Supply (IOAM) ATM3SA (ATM Adapter) Attributes Actions A customer-replaceable unit (CRU) that connects the ServerNet SAN inside a server to an Asynchronous Transfer Mode (ATM) network through a logical connection known as an ATM line. Each ATM CRU contains one ATM line. Slot Location: ATM CRUs can be located in slots 53 and 54 in processor enclosures (service side) or in slots 51, 52, 53, and 54 in IOMF or IOMF2 enclosures (service side).
Indication of whether the ATM adapter software is automatically dumped to the specified dump file if the software abends abnormally. Automatic Dump State Enabled: The software is automatically copied. Disabled: The software is not automatically copied. Unknown:: The Automatic Dump state could not be read. The type of media or cable, such as single-mode fiber or coaxial cable, supported by the ATM CRU. Indication of whether the ATM CRU firmware is automatically updated when the ATM CRU is started.
Responsive Test Verifies that the component is connected and responding. Start Starts the ATM CRU and the associated ATM line. The ATM CRU must be in the Stopped state before you perform this action. During startup, the controller operational code is automatically loaded into the ATM CRU. When the Start action finishes, the ATM CRU and the ATM line are in the Started state. Test Verify Runs all the firmware diagnostic tests on the CRU. This test takes about three minutes to finish.
UNI Management Entity VPI The User-Network interface (UNI) management entity virtual path identifier (VPI). Maximum Number of VCIs Value: 0 through 255 The maximum number of Virtual Circuit IDs (VCIs) that can be active for permanent virtual circuits. UNI Version Maximum Number of VPIs ATM Address Registered Device State Value: 32 through 3072 The version of the User-Network Interface (UNI) supported by this ATM line.
Example: Battery (1.1.28) Attributes Battery Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Manufacturer Identifies the manufacturer of the component. Power State Indication of whether the component is powered on. Values Logical The condition of the battery CRU. Fully Charged: The battery is fully charged. Charge State Charging: The battery is in the process of being charged.
The minimum voltage that the battery must maintain to continue operating is 39.6 volts. Lower Fatal Threshold If the battery's Total Voltage falls below 39.6, the battery is disconnected. This disconnection could cause an enclosure or the entire system to go down. The current combined voltage of both the upper and lower cells of the battery. Current Value If the Total Voltage falls below 42 volts, an alarm is generated. If the Total Voltage falls below the 39.6 volts, the battery is disconnected.
Physical Indicates whether or not the blowers (amber) fault LED is blinking. LED State Type Value: Blinking or Off The vendor hardware type. Logical Device State The state of the component as known to the operating system on the server. Values Actions Blink LED Off Turns off the blinking of the blowers (amber) fault LED. SCF Equivalent: SCF Control SAC $ZZSTO.#sac-name, deviceid(shelf,bay), LED OFF Blink LED On Causes the blowers (amber) fault LED to blink on and off.
Attributes CCSA Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Hardware Revision Manufacturer Part Number Power State Track ID A code that identifies the generation of the component. Hardware revision codes are used for tracking components. Identifies the manufacturer of the component. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts.
if the CCSA is currently in use (and stops it only after you confirm). Test Verify Checks the health of the Common Communication ServerNet adapter (CCSA) CRU. It determines whether the CCSA CRU can communicate with at least one SAC on the board. Disk Attributes Actions An internal 3.5-inch hard disk drive. Each disk drive connects to one of two SCSI buses on either a (PMF), IOMF) or an IOMF2 CRU.
The current state of the backup disk path. Values. The logical device number used by the operating system to identify the Logical Device Number disk. Example: 7 Media Size The total size (in kilobytes) of disk storage space. The current state of the primary disk path. Values. Primary Path State Product ID A unique number that identifies the product. Backup Path State Process Pair The 2 processors in which this I/O process is configured to run.
SCSI Controller A number (1 or 2) that identifies the backup SCSI controller that manages the disk. SCSI ID Example: SCSI Controller (1.1.50.2) An identification number assigned to the device when configured. Primary Path The accessibility of the primary path. Access State Values: Inactive, Active Configured Controller The location of the primary disk path SCSI controller. Location Example: PMF.SAC-2.GRP-1.MOD-1.
Caution: Perform this action only when instructed to by service provider, Support Note, or other notification. To update disk firmware: 1. Locate and transfer the appropriate firmware source file to your server. Disk firmware versions vary by manufacturer and model number. The correct version for one disk drive might not work for others. 2.
Reset Volume Places the volume in a state from which it can be started. Responsive Test Verifies that the disk drive is installed and responding. Start Backup Path Starts the backup path to this disk drive. When the Start action completes, the backup path is in the Started state. This action fails if both paths to this disk are down and the mirrored disk is Up. For more information, see Start Disk.
Stop Disk Terminates all paths for this disk drive. When the Stop action finishes, the paths are in a Down state. If the disk drive is currently in use, a dialog box warns you and asks whether or not you want to continue with the action. Stop Primary Path Terminates the primary path to the disk. When the Stop action finishes, the path is in a Down state. If the disk drive is currently in use, a dialog box warns you and asks whether or not you want to continue with the action.
Disk (Fibre Channel) Attributes Actions A Fibre Channel disk that resides in a Fibre Channel disk module (FCDM). Location in OSM Tree: System > Group > FCDM Collection > FCDM > Disk Example: Disk (111.211.1.3) Attributes Disk (Fibre Channel) Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Device State The state of the component as known to the operating system on the server.
Product ID A unique number that identifies the product. Process Pair The state of the backup I/O process. Backup Execution State Values: Running, Stopped The process ID of the backup I/O process. If the state of the backup I/O process is Stopped, this ID is not displayed. Backup Process ID Example: 1,285 The two processors in which this I/O process is configured to run. Configured Processors Example: 0,1 The state of the primary I/O process.
Identifies the backup FCSA that manages the disk. FSAC Example: FCSA FSAC (111.3.2.1) Firmware OEM Product ID The firmware product ID assigned by the supplier. Version The version of the firmware running on the disk. Actions Abort Backup Path Terminates operation of the backup path to the disk. When the Abort action finishes, the path is in a Hard Down state. You must use the Reset Backup Path action before you can start the path again. Abort Disk Terminates operation of all paths for the disk.
Enable Drive Bypass Shuts down the specified port or ports (A and/or B) on the disk drive. Firmware Update Updates firmware for the Fibre Channel disk drive. This action can be performed only when both Primary and Backup paths are in the Down state. Replace Displays the procedure for replacing the disk. Reset Backup Path Places the backup path in a state from which it can be started. Reset Disk Places the disk in a state from which it can be started.
Spin Up Starts the physical spinning of the disk drive. Start Backup Path Starts the backup path to this disk drive. When the Start action completes, the backup path is in the Started state. This action fails if both paths to this disk are down and the mirrored disk is Up. For more information, see Start Disk. Start Disk Use this action to start all paths to the disk drive only when: ● The disk paths are in a Down state.
continue with the action. Stop Primary Path Terminates the primary path to the disk. When the Stop action finishes, the path is in a Down state. If the disk drive is currently in use, a dialog box warns you and asks whether or not you want to continue with the action. Stop Volume Terminates all paths for the primary and mirror drives of this volume. When the Stop action finishes, the paths are in a Down state. Switch Process Pair Switches the primary and backup disk I/O processes.
Attributes E4SA Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Hardware Revision Manufacturer Part Number Power State Track ID A code that identifies the generation of the component. Hardware revision codes are used for tracking components. Identifies the manufacturer of the component. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts.
Enables the specified ServerNet router port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Start Starts the Ethernet 4 ServerNet Adapter (E4SA) CRU and the associated Ethernet ServerNet addressable controller (ESAC). The E4SA CRU and the ESAC must be in the Stopped state before you perform this action. During startup, the controller operational code is automatically loaded into the ESAC.
Firmware Version The version of the firmware configuration currently loaded on the EMU. Actions Firmware Update Updates the firmware on the EMU. Replace Displays the procedure for replacing the EMU. ESS Disk Attributes Actions Enterprise Storage System disk drive. ESS disks are visible in the tree pane and in the Inventory view of the Management window. In the tree pane, expand the ESS Disk Collection object to see the individual ESS disk drives.
Backup Path State Media Size The current state of the backup disk path. Values. The total size (in kilobytes) of disk storage space. The path that is currently accessing the disk. Active Path Primary Path State Values: Primary, Backup, Mirror, Mirror Backup The current state of the primary disk path. Values. Backup Path Displays the configured location of the FCSA FSAC containing the Configured FSAC Location backup disk path SCSI controller.
The 2 processors in which this I/O process is configured to run. Configured Processors Example: 0,1 The state of the primary I/O process. Primary Execution State Primary Process ID Values: Running, Stopped The process ID of the primary I/O process. If the state of the primary I/O process is Stopped, this ID is not displayed. Example: 1,296 The state of the backup I/O process. Backup Execution State Backup Process ID Values: Running, Stopped The process ID of the backup I/O process.
Reset Volume Places the volume in a state from which it can be started. Responsive Test Verifies that the disk drive is installed and responding. Start Backup Path Starts the backup path to this disk drive. When the Start action completes, the backup path is in the started State. Start Disk Starts all paths to this disk drive. When the Start action completes, all paths are in the Started state. Start Primary Path Starts the primary path to this disk drive.
Switch Process Pair Switches the primary and backup disk I/O processes. Switch to Backup Path Switches processing from the primary to the backup path. Switch to Primary Path Switches processing from the backup to the primary path. ESS Disk Collection Attributes Contains all ESS Disks that are connected to the system. Location in OSM Tree: Under System Example: ESS Disk Collection Attributes None.
Attributes External Disk Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. A unique serial number that identifies the component. Track IDs are used for Track ID tracking components. A code that identifies the generation of the component.
Backup Process ID The process ID of the backup I/O process. If the state of the backup I/O process is Stopped, this ID is not displayed. Example: 1,285 Disk Pair The name of the disk paired with this one. Disk Pair Name Example: External Disk $KLAM2M Backup Path SCSI ID SCSI Controller An identification number assigned to the device when configured. A number (1 or 2) that identifies the backup SCSI controller that manages the disk. Example: SCSI Controller (1.1.50.2) The accessibility of the backup path.
Hard Down state. You must use the Reset Backup Path action before you can start the path again. Abort Disk Terminates operation of all paths for the disk. When the Abort action finishes, the paths are in a Hard Down state. You must use the Reset Disk action before you can start the paths again. Abort Primary Path Terminates operation of the primary path to the disk. When the Abort action finishes, the path is in the Stopped state.
Responsive Test Verifies that the disk drive is installed and responding. Start Backup Path Starts the backup path to this disk drive. When the Start action completes, the backup path is in the started State. Start Disk Starts all paths to this disk drive. When the Start action completes, all paths are in the Started state. Start Primary Path Starts the primary path to this disk drive. When the Start action completes, the primary path is in the Started state.
Switch to Primary Path Switches processing from the backup to the primary path. Test Verify Runs the power-on self-test for the disk and tests the internal circuitry of the drive. Validate Checksum Scans the user data area of a disk for sector checksum errors. If the action fails, the Action Details dialog box reports a sector checksum error and suggests that you spare the sector only if you believe there is a drive media problem. For additional information, use the OSM Event Viewer.
Fan Attributes Actions A component that circulates air into the enclosure to help maintain optimal temperature. Each system enclosure contains two fans, and each fan is connected to one processor multifunction ( PMF) CRU. Location in OSM Tree: System > Group > Module > Fan Slot Location: Fan CRUs are located in slots 25 and 26 on the appearance side of processor enclosures.
Actions Enable/Disable Restores or stops power to the fan. After servicing the fan or its associated PMCU, perform the Enable action. Parameter: Enabled (true = enabled, false = disabled) Fan (IOAM) Attributes Actions An IOAM component that circulates air into the enclosure to help maintain optimal temperature. There are two fans in each IOAM, for a total of four in each IO enclosure. Note: If a ServerNet switch board is not present, the IOAM fans will not appear in OSM.
FC-AL I/O Module Attributes Actions Subcomponent of a FCDM. There are two FC-AL I/O modules in each FCDM. These modules are the interface between the FCDM elements and the host controller. They route data to and from the drives using loop A and loop B. Location in OSM Tree: System > Group > FCDM Collection > FCDM > FC-AL I/O Module Example: FC-AL I/O Module (111.211.1.
Actions Blink LED Off Turns off the blinking of the FC-AL I/O Modules (amber) fault LED. SCF Equivalent: SCF Control SAC $ZZSTO.#sac-name, deviceid(shelf,bay), LED OFF Blink LED On Causes the FC-AL I/O Modules (amber) fault LED to blink on and off. SCF Equivalent: SCF Control SAC $ZZSTO.#sac-name, deviceid(shelf,bay), LED ON Replace Displays the procedure for replacing the FC-AL I/O module.
Manufacturer Identifies the manufacturer of the component. Serial Number The serial number of the component assigned to it by the supplier of the component. Type The vendor hardware type. Physical Location The values displayed by these attributes are assigned through the Set Physical Location action. Rack Name Rack Offset A user-defined name assigned to identify the rack in which the FCDM is located. A number (from 1 to 42) assigned to describe the location of the FCDM within the rack.
Identifies the FCSA FSAC connected to the FCDM through Port A. Fibre Channel Controller Example: FCSA FSAC (111.2.1.1) Actions Blink All LEDs Off Turns off the blinking of the fault LEDs on the FCDM, disks, FC-AL I/O module, power supplies, and fans. Blink All LEDs On Causes the fault LEDs on the FCDM, disks, FC-AL I/O module, power supplies, and fans to blink. Disable All Drive Bypass Opens up the specified port or ports (A and/or B) on all disk drives in the FCDM for use.
Verify Path A Access Verifies that Path A from the FCDM via FC-AL I/O module A to the FCSA FSAC is responding. Verify Path B Access Verifies that Path B from the FCDM via FC-AL I/O module B to the FCSA FSAC is responding. FCDM Collection Attributes Actions The OSM Service Connection displays all Fibre Channel disk modules (FCDMs) within FCDM Collection objects, whether or not they are daisy-chained. FCDMs that are daisy-chained together (up to four) are displayed within the same FCDM Collection object.
Configured Controller Location The location of FCSA connected to the disk drive through Port A. Example: FCSA.FSAC-1.GRP-111.MOD-3.SLOT-1 Identifies the FCSA FSAC connected to the FCDM through Port A. Fibre Channel Controller Example: FCSA FSAC (111.3.1.1) Actions None. FCSA Attributes Actions Removing and Installing a Fibre Channel ServerNet Adapter Fibre Channel ServerNet adapter. The FCSA object always displays two FCSA FSACs, regardless of whether they are both physically present.
Part Number Track ID The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. A unique serial number that identifies the component. Track IDs are used for tracking components. Flash Firmware Information about the version of the operational firmware located in the Flash memory of the FCSA. This firmware is not used in NonStop S-series systems, as system load through an FCSA is not supported on S-series.
When initiated, OSM checks for any connected paths that do not have a backup and warns you of any connectivity loss that could result from continuing with the action. OSM also directs you to the online help for precautionary guidelines for handling the hardware. See: ● Removing the FCSA ● Installing the Replacement FCSA Once you confirm that the FCSA has been replaced, OSM presents these options for bringing up the paths associated with this adapter: ● Bring up and balance.
Caution: Do not attach the ESD grounding clip to doors or to any painted surface. 5. Press down on the ejector to unseat the adapter. The adapter must be pulled at least two inches out of its slot to be unseated. If the adapter is not unseated far enough, a long connector pin in the midplane can still be engaged with the FCSA. This will make some software behave as though the FCSA is still in its slot but is broken. 6.
b. Carry the FCSA to the back of the IOAM enclosure. c. Set the FCSA down on an antistatic mat right side up with the ejector at the top. 4. Disconnect the grounding clip of your ESD wrist strap from the FCSA and connect it to any unpainted metal surface on the IOAM enclosure or on the rack in which the enclosure is installed. 5. Insert the FCSA: a. Using both hands, hold the FCSA so that its ejector is at the top. b. Insert the adapter into its slot in the enclosure. c.
mounted on an FCSA (Fibre Channel ServerNet adapter). Location in OSM Tree: System > Group > IOAM Enclosure > IOAM > FCSA > FSAC Example: FCSA FSAC (13.3.1.1) Note: The ports on the FCSA are numbered from top down when you view the FCSA installed in a rack. Thus, FCSA FSAC 1 is attached to the upper port (port 1), FCSA FSAC 2 is attached to the lower port (port 2). Attributes FCSA FSAC Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK.
Attributes FESA Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Physical Hardware Revision Manufacturer Part Number Power State Track ID A code that identifies the generation of the component. Hardware revision codes are used for tracking components. Identifies the manufacturer of the component. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts.
the FESA is currently in use (and stops it only after you confirm). FSAC (Fiber ServerNet Addressable Controller) Attributes Actions The Fiber SAC (ServerNet addressable controller) is a fiber-optic plug-in card mounted on the ServerNet/DA CRU. External storage devices are physically connected to the Fiber SACs. There can be up to four Fiber SACs on each ServerNet/DA CRU. Location in OSM Tree: System > Group > Module > SNDA > FSAC Example: FSAC (11.1.53.
FXSA / FX2SA (ServerNet/FX / ServerNet/FX2) Attributes Actions The ServerNet/FX adapter (FXSA) and ServerNet/FX 2 adapter (FX2SA) field-replaceable units (FRUs) allow NonStop S-series servers to communicate with NonStop K-series servers using a fiber-optic ring. Location in OSM Tree: System > Group > Module > FX2SA Slot Location: FXSA and FX2SA FRUs can be installed in slots 51 through 54 in PMF or IOMF enclosures (service side).
Indication of the current power level for the fiber-optic transmitter LED from the right direction: Low: The LED power for transmitting to the right direction is low, Right Transmitter Power Level suitable for shorter distances (less than 2 kilometers). High: The LED power for transmitting to the right direction is high, suitable for shorter distances (2 km to 4 km). Invalid: The LED power level to the right direction is unknown, possibly due to no response.
the ServerNet/FX or ServerNet/FX2 adapter. Dump Controller Writes the data from the memory of the ServerNet/FX or ServerNet/FX 2 adapter field-replaceable unit (FRU) to the file $SYSTEM.ZSERVICE.ZFOXDUMP. The ServerNet/FX FRU must be in the Stopped state to perform this action. External Loopback Test Performs the external loopback firmware diagnostic test.
Start Starts the ServerNet/FX or ServerNet/FX 2 adapter field-replaceable unit (FRU) that is in the Stopped state. During startup, the controller operational code is automatically loaded into the FRU. When the Start action completes, the FRU is in the Started state. Stop Stops the ServerNet/FX or ServerNet/FX 2 adapter field-replaceable unit (FRU) that is in the Started state. When the Stop action completes, the FRU is in the Stopped state.
Manufacturer Part Number Track ID Identifies the manufacturer of the component. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. A unique serial number that identifies the component. Track IDs are used for tracking components. Logical The configuration type of this resource. Configured Type Device State Values: CCSA, E4SA, FESA, G4SA, GESA, TRSA, Unknown The state of the component as known to the operating system on the server.
G4SA PIF Attributes Actions Physical interface (PIF) objects represent each of the four ports on a G4SA through which LAN connections are made. Each G4SA PIF has an associated LIF object. Location in OSM Tree: System > Group > IOAM Enclosure > IOAM > G4SA > G4SA SAC > G4SA PIF Example: G4SA PIF $ZZLAN.G4SA1.0.A Attributes G4SA PIF Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK.
Network MAC Address The media access control (MAC) address of the PIF network. Lists the processor numbers for processors that have a successful data Processors with Data Path path to the PIF. If no processor has a path, "None" is shown. Example: 1,2,3,8,9 Actions Abort Terminates operation of the G4SA PIF. When the Abort action finishes, the PIF is in the Stopped state. Alter Interface Type Allows you to set the Configured Interface Type to either Autodetect, Copper, or Fiber.
Example: G4SA SAC $ZZLAN.G4SA1.0 Attributes G4SA SAC Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Logical Indicates whether the SAC boot firmware is automatically reloaded if it terminates abnormally. Automatic Boot State Enabled: The boot firmware is automatically reloaded. Disabled: The boot firmware is not automatically reloaded. Unknown: Automatic Boot state could not be read.
Default File Version The version of the firmware to be used for a (boot) Firmware Update. The differences, if any, between the current and default boot firmware Compare State versions. Values Actions Abort Terminates operation of the G4SA ServerNet addressable controller. When the Abort action finishes, the SAC is in the Stopped state. Dump Copies a memory image from a G4SA SAC to a specified file on the local system. Firmware Update Updates the boot firmware for the G4SASAC.
The Gigabit Ethernet ServerNet Adapter (GESA) CRU contains one Gigabit Ethernet ServerNet addressable controller (SAC), which contains one Ethernet physical interface (PIF), resulting in one Ethernet port on each GESA CRU. Location in OSM Tree: System > Group > Module > GESA Slot Location: GESA CRUs can be located in slots 53 and 54 in PMF enclosures (service side) or in slots 51, 52, 53, and 54 in IOMF or IOMF2 enclosures (service side). Example: GESA $ZZLAN.GESA0 (1.1.
Starts the Gigabyte Ethernet ServerNet adapter (GESA) and the associated Ethernet ServerNet addressable controller (SAC). The GESA and the SAC must be in the Stopped state before you perform this action. During startup, the controller operational code is automatically loaded into the SAC. When the Start action completes, both the GESA and the SAC are in the Started state.
Actions Power Off Upon initiating the action, it first performs precautionary checks to ensure that you can safely power off. These checks ensure that: ● If the group is an enclosure on the inner tetrahedral ring, there are no enclosures off this enclosure. ● There are no IOMF enclosures off this enclosure. If the checks complete successfully, or you choose to disregard any warnings and proceed, the action allows you to disable the batteries and halt the processors.
Actions Rediscover Causes OSM to refresh and reanalyze the group and all subcomponents. Refresh refers to OSM updating the attribute values displayed in the OSM Service Connection interface. Reanalyze refers to the running of OSM incident analysis, which checks EMS event messages and creates alarms in OSM if certain conditions exist. Internal ServerNet Fabric Attributes Actions The system has two internal ServerNet fabric objects, the Internal ServerNet X Fabric and the Internal ServerNet Y Fabric.
Stop ServerNet Stops all ServerNet traffic through all or specified processors on the fabric. IOAM (I/O Adapter Module) Attributes Actions A modular I/O adapter module. There are two IOAMs in each IOAM Enclosure.
Actions Read LCD Displays all 16 lines of the IOAMs LCD text in the Action Detail dialog box. Retrieve Network Connectivity Info Displays remote IP addresses stored in the IPAUTH file of the processor switch. Write LCD Line Allows you to edit the text displayed by the IOAMs LCD. You can modify lines 9 through 15 with this action. IOAM Enclosure Attributes Actions An enclosure that contains two I/O Adapter Modules.
Actions Replace IOAM Enclosure or ServerNet Switch Board Launches a guided procedure, which provides step-by-step instructions for replacing the entire IOAM enclosure or an individual ServerNet switch board within the enclosure. Set Physical Location Allows you to assign these Physical Location attributes for the IOAM enclosure: ● Rack Name is a user-defined name for the rack containing the IOAM enclosure. You can enter up to eight alphanumeric characters.
Attributes IOMF Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Hardware Revision Manufacturer Part Number Power State Track ID A code that identifies the generation of the component. Hardware revision codes are used for tracking components. Identifies the manufacturer of the component. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts.
Actions Disable ServerNet Port Disables the specified ServerNet router port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Enable ServerNet Port Enables the specified ServerNet router port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Force Power Off Use this action to power off the CRU and all of its subcomponents only if the Prepare to Power Off or Power Off actions fail.
becomes primary ● Disables the battery Replace Launches the Replace IOMF guided procedure, which provides step-by-step instructions for replacing the IOMF CRU. Storage ASIC Initialization Test Prompts the storage subsystem manager process ($ZZSTO) to initialize the storage ASIC in the CRU. If initialization fails, an alarm is generated. This action is triggered automatically when a new CRU is inserted while OSM is running or when an (SCF) STATUS ADAPTER command is issued.
Physical Hardware Revision Manufacturer Part Number Power State Track ID A code that identifies the generation of the component. Hardware revision codes are used for tracking components. Identifies the manufacturer of the component. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. Whether the component is powered on. Values A unique serial number that identifies the component. Track IDs are used for tracking components.
The status of the storage ASIC in the CRU. Initialization State Values: Initialized, Uninitialized, Unknown Actions Disable ServerNet Port Disables the specified ServerNet port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Enable ServerNet Port Enables the specified ServerNet port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Force Power Off This action is not supported for this CRU type.
Storage ASIC Initialization Test Prompts the storage subsystem manager process ($ZZSTO) to initialize the storage ASIC in the CRU. If initialization fails, an alarm is generated. This action is triggered automatically when a new CRU is inserted while OSM is running or when an (SCF) STATUS ADAPTER command is issued. If a CRU is inserted while OSM is not running, perform this action after logging on to the OSM Service Connection. Test Verify Performs basic tests on the CRU.
Delete Deletes the LIF. Start Starts the LIF. Stop Rather than automatically stopping the LIF (as the Abort action does), this action first warns you if the LIF is currently in use (and stops it only after you confirm). Maintenance Switch Attributes Actions An Ethernet switch that allows the OSM console to communicate with the Maintenance Entity (ME) in the ServerNet switch board.
Location MAC Address ROM Version Serial Number Configurable location identifier set in the web interface (launched by the Link to Web Interface action) by selecting Configuration tab > System Info > System Name. The media access control (MAC) address of the switch. The version of the startup bootcode for the switch. A unique identification number assigned to each switch in manufacturing.
Logical The configuration type of this resource. Configured Type Device State Values: CCSA, E4SA, FESA, G4SA, GESA, TRSA, Unknown The state of the component as known to the operating system on the server. Values Actions Abort Terminates operation of the MIOE. When the Abort action finishes, it is in the Stopped state. Start Starts the MIOE. It must be in the Stopped state before you perform this action. When the Start action completes, the MIOE is in the Started state.
Lists the processor numbers for processors that have a successful data Processors with Data Path path to the PIF. If no processor has a path, "None" is shown. Example: (1) Hardware MAC Address The media access control (MAC) address of the PIF hardware. Actions Abort Terminates operation of the MIOE PIF. When the Abort action finishes, the PIF is in the Stopped state. Configure LIF Configures the associated LIF. Start Starts the MIOE PIF. The PIF must be in the Stopped state before you perform this action.
Logical The currently available processors that can access the MIOE CRU. Processor Access List Device State Example: 0,1 The state of the component as known to the operating system on the server. Values The processor to which the MIOE CRU is connected. Owning Processor Example: 0 Actions Abort Terminates operation of the MIOE SAC. When the Abort action completes, the MIOE SAC is in the Stopped state.
Attributes Module Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Location The values displayed by these attributes are assigned through the Set Physical Location action. Rack Name Rack Offset A user-defined name assigned to identify the rack in which the module is located. A number (from 1 to 42) assigned to describe the location of the module within the rack.
This action is run automatically at 2:00 a.m. daily. It can also be performed manually at any time. See note below for default value of the new Redundant Power Scrub test. On T0682AAC and later, this OSM action is also supported on Telco systems. Note: A new version of Redundant Power Scrub is available in T0682AAR and later. It provides independent battery testing and an extended load test for the bulk power supplies. With this new version, the action can take up to 25 minutes to complete.
Monitored Service LAN Devices Attributes Actions Contains Maintenance Switch and UPS objects that you have configured OSM to monitor through the actions on this object. Location in OSM Tree: System > Monitored Service LAN Devices Attributes None. Actions Start Monitoring Maintenance Switch Causes the OSM Service Connection to display and start monitoring the maintenance switch.
Example: MSEB (1.1.51) Attributes MSEB Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Physical Power State Whether the component is powered on. Values The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. A unique serial number that identifies the component. Track IDs are used for Track ID tracking components.
Replace Launches the Replace MSEB guided procedure, which provides step-by-step instructions for replacing the MSEB CRU. PIC Attributes Actions A replaceable component of MSEB or IOMF2 CRUs that provides connectivity to internal* ServerNet fabrics. * In port 6 of the MSEBs located in slot 51 and 52 of group 01 only, NNA-type ServerNet PICs can be used to provide connectivity to external ServerNet fabrics. Location in OSM Tree: System > Group > Module > IOMF2 > PIC Example: PIC (1.1.52.
even if you are not sure a loopback test needs to be cleared on the PIC. Enable/Disable Port Enables or disables the port for this CRU. Parameter: Enabled (true = enabled, false = disabled) Note: If the port being enabled or disabled is on an NNA-type (MSEB) PIC connected to an External Servernet Switch, you must issue a Reset on the Primary SP in Group 1.
PIF Attributes Actions Physical interface (PIF) objects are the ports on these resources through which LAN connections are made: ● Ethernet ServerNet addressable controllers (E4SA SACs) ● Fast Ethernet ServerNet addressable controller (FESA SACs) ● Gigabit Ethernet ServerNet addressable controllers (GESA SACs) ● Common Controller ServerNet addressable controllers (CCSA SACs) ● Token Ring ServerNet addressable controllers (TRSA SACs) Location in OSM Tree: System > Group > Module > CRU > SAC > PIF E
Valid only for the TRSA CRU. Ring State The current state of the Token Ring. Values: Opened, Opening, Open Failure, Closed, Closing, Ring Failure Valid only for the TRSA CRU. Ring Open Status Status (success or reason for failure) of the most recent attempt to enter the Token Ring. Values: Last Open Successful, No Open Attempted, Bad Parameter, Lobe Failed, Signal Loss, Insertion Timeout, Ring Failure, Beaconing, Duplicate MAC, Request Failed, Remove Received Valid only for E4SA PIFs.
Location in OSM Tree: System > Group > Module > PMCU Slot Location: PMCUs are located in slots 21 and 22 of Nonstop S-series processor or I/O enclosures (appearance side). Example: PMCU (1.1.21) Attributes PMCU Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Physical Hardware Revision Manufacturer Part Number Power State Track ID A code that identifies the generation of the component.
● A processor and memory board (PMB), which contains a processor ● A power supply (S7000 only) ● A service processor (SP) ● Three SCSI controllers ● And for PMFs in Group 1 only, an MIOE (Ethernet controller) to provide connectivity between the service processor and the dedicated service LAN (for OSM). Location in OSM Tree: System > Group > Module > PMF Slot Location: PMF CRUs are located in slots 50 and 55 of a processor enclosure (service side). Example: PMF (1.1.
MOSFET Voltage Rail Minimum Voltage SCSI-X Voltage Rail Maximum Voltage DCC Voltage Other Rail Voltage The voltage measured between the MOSFET switch and the diode to the DCC. The MOSFET switch is located on the Other Rail between the alternate power supply and the DCC. The minimum voltage (39.6 volts) that must be available to power CRU. The voltage of the SCSI-X path, the primary path used for disks on a system. The maximum voltage limit (60 volts) for the CRU.
Upon successful completion of the Prepare to Power Off action, you can use the Power Off action to turn off power to the PMF2 CRU and all components. The Power Off action first performs precautionary checks to ensure that you can safely power off the CRU. These checks ensure: ● The other PMF2 CRU in this enclosure exists and is powered on. ● The status of the power supply on the other PMF2 CRU in this enclosure is OK. ● The other PMF2 CRU in this enclosure has ServerNet accessibility.
Storage ASIC Initialization Test Prompts the storage subsystem manager process ($ZZSTO) to initialize the storage ASIC in the CRU. If initialization fails, an alarm is generated. This action is triggered automatically when a new CRU is inserted while OSM is running or when an (SCF) STATUS ADAPTER command is issued. If a CRU is inserted while OSM is not running, perform this action after logging on to the OSM Service Connection. Test Verify Performs basic tests on the CRU.
A unique serial number that identifies the component. Track IDs are used for tracking components. Manufacturer Identifies the manufacturer of the component. A code that identifies the generation of the component. Hardware revision Hardware Revision codes are used for tracking components. Track ID Logical Fan Voltage The current voltage of the Fan CRU.
Disables the specified ServerNet port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Enable ServerNet Port Enables the specified ServerNet port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Force Power Off This action is not supported for this CRU type. See the Prepare to Power Off action. Power Off This action is not supported for this CRU type. See the Prepare to Power Off action.
Prompts the storage subsystem manager process ($ZZSTO) to initialize the storage ASIC in the CRU. If initialization fails, an alarm is generated. This action is triggered automatically when a new CRU is inserted while OSM is running or when an SCF STATUS ADAPTER command is issued. If a CRU is inserted while OSM is not running, perform this action after logging on to the OSM Service Connection. Test Verify Performs some basic tests on the CRU. You can perform this action when the CRU is online.
Attributes Power Supply Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Manufacturer Identifies the manufacturer of the component. The state of the power supply CRU as known to the operating system on the server. Power State Values Note: Not displayed for an IOMF or NonStop S7000 PMF CRU. Logical Enabled State The initial state of the power supply component at the time of discovery.
● If these tasks complete successfully, a dialog box informs you that the power supply is ready to be replaced. 3. After replacing the power supply CRU, click Continue to complete the action. OSM verifies the status of the new power supply. If it is functional, OSM enables the battery that was disabled earlier in the procedure.
order another power supply (or have the backplane connector repaired or replaced) before continuing with this procedure. Refer to Avoiding Connector and Backplane Damage During CRU/FRU Replacement in the Support and Service > Service Procedures collection of NTL. Removing the Power Supply 1. Remove the front panel from the power shelf. 2. Locate the power supply you are removing (power supplies are in slots 31 and 32). At this point, the LED above the power supply you are removing might or might not be lit.
4. With one hand, grasp the handle of the power supply and slide the power supply partway out of the slot. 5. Using your other hand to support the weight of the power supply, slide the power supply all the way out of the slot. Installing the Replacement Power Supply 1. Lower the ejector on the replacement power supply to its fully open position.
2. With one hand, grasp the handle of the power supply. Use your other hand to support the weight of the power supply. Then slowly push the power supply all the way into the empty slot. 3. Raise the ejector on the replacement power supply to its fully closed position. This action connects the power supply to the power interface board (PIB) and the AC power cord directly behind it. The green power-on LED above the replacement power supply should now be lit.
Power Supply (FCDM) Attributes Actions Subcomponent of a FCDM. There are two power supplies in each FCDM. Location in OSM Tree: System > Group > FCDM Collection > FCDM > Power Supply Example: Power Supply (111.211.1.95) Attributes Power Supply Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Physical Indicates whether or not the power supplys (amber) fault LED is blinking.
Replace Displays the procedure for replacing the power supply. Power Supply (IOAM) Attributes Actions Supplies power to the IOAM. There are two IOAM power supply units in each IOAM. For information on how to replace an individual Power Supply, see the Support and Service > Service Procedures collection in NTL. Note: If a ServerNet switch board is not present, the IOAM power supplies will not appear in OSM.
Actions None. Processor Attributes Actions A processor or central processing unit (CPU). In Nonstop S-series servers, a Processor is a component of the processor multifunction (PMF) customer-replaceable unit (CRU). Each processor enclosure in a NonStop S-series server contains two PMF CRUs and therefore two processors. Location in OSM Tree: System > Group > Module > PMF2 > Processor Slot Location: Processors are located on the PMF CRUs in slots 50 and 55 on the service side of processor enclosures.
Lites Register An octal value that represents the contents of a Processor register known as the Lites Register. The NonStop server type. Values Processor Type Example: NSR-V Amount of secondary cache, in megabytes. Secondary Processor Cache Size Value: 2 or 4 Whether the processors and service processors have been initialized after the most recent power-on. Initialized True: Processors and service processors have been initialized. False: Processors and service processors have not been initialized.
Whether the processor has been frozen by a hardware error: Hardware Freeze Flag True: A hardware error in this processor caused it to freeze. (Disregard the Halt Code and Lites Register values.) False: This processor has not experienced a freeze caused by a hardware error. Unknown: Hardware freeze state could not be read. Online Boot Millicode Firmware Online Boot Millicode Firmware Update is not supported for processors in S7000 PMF CRUs or on systems running G06.11 or earlier.
Online Boot Millicode Firmware Update Updates the Boot Millicode firmware running on the processor. Online Boot Millicode Firmware Update is not supported for processors in S7000 PMF CRUs or on systems running G06.11 or older. The related attributes and action are not displayed for processors on which this action is not supported. Optional Parameter: File Name Reload Loads the operating system into the processor from a specific disk location.
Attributes SAC Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical The Physical attributes are displayed only when the SAC is a subcomponent of a CCSA. The ID assigned by the device manufacturer. Device ID Example: 0x860 The Part Number of the component that was assigned in manufacturing. Use part Part Number numbers for identifying and ordering parts. SAC Type Identifies the type of SAC. The manufacturer of the device.
Download File Version The version of the operational firmware running on the SAC. Firmware Version Default File Name The version of the boot firmware for the SAC. The name of the file to be used for a (boot) Firmware Update. Default File Version The version of the firmware to be used for a (boot) Firmware Update. The differences, if any, between the current and default boot firmware Compare State versions. Values Actions Abort Terminates operation of the ServerNet Adapter ServerNet addressable controller.
SCSI Controller Attributes Actions A controller that manages devices using the Small Computer System Interface (SCSI) protocol. This SCSI controller is a component of Processor Multifunction (PMF) CRUs and I/O Multifunction (IOMF) CRUs. Location in OSM Tree: System > Group > Module > PMF2 > SCSI Controller Slot Location: SCSI controllers are located on PMF CRUs in slots 50 and 55 of processor enclosures and on IOMF CRUs in slots 50 and 55 of I/O enclosures. Example: SCSI Controller (1.1.55.
SEB Attributes Actions The ServerNet expansion boards (SEBs) and cables allow processors in one enclosure to communicate with processors in another enclosure. Each SEB CRU provides either the ServerNet X fabric or the ServerNet Y fabric for a group. Location in OSM Tree: System > Group > Module > SEB Slot Location: SEBs must be located in slots 51 and 52 of processor enclosures (service side). Example: SEB (1.1.
Parameter: Port Number Enable ServerNet Port Enables the specified ServerNet port on this CRU. Perform this action only as directed by OSM alarm repair actions. Parameter: Port Number Replace Launches the Replace SEB guided procedure, which provides step-by-step instructions for replacing the SEB CRU. ServerNet Switch Board Attributes Actions A component of the IOAM, the ServerNet Switch Board provides ServerNet connectivity between processors, ServerNet adapters, and attached hardware devices.
Track ID A unique serial number that identifies the component. Track IDs are used for tracking components. Logical Time of Last Reset The date and time of the last soft reset of the ServerNet Switch Board. This attribute is displayed only within the Multi-Resource Actions dialog box, Fabric Side to indicate whether the ServerNet Switch Board is on the X or Y fabric. ME FPGA The VPROC of the ME FPGA (Field Programmable Gate Array) image currently loaded on the switch logic board.
Creates a snapshot of the ServerNet Switch Board's logic board memory. Perform Dump Memory to dump this snapshot to a file in $SYSTEM.ZSERVICE. Hard Reset Resets the ServerNet Switch Board hardware and the routing tables. ME FPGA Update Allows you to update the FPGA code file for the Maintenance Entity (ME) of the ServerNet Switch Board. ME Firmware Update Allows you to update the firmware file for the Maintenance Entity (ME) of the ServerNet Switch Board.
Attributes SP Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Logical Time of Last Reset Stored Topology Master SP The date and time that the service processor was last reset. The maximum processor configuration for the service processor that is set the next time the system or enclosure is powered on.
SCSI Boot Code Firmware These attributes are displayed only for SPs located in PMF or PMF2 CRUs; not for those in IOMF or IOMF2 CRUs. The version of the firmware running on the SCSI controller on the PMF CRU that contains the service processor. Default File Name The name of the file to be used for the SCSI Boot Code firmware update. The version of the firmware to be used for the SCSI Boot Code firmware Default File Version update. The differences, if any, between the current and default firmware versions.
session windows stop responding, and you must switch to the other paired SP by specifying the appropriate IP addresses. When you reset a master service processor (MSP), any LAN client connections to that MSP are terminated and must be reconnected by the client. Responsive Test Verifies that the component is connected and responding. SCSI Boot Code Firmware Update Updates the SCSI Boot Code firmware for a single service processor (SP). Available only for SPs on PMF and PMF2 CRUs.
Attributes SNDA Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Hardware Revision Manufacturer Part Number Power State Track ID A code that identifies the generation of the component. Hardware revision codes are used for tracking components. Identifies the manufacturer of the component. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts.
SSAC (SCSI SAC) Attributes Actions The SCSI SAC (ServerNet addressable controller) is a SCSI plug-in card mounted on these devices: ● Processor multifunction 2 (PMF2) CRU (external SCSI controller, SAC 3) ● I/O multifunction (IOMF2) 2 CRU (external SCSI controller, SAC 3) ● ServerNet/DA CRU (There can be up to four SCSI SACs on each ServerNet/DA CRU.) SCSI SACs are used for connecting external SCSI devices such as tape drives.
Actions Responsive Test Verifies that the component is connected and responding. Storage Router Attributes Actions This object represents one of these resources: SCSI Extender.
Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Logical The type of router. Router Type Logical Device Number Values: SCSI Extender or SCSI-to-Fiber Converter The number assigned to the router by the file system. Whether the resource is communicating to the host system.
An identification number assigned to the device when configured. SCSI ID 8: SCSI-to-Fiber extender / SCSI to Fiber Converter 9: Fiber-to-SCSI extender The number that identifies the SCSI controller that manages the storage router. SCSI Controller If this attribute is missing, it is because the SCSI Controller has been removed from the system. Example: SSAC (1.1.50.3) Actions Responsive Test Verifies that the resource is configured and responding.
Slot Location: WAN CRUs are external to the enclosures. Example: SWAN2 $ZZWAN.#SWAN2 Attributes SWAN $ZZWAN Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Physical The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. A unique serial number that identifies the component. Track IDs are used for Track ID tracking components.
Alternate Subnet Mask The name of the subnet mask configured for the Alternate host IP address for the SWAN concentrator. Example: 255.255.255.0 The name of the subnet on the primary TCP/IP process that supports the SWAN concentrator. Primary Subnet Name Format: TCPIP process name.subnet name Example: $ZTCP1.#SN1 The name of the subnet on the alternate TCP/IP process that supports the SWAN concentrator. Alternate Subnet Name Format: TCPIP process name.subnet name Example: $ZTCP3.
SWAN Battery Attributes Actions A subcomponent of the SWAN 2 CRU that provides backup power for 30 seconds in the event of a power outage. Location in OSM Tree: System > SWAN Collection > Battery Example: Battery $ZZWAN.#SWAN2.BAT Attributes Battery $ZZWAN Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Logical The charge status of the SWAN 2 battery.
Example: CLIP $ZZWAN.# SWAN2.2 Attributes CLIP $ZZWAN Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Logical Device State The state of the component as known to the operating system on the server. Values Physical The Physical attributes are displayed for SWAN 2 CLIPs only. The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts.
Start Starts the SWAN CLIP. When the Start action completes, the SWAN CLIP is in the Started state. In a multisystem configuration, this action also causes the current system to take control of the CLIP. If the CLIP is currently controlled by another system, that system loses control of the CLIP. Stop Terminates operation of the SWAN CLIP. When the Stop action completes, the SWAN CLIP is in the Stopped state.
Location in OSM Tree: Under System Example: SWAN Collection Attributes None. Actions None. SWAN FAN Attributes Actions Each SWAN 2 CRU has two customer-replaceable fan subcomponents. Location in OSM Tree: System > SWAN Collection > SWAN > Fan Example: Fan $ZZWAN.#SWAN2.FAN1 Attributes Fan $ZZWAN Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK.
Example: LAN LB $ZZWAN.#SWAN2.LAN1 Attributes LAN LB $ZZWAN Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Physical The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. A unique serial number that identifies the component. Track IDs are used for Track ID tracking components. A code that identifies the generation of the component.
Example: Line $ZZWAN.#SWAN2.1.0 Attributes Line $ZZWAN Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Logical The name of the WAN device associated with the line. Device Name Example: $TP6S1 If no device is configured, "FREE" is shown. The name of the data link control (DLC) task associated with the line. DLC Task Name Format: adapter name.clip number.DLC line number Example: $ZZWAN.#D08XE5.1.
Actions A subcomponent of SWAN CLIPs and SWAN 2 CLIPs. Every CLIP has two paths, path A and path B. These paths represent the two Ethernet interfaces on the SWAN concentrator. Location in OSM Tree: System > SWAN Collection > SWAN > CLIP > Path Example: PATH $ZZWAN.#SWAN2.1.B Attributes PATH $ZZWAN Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Logical MAC Address The media access control (MAC) address of the SWAN Path.
Example: Power Supply $ZZWAN.#SWAN2.PS2 Attributes Power Supply Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Physical The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. A unique serial number that identifies the component. Track IDs are used for Track ID tracking components. A code that identifies the generation of the component.
Service State Displayed in the Attributes tab and Attributes dialog box only if the value is something other than OK. Values Logical Current Topology The maximum processor configuration for the service processor. Values The maximum processor configuration for the service processor that will be set the next time the system or enclosure is powered on. Values A unique identification number assigned to a server when it is manufactured.
Diagnostic Data Collection Volume Indicates the volume in which automatic or manual data collection will take place. This volume is assigned by using the Set Data Collection Volume action. Days to Persist Collected Diagnostic Data Indicates the number of days that collected hardware failure data (collected either automatically or by the Collect Diagnostic Dataaction) is retained on the system before being deleted.
● Diagnostic events are collected for a period of 12 hours (configurable through OSMCONF file) before and three hours after the specified date and time. ● Diagnostic Data files, such as ZZAAxxxx, ZZSNxxxx, and ZZPSxxxx, are collected for a period of three hours starting from the specified date and time. The volume in which this diagnostic data is collected is specified by the Set Data Collection Volume action.
The Diagnostic Data Collection Volume attribute displays the currently specified volume. How long the files are retained in this volume before being automatically deleted is determined by the Set Days to Persist for Diagnostic Data action. This value is displayed by theDays to Persist Collected Diagnostic Data attribute. Set Days to Persist for Diagnostic Data Determines how many days the collected hardware failure data is retained on the system before being deleted.
Actions None. Tape Attributes Actions Specifies a tape drive configured for a system. Location in OSM Tree: System > Tape Collection > Tape Drive Slot Location: Most tape drives can be connected physically through a cable connected to the MFC SCSI port on the IOMF CRU or a SCSI SAC (available on a ServerNet/DA CRU, a PMF2 CRU, or an IOMF2 CRU). The CT9840/CT9840FC/CT9841FC cartridge tape drives must be connected to a SCSI SAC on either a ServerNet/DA CRU, a PMF2 CRU, or an IOMF2 CRU.
The part number of the component that was assigned in manufacturing. Use part numbers for identifying and ordering parts. This is not the spare part number. Serial Number The serial number of the tape drive (where applicable). Part Number Process Pair The two processors in which this I/O process is configured to run. Configured Processors Example: 0,1 The state of the primary I/O process. Primary Execution State Values: Running, Stopped The process ID of the primary I/O process.
Puts the tape process in a state to disallow regular I/O commands to the tape drive. When the Stop action completes, the tape drive is in the Stopped state. Note that Stop is a logical command and does not affect the hardware. Switch Process Pair Switches processors of the primary and backup tape I/O processes. Test Extended Tests vary depending on the type of tape drive. This table lists the actions performed for each supported tape device (listed by Product ID).
TRSA (Token Ring ServerNet Adapter) Attributes Actions A customer-replaceable unit (CRU) that connects the ServerNet connections inside a server to a Token Ring LAN. The TRSA CRU contains one Token Ring ServerNet addressable controller (TRSA SAC). Location in OSM Tree: System > Group > Module > TRSA Slot Location: TRSA CRUs can be located in slots 53 and 54 in processor enclosures (service side) or in slots 51, 52, 53, and 54 in I/O enclosures (service side). Example: TRSA $ZZLAN.TRSA0 (1.1.
Actions Abort Terminates operation of the TRSA CRU and the associated Token Ring SAC. When the Abort action completes, the TRSA CRU and the Token Ring SAC are in the Stopped state. Start Starts the TRSA CRU and the associated Token Ring SAC. The TRSA CRU must be in the Stopped state before you perform this action. During startup, the controller operational code is automatically loaded into the TRSA SAC. When the Start action completes, both the TRSA CRU and the Token Ring SAC are in the Started state.
UPS Attributes Actions Uninterruptible power supply (UPS) unit that provides backup power for IOAM enclosures. Location in OSM Tree: System > Monitored Service LAN Devices > UPS Example: UPS SDUPS Attributes UPS Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Indicates the current status of the UPS battery. Possible values are Normal and On Battery.
Actions Link to Web Interface Launches a browser-based configuration interface for the UPS, which provides additional information and configuration options for the UPS. Rediscover Causes OSM to refresh and reanalyze the object. Refresh refers to OSM updating the attribute values displayed in the OSM Service Connection interface. Reanalyze refers to the running of OSM incident analysis, which checks EMS event messages and creates alarms in OSM if certain conditions exist.
CLIM Attributes Actions A CLIM (Cluster Internet Machine) device that connects to a system through a ServerNet PIC installed in a PMF2 CRU. A CLIM is housed in a standard rack. A CLIM appears in the OSM Service Connection when it is configured on the system, irrespective of the actual physical presence of the CLIM. CLIMs are displayed in the tree pane and in the Inventory view of the Management window. In the tree pane, expand the CLIM Collection to see the individual CLIMs.
The state of the CLIM as a result of the operator command issued via OSM or SCF. Possible values include: Device State ● Present: The CLIM is connected to at least one ServerNet fabric. ● Absent: The CLIM is not connected to either ServerNet fabric. ● Not a CLIM: A device other than a CLIM is connected to the configured ports. ● Two different CLIMs on X and Y Fabrics: Two different CLIM devices are connected to the ServerNet X and Y fabric ports.
The connectivity status of the CLIM to the ServerNet Y fabric. Possible values include: ● Connected: The CLIM is connected to the ServerNet Y fabric. ● Cross-connected: The configured ServerNet Y fabric port on the system is connected to the X fabric port on the CLIM. ● Not Connected: The CLIM is not connected to the ServerNet Y fabric. ● Not a CLIM: A device other than a CLIM is connected to the ServerNet Y fabric.
Common Attribute Values Battery Charge Status Compare State Device State Enabled State Group Type Path State Power State Processor State Processor Type Service State Tape Types Topology Battery Charge Status Value Absent Charged Charging Meaning The battery is not installed. The battery is fully charged The battery is in the process of being charged. The battery cannot supply power and cannot be charged, possibly because the Disable Disabled Battery action has been performed.
Device State Value Aborting AC Power Loss Defined Degraded Diagnose Initializing Not Available Not Configured Not Installed OK On Started Starting Stopped Stopping Unknown Meaning Processing is terminating. The device is currently not powered by either AC or UPS. State is defined by the NonStop OS. Performance is degraded. A diagnostic test is running on the component. Processing is starting up. State is not available to OSM. The component is not configured. The component is not installed.
03 04 04 06 07 08 31, 32, 33 41, 42, 43 51, 52, 53 61, 62, 63 71, 72, 73 81, 82, 83 Path State Value Configure Meaning The component is not configured. The disk path is not logically accessible. In SCF, the equivalent state is Down STOPPED, substate DOWN. Exclusive Diagnostics The processor is performing diagnostics. Exclusive ownership has been declared for this disk volume, and the disk is Exclusive not accessible to other users. Format Disk format in progress.
Processor State Value Dump in Progress Executing Diagnostics Frozen Frozen by Other Processor Halted Hardware Error Freeze Hung Offline Diagnostics Running Primed For Dump Primed For Reload Primed For ServerNet Dump Primed for ServerNet Load Processor Hung Reload In Progress Running NSK ServerNet Dump in Progress ServerNet Load In Progress Undefined Unknown Processor Type Type NSR-W NSR-D NSR-E NSR-J NSR-S NSR-G NSR-T NSR-V NSR-X System S7000 S7400 S7600 S7800 S7800B S70000 S72000 S74000 S76000 Meaning M
NSR-H S78000 NSR-Y S86000 NSR-Z S88000 NSE-A NSE-B NSE-D NSE-I Service State Value Meaning The object is functioning properly. This value appears only in the Problem OK Summary dialog box. The resource requires operator attention. This condition sometimes generates an alarm, and the component that requires attention is colored Attention Required yellow in the tree pane and in the Physical and ServerNet views of the view pane. The resource requires service.
M8505 N1521A N1522A N1524A N1525A N1526A N1527A T5142 T5142ACL T515 (7-9) T517x T519x T5242 T5242ACL T5242-2SE T5243 T5243ACL T5243-2SE T5257 T5257ACL T5259 T5258ACL T9490 VT5801 VT5802 VT5900-A VT5900-B VT5900-C VT5901 VT5902 HP Ultrium 960 LTO Fibre Channel Tape Drive - table top LTO in tape library LTO in mid-range tape library LTO with ACL installed in tape enclosure LTO with ACL - table top model HP Ultrium 460 LTO Fibre Channel Tape Drive - rack mount HP Ultrium 460 LTO Fibre Channel Tape Drive - tab
Prev Chapter 10. Managing a System 527274-018 Up Home Next Chapter 12.
Chapter 12. Managing a ServerNet Cluster Prev Next Chapter 12.
Locating and Viewing Cluster Resources To locate resources in a ServerNet cluster, expand the ServerNet Cluster resource in the tree pane to see the resources and connections in the cluster. To view more information about a particular resource: 1. In the tree pane, select the resource. 2. In the details pane: ● Click the Attributes tab to see attributes for the resource. ● Click the Alarms tab to see if there are alarms for the resource.
Navigate to the ServerNet Cluster resource and check the value of the ServerNet Cluster State attribute. ● Monitoring the Expand-over-ServerNet lines. Navigate to a Remote ServerNet Node resource and check the value of the Line LDEV State attribute. This value indicates the state of the line between the local node and the selected remote node. Repeat this action for all remote nodes in the cluster.
Specifying a Cluster Switch Locator String The Set Locator action allows you to specify a text string to indicate the physical location of a cluster switch. This information, which appears in the Locator attribute for the cluster switch, assists in locating the switch when maintenance is required. The maximum length for the text string (including spaces) is: ● 64 characters for the 6780 switch ● 32 characters for the 6770 switch To specify the switch location: 1.
To update ServerNet II switch firmware: 1. In the tree pane of the OSM management window, expand the ServerNet Cluster resource and navigate to the switch component of the switch module. 2. Right-click the Switch component and select Attributes. In the Firmware section, check the value of the Compare State attribute. If it is Down-rev, continue with this procedure. 3. Right-click the Switch component and select Actions. The Actions dialog box appears. 4.
Managing One of the Star Topologies With OSM Differences Between OSM and TSM OSM supports all topologies of a ServerNet cluster: the star topologies (star, split-star, and tri-star) and the newer layered topology. Differences Between OSM and TSM If you use OSM to manage a cluster with one of the star topologies, see the next paragraphs for differences between OSM and TSM.
Procedure has been streamlined and renamed. It is now launched Configure ServerNet Node by the Add Node to ServerNet Cluster action of the System resource. For more information, see Guided Procedures. For more information about using software such as SCF to manage one of the star topologies, see the ServerNet Cluster 6770 Supplement.
13 2 3 4 1 2 3 4 1 4 3 1 2 3 4 8 8 8 9 9 9 9 Router Connections for Router Interconnect PICs External Slot Internal Router Slot 4 1 2 3 3 Slot 5 1 2 3 4 Prev Chapter 11. System Resources 527274-018 Port 4 5 4 5 6 4 5 4 Up Home Next Chapter 13.
Chapter 13. Cluster Resources Prev Next Chapter 13.
Switch Fan Attributes Actions Switch Group Attributes Actions Switch Logic Board Attributes Actions Switch PIC Attributes Actions Switch Power Supply Attributes Actions Switch-to-Node PIC Attributes Actions Switch Node Port Attributes Actions Switch-to-Switch PIC Attributes Actions Switch Port Attributes Actions UPS (6770 Switch Module) Attributes Actions Common Attribute Values Service State Fabric State
Configuration Tag Port Connectivity Status A ServerNet cluster is built using one of several topologies. The hardware resources in a cluster differ depending on the topology of the ServerNet cluster. ServerNet clusters using one of the star topologies are built with the HP NonStop Cluster Switch (model 6770) and can support up to 24 nodes. ServerNet clusters using the layered topology are built around the HP NonStop ServerNet Switch (model 6780) and can support up to 64 nodes.
Example: SwitchModule $ZZSMN.Y1 Attributes Switch Module Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Logical Whether the switch is installed and responding. Presence Locator Values: Present, Absent, and Unknown User-assigned text that can be used to help identify the switch. The text is assigned by using the Set Locator action.
A hardware component that provides connectivity for multiple nodes of a second-generation ServerNet cluster using the layered topology. As part of the layered topology, the 6780 switch module comprises one cluster switch layer within a cluster switch group. The 6780 switch connects to the nodes through fiber-optic cables that connect to modular ServerNet expansion boards (MSEBs) on each node.
Locator Numeric Selector Setting Used by Firmware User-assigned text, that can be used to help identify the module. The text is assigned by using the Set Locator action. Example: Switch Group On Right in 1206 The 4-digit numeric selector setting that is currently used by the firmware. Example: 9621 Temperature The current temperature, in degrees Celsius (°C), inside the enclosure of the module. The maximum acceptable air intake temperature is 65 degrees Normal Maximum Value Celsius.
Tests the connectivity of the switch module from the local node. Set Locator Allows you to enter text to aid in locating or identifying the switch. This text is displayed as the Locator attribute. These ASCII characters cannot be used in the Set Locator field: =, +, &, or %. Also, copy and paste features do not work in this field. For more information, see Specifying a Cluster Switch Locator String. Parameter: Locator Free-form text up to 64 characters long.
Actions Replace Launches the Replace Switch Component guided procedure, which provides help for replacing the component. External ServerNet Fabric Attributes Actions This object represents a collection of switches and ServerNet links that connect the local node to other nodes in a ServerNet cluster. Location in OSM tree:The External ServerNet Fabrics (X and Y) are under the ServerNet Cluster.
Actions Node Connectivity ServerNet Path Test Checks the local node's connection to the ServerNet cluster by testing the external fabric (X or Y) between the MSEB on the local node and the cluster switch on the fabric. Remote 6770 Switch Attributes Actions The nodes connected directly to one switch see the other switches as remote switches. Although local and remote switches are the same from a hardware standpoint, less information and no actions are available for the remote switch.
Fabric Setting Whether the switch is configured for operation on the X fabric or the Y fabric. Values: X, Y, or Clear Verification that the switch is installed and responding. Presence Values: Present, Absent, Unknown The version of the configuration file currently loaded on the switch. Configuration Version Example: 1_5 The version of the firmware currently loaded on the switch. Firmware Version Example: 3_0_23 Actions None.
Current Number of Nodes The number of ServerNet nodes that are currently members of this cluster. ServerNet Cluster Service The current state of the ServerNet Cluster subsystem on the local node. ServerNet Cluster State Values: Starting, Started, Stopping, Stopped, and Unknown SCF Equivalent: SCF STATUS SUBSYS $ZZSCL SANMAN Process Pair The state of the primary SANMAN process. Primary Execution State Primary Process ID Values: Running, Stopped The process ID of the primary SANMAN process.
Actions Rediscover Causes OSM to refresh and reanalyze the object and all subcomponents. Refresh refers to OSM updating the attribute values displayed in the OSM Service Connection interface. Reanalyze refers to the running of OSM incident analysis, which checks EMS event messages and creates alarms in OSM if certain conditions exist. Reset ServerNet Statistics Resets the ServerNet statistical counters to zero for all processors in the system.
on. Location in OSM tree: Under the ServerNet Cluster Example: ServerNet Local Node \STARZ Attributes ServerNet Local Node Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Logical The state of the connection from the local node to the remote node over the external ServerNet Y fabric.
Actions Generate ServerNet Statistics Generates an event containing the ServerNet statistics from the remote node to the local node. ServerNet Remote Node Attributes Actions This object represents any system within a ServerNet cluster that is not the local node. Remote nodes are visible when the ServerNet Cluster view is selected.
The state of the connection from the local node to the remote node over the external ServerNet X fabric. Up: At least one of the processors on the local node can communicate with at least one processor on the remote node over X Fabric Connection State the X fabric. Down:No processor on the local node can communicate with any processor on the remote node over the X fabric. Unknown: The state of the connection cannot be determined.
The component of the 6770 switch module that provides routing for the cluster over an external ServerNet fabric. The ServerNet II switch connects to the nodes through fiber-optic cables that connect to plug-in cards (PICs) located on modular ServerNet expansion boards (MSEBs) on each node. Location in OSM tree: External ServerNet Fabric > Switch Group > Switch Module > Switch Example: Switch $ZZSMN.
Configuration Tag Version A parameter used by SCF and the guided procedures that allows SANMAN to select an appropriate switch configuration block (SCB) from the M6770CL switch configuration library. The selected SCB is subsequently loaded on the specified switch. The configuration tag determines the position of the cluster switch in the topology and the ServerNet node numbers supported by the cluster switch.
Optional Parameter: File name of the configuration file. Firmware Update Updates the firmware on the ServerNet II switch component of the 6770 switch module. For more information, see Updating Cluster Switches. Optional Parameter: File name of the firmware file. Hard Reset Is necessary following a Configuration Update action in order for the changes to take effect. Caution: This action disrupts the ServerNet traffic through this switch.
A component that circulates air into the enclosure to help maintain optimal temperature. Location in OSM tree: External ServerNet Fabric > Switch Group > Switch Module > Switch Fan Example: Fan (1020.1.16) Attributes Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical The state of the fault LED on the fan. LED State Values: On, Off, Blinking Whether the fan is installed and responding.
Switch Group Attributes Actions A collection of up to four 6780 switches connected together, typically mounted in a rack, that reside on one fabric of a cluster switch zone. The switch group is identified by a four-digit number. The first two digits (10) distinguish a switch group from a group within a NonStop S-series server.
Example: Switch Logic Board (1020.1.14) Attributes Switch Logic Board Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Physical Hardware Revision The hardware revision of the switch logic board. The state of the fault LED on the switch logic board. LED State Values: On, Off, Blinking Part Number The part number of the switch logic board. Track ID The track ID of the switch logic board. Logical The reason for last reset operation.
Compare State The differences, if any, between the current and default firmware versions. Values Configuration Configuration Tag A parameter used by SCF and the guided procedures that allows SANMAN to select an appropriate switch configuration block (SCB) from the switch configuration library. The selected SCB is subsequently loaded on the specified switch. The configuration tag determines the position of the cluster switch in the topology and the ServerNet node numbers supported by the cluster switch.
Planning and Installation Guide. Optional Parameter: File Name the name of the configuration file on the local node Syntax: $volume.subvolume Default value: $SYSTEM.SYSnn Dump Copies a memory image from a 6780 switch to a specified file on the local system. Firmware Update Loads a firmware file from the local node to the switch logic board. For details, see the ServerNet Cluster 6780 Planning and Installation Guide.
Switch PIC Attributes Actions A card in the 6780 switch that plugs into the switch logic board. Most switch PICs (except for maintenance PICs and router interconnect PICs) are populated with transceivers that enable connections to the different nodes, layers, and zones of the cluster. Location in OSM tree: External ServerNet Fabric > Switch Group > Switch Module > Switch PIC Example: Switch PIC $ZZSMN.Y11.13 (1011.1.13) See also Router Connections for Router Interconnect PICs.
The initial state of the component at the time of discovery. Enabled State Enabled: The component is operational. Disabled: The component is present but not operational. Indication of whether the switch has a fault. Device State Values: OK, Fault Actions Blink LED Off Turns off the blinking of the LEDs. Blink LED On Causes the LEDs to blink on and off. Replace Invokes the Replace Switch Component guided procedure that helps to replace the switch PIC.
Whether the Power Supply is installed and responding. Presence Values: Present, Absent, Unknown The state of the fault LED on the power supply. LED State Values: On, Off, Blinking Track ID The track ID of the power supply. Manufacturer Identifies the manufacturer of the component. Hardware Revision The hardware revision of the power supply. Logical The initial state of the component at the time of discovery. Enabled State Enabled: The component is operational.
Attributes Switch PIC Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Logical The state of connectivity between the switch and the node to which this PIC connects. Values: Connected Not Connected Connectivity Status Connected to Switch With Wrong Fabric Connected to Node Connected to Wrong Port Connected to Different Switch Connected to Switch With Wrong Configuration Unknown Whether the PIC is installed and responding.
Switch Node Port Attributes Actions On the 6780 switch, an external transceiver port that connects to a ServerNet node.These ports reside only on switch PICs in slots 6 through 9. Location in OSM tree: External ServerNet Fabric > Switch Group > Switch Module > Switch PIC > Switch Port Example: Switch Port (1010.1.6.1) See also Router Connections for Switch Node Ports.
The status of the port.
Node Number The ServerNet node number of the neighbor node. Node Name The name of the neighbor node. Actions Node Responsive Test Tests the connectivity on the external ServerNet fabric from the local node to the remote node connected via this port. Switch-to-Switch PIC Attributes Actions A plug-in card (PIC) on the 6770 switch module that connects to another switch on the same fabric. The last part of the name contains the port number where the PIC is located.
The state of connectivity between the switch and the node to which this PIC connects. Values: Connected Not Connected Connectivity Status Connected to Switch With Wrong Fabric Connected to Node Connected to Wrong Port Connected to Different Switch Connected to Switch With Wrong Configuration Unknown Whether the PIC is installed and responding. Presence Values: Present, Absent, Unknown Neighbor Switch PIC The neighbor switch and PIC to which this PIC is connected. PIC Name Example: Switch PIC $ZZSMN.X.1.
Attributes Switch Port Displayed in the Attributes tab and Attributes dialog box only if the value is Service State something other than OK. Values Transceiver Physical The type of transceiver. Type Example: 50/125 - 62.5/125 Micron MMF Part Number The vendor part number of the transceiver. Serial Number The vendor serial number of the transceiver. Manufacturer Identifies the manufacturer of the component. Hardware Revision The vendor hardware revision of the transceiver. Logical The status of the port.
Current Speed The speed of the port in bits per second. The initial state of the component at the time of discovery. Transceiver Device State Values: OK, Fault Whether the transceiver is enabled. Transceiver Enabled State Enabled: The component is operational. Disabled: The component is present but not operational. Neighbor Switch Port The name of the port to which this port is connected. Format: Port (Group.Module.Slot.Port) where: Switch Port Group can be 1010, 1020, 1030, 1011, 1021 or 1031.
Physical Manufacturer Identifies the manufacturer of the component. Part Number The part number of the UPS. The VA rating (volts multiplied by amps) and the firmware version of the UPS. Type Example: UPS 1440 VA FW -0039 Logical Estimated Charge Remaining The percentage of charge remaining in the UPS batteries.
The resource requires operator attention. This condition sometimes generates an alarm, and the component that requires attention is colored Attention Required yellow in the tree pane and in the Physical and ServerNet views of the view pane. The resource requires service. This condition generates an alarm, and the Service Required component that requires service is colored red in the tree pane and in the Physical and ServerNet views of the view pane.
Link alive, port disabled, neighbor check complete Link alive, port disabled, neighbor check failed (Not connected) Link alive, port disabled, neighbor check failed (Connected to switch) Link alive, port disabled, neighbor check failed (Connected to node) Link alive, port disabled, neighbor check failed (Connected to switch with invalid configuration version identifier) Link alive, port disabled, neighbor check failed (Connected to switch with incompatible configuration Link alive, port disabled, neighbor c
Chapter 14. Updating ServerNet Cluster Topology Prev Next Chapter 14.
● Migrating to the Layered Topology describes how to migrate a cluster from one of the star topologies to the layered topology. ● Adding Zones or Layers to a Layered Topology describes how to add zones or layers to a cluster already using the layered topology.
These three methods are supported for updating to the split-star or tri-star topology: ● Merging two star topologies to create a split-star topology ● Merging a star topology with a split-star topology to create a tri-star topology ● Merging three star topologies to create a tri-star topology The major steps in updating a topology are: 1. Review the planning information in the ServerNet Cluster Manual for your type of update.
to support node numbers 17 through 24. (The remaining star topology should already use node numbers 1 through 8.) Note: Changing the configuration tag requires a hard reset of the switches, resulting in a temporary disruption of ServerNet connectivity. After the configuration tags match on respective X and Y switches, the connectivity is repaired. 8. Perform the Update Topology action on each cluster. When prompted, click the Disable Cluster Alarms button.
Software Requirements for Split-Star and Tri-Star Topologies Any node that will participate in a ServerNet cluster must have Expand (T9057) software, which is delivered on the site update tape (SUT). In addition, the Expand/ServerNet Profile (T0569) is required for clustering. If you order the optional Expand/ServerNet Profile component, it is delivered on the SUT. Additional software requirements depend on the topology you use to construct the ServerNet cluster: Software Component Split-Star Topology G06.
X1 X1 X1 Y1 Y1 Y1 Y1 9 10 11 8 9 10 11 X2 X2 X2 Y2 Y2 Y2 Y2 9 10 11 8 9 10 11 Updating to the Tri-Star Topology If you are updating to the tri-star topology, connect the cables as follows: Cluster Switch X1 X1 X1 X1 X2 X2 Y1 Y1 Y1 Y1 Y2 Y2 Port Connects to Cluster Switch 8 X2 9 X2 10 X3 11 X3 8 X3 9 X3 8 Y2 9 Y2 10 Y3 11 Y3 8 Y3 9 Y3 Port 10 11 8 9 10 11 10 11 8 9 10 11 Cable Connections in a Layered Topology Connections Between Layers Within a Switch Group X Fabric Connections Between Two Zones Y Fa
X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X11/Y11 X12/Y12 X12/Y12 X12/Y12 X12/Y12 X12/Y12 X12/Y12 X12/Y12 X12/Y12 X13/Y13 X13/Y13 X13/Y13 X13/Y13 11 11 11 11 12 12 12 12 13 13 13 13 12 12 12 12 13 13 13 13 11 11 11 11 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 X12/Y12 X12/Y12 X12/Y12 X12/Y12 X13/Y13 X13/Y13 X13/Y13 X13/Y13 X14/Y14 X14/Y14 X14/Y14 X14/Y14 X14/Y14 X14/Y14 X14/Y14 X14/Y14 X13/Y13 X13/Y13 X13/Y13 X13/Y13 X14/Y14 X14/Y14 X14/Y14 X14/Y14 11 1
X13 X13 X13 X14 X14 X14 X14 2 3 3 2 2 3 3 2 1 2 1 2 1 2 X23 X23 X23 X24 X24 X24 X24 2 3 3 2 2 3 3 1 2 1 2 1 2 1 Y Fabric Connections Between Two Zones This table lists the Y-fabric connections between two zones of a layered topology: Switch PIC Slot Port Connect to Switch PIC Slot Port Y11 2 1 Y21 2 2 Y11 2 2 Y21 2 1 Y11 3 1 Y21 3 2 Y11 3 2 Y21 3 1 Y12 2 1 Y22 2 2 Y12 2 2 Y22 2 1 Y12 3 1 Y22 3 2 Y12 3 2 Y22 3 1 Y13 2 1 Y23 2 2 Y13 2 2 Y23 2 1 Y13 3 1 Y23 3 2 Y13 3 2 Y23 3 1 Y14 2 1 Y24 2 2 Y14 2 2 Y24
X12 X12 X12 X13 X13 X13 X13 X14 X14 X14 X14 X21 X21 X22 X22 X23 X23 X24 X24 2 3 3 2 2 3 3 2 2 3 3 2 3 2 3 2 3 2 3 2 1 2 1 2 1 2 1 2 1 2 1 1 1 1 1 1 1 1 X32 X22 X32 X23 X33 X23 X33 X24 X34 X24 X34 X31 X31 X32 X32 X33 X33 X34 X34 2 3 3 2 2 3 3 2 2 3 3 2 3 2 3 2 3 2 3 1 2 1 2 1 2 1 2 1 2 1 2 2 2 2 2 2 2 2 Y Fabric Connections for Three Zones This table lists the Y-fabric connections for three zones of a layered topology: Switch PIC Slot Port Connect to Switch PIC Slot Port Y11 2 1 Y21 2 2 Y11 2 2 Y31 2 1
Y14 Y14 Y21 Y21 Y22 Y22 Y23 Y23 Y24 Y24 3 3 2 3 2 3 2 3 2 3 1 2 1 1 1 1 1 1 1 1 Prev Chapter 13.
Glossary Prev Next Glossary A|B|C|D|E|F|G|H|I|J|K|L|M|N|O|P|Q|R|S|T|U|V|W|X|Y|Z A action An operation, such as a diagnostic test, that can be performed on a selected resource. Use the Actions dialog box to display and perform actions. Examples: Load (action on a selected processor) Up (action on a selected disk) AC transfer switch A component of a NonStop" Cluster Switch (model 6770) that provides access to dual AC power sources and the ability to switch between the two sources if one fails.
appearance side The side of an HP NonStop S-series system enclosure that contains disk customer-replaceable units CRUs and power monitor and control unit (PMCU) CRUs that do not require cables. The appearance side always has a short door and panel, or a tall door, that is required for cooling the enclosure. The appearance side is opposite the service side. The appearance-side door is lockable for security purposes.
in one processor has no effect on any other processor. blower A variable speed airflow device that pulls air into an enclosure or element. It usually pulls air in from the front and exhausts the heated air out the rear. board A frame on which computer circuitry is mounted. Same as logic board. boot A synonym for load. bus A system or subsystem data path that provides serial or parallel interconnection for multiple modules or components.
Switch. The subcomponents include the ServerNet II Switch, the AC transfer switch, and the uninterruptible power supply (UPS). A cluster switch enclosure resembles, but is half the height of, a standard HP NonStop S-series system enclosure. cluster switch group Within an external ServerNet fabric, all the cluster switches that belong to the same cluster switch zone. A cluster switch group can consist of up to four 6780 switches, each representing one cluster switch layer.
The major programmable device within the ServerNet wide area network (SWAN) concentrator, providing link-level protocol and a software interface to the host. The CLIP stores and implements specific communications protocols. connection A logical link established between the OSM client software on the system console and the OSM server software on a NonStop server after a logon sequence has been performed. There are two types of connections: service connection and low-level link.
Incident reports are sent from the OSM workstations defined as the primary and backup dial-out points (the primary and backup system consoles. Note: Remote access and remote notification are not available in countries where the modem provided by HP is not certified. In these countries, you cannot use the OSM software to dial out to or accept dial-in communications from a service provider.
E EMU (Environmental Monitoring Unit) An element which monitors the status of an enclosure, including the power, air temperature, and blower status. The EMU detects problems and displays and reports these conditions to a user and the controller. In some cases, the EMU implements corrective action. enclosure A single sheet-metal structure and its enclosed set of system components.
The fabrics that link systems in a ServerNet cluster. external ServerNet X or Y fabric The X or Y fabric that links systems in a ServerNet cluster. F fabric A complex set of interconnections through which there can be multiple and (to the user) unknown paths from point to point. The term fabric is used to refer to the X or Y portion of the ServerNet communications network; for example, the X fabric. See also internal ServerNet fabric and external ServerNet fabric.
A programmable integrated circuit that can be customized to perform specific functions. field-replaceable unit (FRU) A unit that can be replaced in the field only by qualified personnel trained by HP and cannot be replaced by customers. A unit is classified as a FRU because of safety hazards such as weight, size, sharp edges, or electrical potential; contractual agreements with suppliers; or national or international standards. See also customer-replaceable unit (CRU).
A unique, read-only number stored in nonvolatile memory (SEEPROM) on a ServerNet II Switch at the time of manufacture. The GUID also appears on the bar code label. This number can be used programmatically to identify the switch. group Part of the group, module, slot naming convention for uniquely identifying the logical location of a component within a system. A group is a subset of a system and contains one or more modules.
supply (UPS), and AC transfer switch, and it can be packaged in a switch enclosure or in a 19-inch rack. The cluster switch is used with star, split-star, and tri-star topologies. See also HP NonStop Cluster Switch (model 6780). HP NonStop ServerNet Switch (model 6780) The cluster switch used in the layered topology. The 6780 switch consists of a switch logic board, a midplane, plug-in cards, power supplies, and fans. See also HP NonStop Cluster Switch (model 6770).
See also fabric. internet protocol (IP) A data communications protocol that handles the routing of data through a network, which typically consists of many different subnetworks. IP routes data between source and destination IP addresses. I/O adapter module (IOAM) A collection of modular components that provides I/O connectivity and can include ServerNet switch boards, Fibre Channel ServerNet adapters (FCSAs), fans, and power supplies.
One of several views of a server or supported Expand network available after system discovery in the view pane of the Management window. The Inventory view is a table that lists server or cluster components according to type, location, part number, and other attributes. See also Physical View. IP address An internet protocol (IP). An IP address consists of two parts: a network address, which identifies the network, and a local address, which identifies a host within a network.
link A communications path between two entities. load To transfer the NonStop operating system image or a program from storage (typically disk) into processor memory so that the operating system or program can run. local area network (LAN) A network that is located in a small geographical area and provides a high-bandwidth, low-cost medium to which low-cost nodes can be connected.
the external Y fabric of a ServerNet cluster. See also SP logical name. logical processor The combination of equivalent processor elements in the Blade Elements that are running in the same instruction stream in loose lock-step. Logical Unit Number (LUN) A SCSI convention used to identify elements. The host sees a virtual disk as a LUN. The LUN address a user assigns to a virtual disk for a particular host will be the LUN at which that host will see the virtual disk.
nodes). The overview pane does not appear in the OSM Low-Level Link. The top pane is the view pane. It might contain a Physical view or an Inventory view. You can select the type of view from the Display menu or the toolbar. The lower pane is the details pane. It displays the specific information about the selected resource. Click a tab to select the type of information to display in the details pane.
suffix to show which drive is the primary (-P) and which is the mirror (-M). See also volume. modular ServerNet expansion board (MSEB) A ServerNet expansion board (SEB) that uses plug-in cards (PICs) to provide a choice of connection media for routing ServerNet packets. modular cabinet A cabinet with an integrated standard 19-inch rack equipped with a power distribution unit (PDU), doors, slides, brackets, castors, leveling pads, and optional side panels.
N name For the OSM software, the name attribute is determined by the connection type. When you use the service connection, the logical name is used. When you use the low-level link, the service processor (SP) logical name is used. Examples of logical names: ● $DATA04-P is the logical name of the disk CRU located in group 1, module 1, slot 13. ● IOMF2.SCSI-3.GRP-1.MOD-1.SLOT-50 is the logical name of the third SCSI bus on the IOMF2 CRU located in group 1, module 1, slot 50.
O object One or more of the devices, lines, processes, and files in a subsystem. In the OSM Service Connection, an object is equivalent to a resource. See also resource. OSM Event Viewer A component of the OSM software that lets you set up criteria to view log files in several ways, enabling you to rapidly assess service problems. The OSM Event Viewer is launched from within the OSM Low-Level Link and the OSM Service Connection.
P PAL firmware The Processor Abstraction Layer is firmware that directly handles all aborts and initialization and platform management interrupts. part number A unique number assigned to a product. The part number can be used for ordering purposes. path The route between a processor and a subsystem. If a subsystem is configured for fault tolerance, it has both a primary path (from the primary processor) and a backup path (from the backup processor).
of a resource. For example: GRP-2.MOD-1.SLOT-8. Physical view One of several views available in the view pane of the Management window. The Physical view of a server is a view of all the enclosures and is intended to represent the actual floor plan at the site. A Physical view of an enclosure is a visual representation of the physical location of supported resources inside the enclosure.
In system enclosures with power shelves, the component located in the power shelf that converts standard AC line voltage into DC voltage and delivers it to the CRUs in that enclosure, which in turn supply the DC voltages needed by the group components in the enclosure. primary processor The processor that is designated as owning the ServerNet addressable controller (SAC) connected to separate processors running the NonStop operating system.
multifunction I/O board ( MFIOB), and the power supply subassembly. processor multifunction (PMF) 2 CRU A NonStop S-series customer-replaceable unit ( CRU) that contains a power supply, service service processor (SP), ServerNet router 2, Ethernet controller, three ServerNet addressable controllers ( SACs), and a processor and memory system in a single unit.
remote switch An HP NonStop Cluster Switch (model 6770) or HP NonStop ServerNet Switch (model 6780) in a ServerNet cluster that is not directly connected to the server that you are logged on to. The OSM Service Connection cannot perform any actions on a remote switch. To perform actions or get additional information on a remote switch, use the OSM Service Connection to log on to a server that is directly connected to the switch.
serial copper plug-in card (PIC) A plug-in card (PIC) for the modular ServerNet expansion board (MSEB) and I/O multifunction (IOMF) 2 customer-replaceable unit (CRU) that supports the serial copper interface. serial maintenance bus (SMB) A bus that connects service processors within an enclosure to each other and to the customer-replaceable units (CRUs). See also serial maintenance bus (SMB) domain and power domain.
ServerNet expansion board (SEB) A connector board that plugs into the backplane to allow one or more ServerNet cables to exit the rear of the enclosure. The ServerNet expansion boards (SEBs) and cables allow processors in one group to communicate with processors in another group. Each SEB provides either the ServerNet X fabric or the ServerNet Y fabric for a group. SEBs are customer-replaceable units (CRUs).
service connection A connection between the system console and the OSM software on a NonStop server. A service connection is initiated from the browser on the system console and can be used to communicate with the server only when the NonStop operating system is running. The OSM Service Connection provides a comprehensive service and maintenance picture of the server or ServerNet cluster and is used to perform most service management tasks. See also low-level link.
A physical labeled space or sheet-metal frame in an enclosure into which a logic board or other system component can be installed. Slots have numbers that are unique in the enclosure. small computer system interface (SCSI) An ANSI-standard protocol used by a controller for access to a device. For example, the disk drives in NonStop S-series servers are connected on a SCSI bus.
A network topology in which all nodes are connected to a central hub (HP NonStop Cluster Switch). Each node has its own connection to the network, so a break in the connection does not affect other nodes in the network. In a ServerNet cluster, a star topology requires one cluster switch for each external fabric and can support up to eight nodes. See also split-star topology, and tri-star topology, and layered topology.
A subvolume on the $SYSTEM volume that contains a version of the NonStop operating system image. The letters nn represent an octal number in the range %00 through %77. There might be several SYSnn subvolumes, only one of which contains the current OSIMAGE. system All the processors, controllers, firmware, peripheral devices, software, and related components that are directly connected together to form an entity that is managed by one NonStop operating system image and operated as one computer.
A tetrahedral topology of NonStop S-series servers that allows a maximum of eight processor enclosures (16 processors). The maximum number of I/O enclosures allowed by the Tetra 16 topology varies depending on the release version update (RVU) and the server model. Contrast with Tetra 8 topology. tetrahedron A solid bounded by four triangular faces. In ServerNet context, a tetrahedron is four processors interconnected by ServerNet links so as to form a conceptual tetrahedron.
ServerNet Cluster view. The System view bears the name of the local system and displays resources within the system. The ServerNet Cluster view displays resources in a supported Expand network, such as a ServerNet cluster. See also details pane and view pane. tri-star topology A network topology that uses up to three HP NonStop Cluster Switches for each external fabric. External routing is implemented between the three star groups of a ServerNet cluster.
contract. These features include: ● The generation of incident reports and EMS event messages related to incident reports ● The ability to configure the dial-out phone number ● Support for dial-in on a system console Recommended repair actions associated with alarms vertical tetrahedron ● A topology of NonStop S-series servers in which the ServerNet connections between the layers of a cluster switch group form a tetrahedron See also tetrahedron, tetrahedral topology, and cluster switch layer.
workstation See system console. X X fabric The X side of the internal or external ServerNet fabrics. See also fabric. Y Y fabric The Y side of the internal or external ServerNet fabrics. See also fabric. Z There are no entries for this section Prev Chapter 14.
Index Prev Index Symbols 6770 Switch Module about, 6770 Switch Module actions, Actions attributes, Attributes 6780 Switch Module about, 6780 Switch Module actions, Actions attributes, Attributes A AC Power State, Logical AC Transfer Switch about, AC Transfer Switch actions, Actions attributes, Attributes Access State, Backup Path actions automatically initiating, Performing Actions on a Selected Resource detailed information about, Performing Actions on a Selected Resource on multiple resources, Performin
Active Path, Logical Adapter State, Logical Adapter Type, Logical Advanced Storage Configuration State, System Services Alarm Panel Identifier, Physical Location alarms deleting, Deleting Alarms detailed information, Viewing a Summary of Alarms details of, Viewing Alarm Details finding, Viewing a Summary of Alarms printing information, Viewing Alarm Details saving information, Viewing Alarm Details sorting, Viewing a Summary of Alarms summary of, Viewing a Summary of Alarms suppressing, Suppressing Alarms v
in Details pane, Using the Details Pane to View Attributes printing, Using the Attributes Dialog Box to View Attributes saving, Using the Attributes Dialog Box to View Attributes seeing description, Using the Attributes Dialog Box to View Attributes suppressing, Suppressing Problem Attributes using dialog box, Using the Attributes Dialog Box to View Attributes viewing, Viewing Attributes Automatic Boot State, Logical Automatic Data Collection State, Data Collection Services Automatic Dump State, Logical Aut
attributes, Attributes Board State, Logical C CCSA CRU about, CCSA (Common Communication ServerNet Adapter) actions, Actions attributes, Attributes Charge State, Logical Charge Status, Logical CLIM, CLIM CLIM Collection, CLIM Collection Cluster about, ServerNet Cluster actions, Actions attributes, Attributes cluster resources list of, Cluster Resources locating, Locating and Viewing Cluster Resources managing, Cluster Resources monitoring, Monitoring a Cluster performing actions on, Performing Actions on C
Configuration Version, Physical Configured Controller Location, Backup Path Configured FSAC Location, Primary Path Configured Interface Type, Logical Configured Processors, Process Pair Configured Type, Logical Connect to UPS, Connect to UPS Connectivity State, Expand-Over-ServerNet Configuration Connectivity Status, Logical Connector Number, Logical Contact, Logical CRU Type, Physical Current Configured Speed, Logical Current Number of Nodes, Logical Current Numeric Selector Setting, Logical Current Speed,
ESS, ESS Disk External, External Disk Fibre Channel, Disk (Fibre Channel) Disk (Fibre Channel) about, Disk (Fibre Channel) actions, Actions attributes, Attributes Disk CRU about, Disk actions, Actions attributes, Attributes Disk Pair Name, Disk Pair DLC Task Name, Logical DLC Task State, Logical Download File Name, Logical Download File Version, Logical Download Filename, Logical Dump, Dump Dump File Name, Logical Dump Filename, Logical Duplex Mode, Logical Duration of Suppression, Incident Report Configura
Enabled State values, Enabled State Enterprise Storage System Disk drive, ESS Disk ESS Disk about, ESS Disk actions, Actions Estimated Charge Remaining, Logical Ethernet 4 ServerNet Adapter (see E4SA CRU) Expand Node Number, Logical External Disk about, External Disk actions, Actions attributes, Attributes External Disk Collection about, ESS Disk Collection external fabric about, External ServerNet Fabric actions, Actions attributes, Attributes External ServerNet Fabric about, External ServerNet Fabric F F
FC-AL I/O Module about, FC-AL I/O Module actions, Actions attributes, Attributes FCDM about, FCDM actions, Actions attributes, Attributes FCDM Collection about, FCDM Collection attributes, Attributes FCSA about, FCSA actions, Actions attributes, Attributes removing and installing, Removing and Installing a Fibre Channel ServerNet Adapter FCSA FSAC about, FCSA FSAC actions, Actions attributes, Attributes FESA about, FESA (Fast Ethernet ServerNet Adapter) actions, Actions attributes, Attributes Fiber ServerNe
Firmware update Switch Logic Board, Firmware Update firmware updates performing, Performing Firmware Updates Firmware Version, ME Firmware Firmware version, Logical FOX Cluster Number, Logical FPGA code update Switch Logic Board, FPGA Update FSAC, Primary Path about, FSAC (Fiber ServerNet Addressable Controller) actions, Actions attributes, Attributes FXSA FRU about, FXSA / FX2SA (ServerNet/FX / ServerNet/FX2) actions, Actions attributes, Attributes G G4SA about, G4SA actions, Actions attributes, Attribute
actions, Actions attributes, Attributes Gigabyte Ethernet ServerNet Adapter (see GESA CRU) Globally Unique ID, Logical Group (I/O or Processor Enclosure) about, Group (I/O or Processor Enclosure) actions, Actions attributes, Attributes Group (IOAM) about, Group (IOAM) actions, Actions attributes, Attributes Group Type, Group Type GUID, Physical H Halt Code, Logical Halt Flag, Logical Hard Reset, Hard Reset Hardware Freeze Flag, Logical Hardware MAC Address, Logical Hardware Revision, Physical HP SIM, Using
actions, Actions attributes, Attributes Internal ServerNet Fabric about, Internal ServerNet Fabric IOAM about, IOAM (I/O Adapter Module) actions, Actions attributes, Attributes IOAM Enclosure about, IOAM Enclosure actions, Actions attributes, Attributes IOAM Fan actions, Actions attributes, Attributes IOMF CRU about, IOMF (I/O Multifunction) actions, Actions attributes, Attributes IOMF2 CRU about, IOMF2 (I/O Multifunction 2) actions, Actions attributes, Attributes IP Address, Logical L Last Reset Type, Log
attributes, Attributes LIF State, Logical Line LDEV, Expand-Over-ServerNet Configuration Line LDEV Name, Expand-Over-ServerNet Configuration Line LDEV State, Expand-Over-ServerNet Configuration Lines Connected, Logical Lines Disconnected, Logical Link Pulse State, Logical Link State, Logical Lites Register, Logical Local Node about, ServerNet Local Node actions, Actions attributes, Attributes Location, Logical Location String, Physical Location Locator, Logical Logical Device Number, Logical Lower Fatal Thr
Maximum Number of VCI Bits, Logical Maximum Number of VCIs, Logical Maximum Number of VPCs, Logical Maximum Number of VPI Bits, Logical Maximum Number of VPIs, Logical Maximum Speed, Logical Media Size, Logical Media Type, Logical MIOE about, MIOE (Ethernet Controller) actions, Actions attributes, Attributes MIOE PIF about, MIOE PIF actions, Actions attributes, Attributes MIOE SAC about, MIOE SAC actions, Actions attributes, Attributes Modular ServerNet expansion board (see MSEB) Module about, Module action
N Neighbor Node Name, Neighbor ServerNet Node Neighbor ServerNet Node Number, Neighbor ServerNet Node Neighbor Switch Port, Neighbor Switch Port Network MAC Address, Logical Node Connectivity ServerNet Path Test, Node Connectivity ServerNet Path Test Node Name, FCSA FSAC Node Number, Neighbor ServerNet Node Node Responsive Test, Node Responsive Test Normal Maximum Value, Total Voltage Sensor Normal Minimum Value, Total Voltage Sensor Number of Nodes, Logical Numeric Selector Setting Used by Firmware, Logica
actions, Actions attributes, Attributes PMCU about, PMCU attributes, Attributes PMF about, PMF (Processor Multifunction) actions, Actions attributes, Attributes PMF2 about, PMF2 (Processor Multifunction 2) actions, Actions attributes, Attributes Port A Bypass State, Physical Port A World Wide Name, Physical Port B Bypass State, Physical Port B World Wide Name, Physical Port Connectivity Status, Logical Port Connectivity Status values, Port Connectivity Status Port Name, Backup Path Position ID, Configuratio
about, Power Supply (IOAM) attributes, Attributes Prepare to Replace, Prepare to Replace Presence, Logical Primary AC Power State, Midplane Physical Primary Execution State, Process Pair Primary Gateway IP Address, Logical Primary Host IP Address, Logical Primary Path State, Logical Primary Process ID, Process Pair Primary Rail Power State, Logical Primary Subnet Mask, Logical Primary Subnet Name, Logical Primary TCP/IP Process, Logical Problem Incident Report Creation State, Incident Report Configuration P
R Rack Name, Physical Location Rack Offset, Physical Location Rail Maximum Voltage, Logical Rail Minimum Voltage, Logical Reason for Suppression, Incident Report Configuration Remaining Capacity Status, Logical Remaining Time, Logical Remote 6770 Switch about, Remote 6770 Switch attributes, Attributes Remote Line LDEV State, Expand-Over-ServerNet Configuration Remote Node about, ServerNet Remote Node actions, Actions attributes, Attributes Replace, Replace Reset Statistics, Reset ServerNet Statistics Respon
attributes, Attributes SCSI Bus Number, Logical SCSI Controller, Backup Path about, SCSI Controller actions, Actions attributes, Attributes SCSI Extender, Storage Router SCSI ID, Backup Path SCSI SAC (see SSAC) SCSI-to-Fiber Converter, Storage Router SCSI-X Voltage, Logical SCSI-Y Voltage, Logical SEB about, SEB actions, Actions attributes, Attributes Secondary Processor Cache Size, Logical Serial Number, Physical ServerNet cluster, ServerNet Cluster cluster actions, Actions cluster attributes, Attributes e
about, ServerNet II Switch actions, Actions attributes, Attributes ServerNet Node ID, Logical ServerNet Node Number, Logical ServerNet Switch Board about, ServerNet Switch Board actions, Actions attributes, Attributes ServerNet/DA (see about) ServerNet/FX (see FXSA FRU) Service LED State, Logical Service Processor (SP) about, Service Processor (SP) actions, Actions attributes, Attributes Service State, ATM3SA Service State values, Service State Set Fabric Setting, Set Fabric Setting Set Locator, Set Locator
Storage Router about, Storage Router actions, Actions attributes, Attributes Stored Topology, Logical SWAN Battery about, SWAN Battery attributes, Attributes SWAN CLIP about, SWAN CLIP actions, Actions attributes, Attributes SWAN Collection about, SWAN Collection SWAN Fan about, SWAN FAN actions, Actions attributes, Attributes SWAN LAN Logic Board (see about) SWAN LANLB about, SWAN LAN Logic Board (LANLB) actions, Actions attributes, Attributes SWAN Line about, SWAN Line actions, Actions attributes, Attribu
actions, Actions attributes, Attributes SWAN/SWAN2 CRU about, SWAN / SWAN2 actions, Actions attributes, Attributes Switch Fan about, Switch Fan actions, Actions attributes, Attributes Switch Group about, Switch Group Switch Logic Board about, Switch Logic Board actions, Actions attributes, Attributes Switch Node Port about, Switch Node Port actions, Actions attributes, Attributes Switch PIC about, Switch PIC actions, Actions attributes, Attributes Switch Port about, Switch Port attributes, Attributes Switch
Switch-to-Node PIC about, Switch-to-Node PIC attributes, Attributes Switch-to-Switch PIC about, Switch-to-Switch PIC attributes, Attributes system locating resources, Locating and Viewing System Resources managing, Managing a System monitoring resources, Monitoring a System performing actions, Performing Actions on a System viewing resources, Locating and Viewing System Resources System about, System actions, Actions attributes, Attributes system resources list of, System Resources System Serial Number, Log
Time of Suppression, Incident Report Configuration To view an ordered index, you must download, then open the online help from Help menu on the OSM toolbar.
attributes, Attributes UPS (IOAM) about, UPS actions, Actions attributes, Attributes UPS Location, Physical V VA Rating, Physical Vendor Hardware Revision, Logical Vendor Product ID, Logical Vendor Product Revision, Logical Version, Firmware W window printing, Using the Management Window World Wide Name, Physical X X Fabric Connection State, Logical Y Y Fabric Connection State, Logical Prev Glossary 527274-018 Up Home Legal Notices
Legal Notice © Copyright 2006 Hewlett-Packard Development Company L.P. Confidential computer software. Valid license from HP required for possession, use or copying. Consistent with FAR 12.211 and 12.212, Commercial Computer Software, Computer Software Documentation, and Technical Data for Commercial Items are licensed to the U.S. Government under vendors standard commercial license. The information contained herein is subject to change without notice.
OSF software and documentation are based in part on the Fourth Berkeley Software Distribution under license from The Regents of the University of California. OSF acknowledges the following individuals and institutions for their role in its development: Kenneth C.R.C. Arnold, Gregory S. Couch, Conrad C. Huang, Ed James, Symmetric Computer Systems, Robert Elz. © 1980, 1981, 1982, 1983, 1985, 1986, 1987, 1988, 1989 Regents of the University of California.
Version and Copyright Information Document Title OSM User's Guide Abstract The HP NonStop" Open System Management (OSM) software is a collection of client/server applications that provide troubleshooting, maintenance, and service tools for the HP NonStop server. The OSM software also allows you to view and manage resources within a supported Expand network, such as an HP NonStop ServerNet Cluster.