Sun Microsystems T6320 service manual Using the fmadm faulty Command, # fmdadm faulty

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The Predictive Self-Healing technology covers the following Sun Blade T6320 server module components:

UltraSPARC® T2 multicore processor (CPU)

Memory

I/O bus

The PSH console message provides the following information:

Type

Severity

Description

Automated response

Impact

Suggested action for system administrator

If the Solaris PSH facility has detected a faulty component, type the fmdump command to identify the fault. Faulty FRUs are identified in fault messages using the FRU name. For a list of FRU names, see Appendix A.

Note – Additional Predictive Self-Healing information is available at:

http://www.sun.com/msg

2.7.1Identifying Faults With the fmadm faulty and fmdump Commands

2.7.1.1Using the fmadm faulty Command

Type the fmadm faulty command to identify a faulty component.

1.Type fmadm faulty.

#fmdadm faulty

STATE RESOURCE /UUID

faulted cpu:///cpuid=8/serial=FAC006AE4515C47 8856153f-6f9b-47c6-909a-b05180f53c07

The output shows the UUID of the related fault and provides information for clearing the fault.

2-42Sun Blade T6320 Server Module Service Manual • June 2009

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Contents Sun Microsystems, Inc Page Contents Page Replacing Cold-Swappable Components Safety InformationReplacing Hot-Swappable and Hot-Pluggable Components Page Specifications XVR-50 Graphics AcceleratorIndex Index-1 Checking Device Configuration D-5HD15 Video Output Port D-6 Using Unix Commands PrefaceShell Prompts Accessing Sun DocumentationTypographic Conventions Sun Blade T6320 Server Module Safety and Compliance Manual ModuleSun Welcomes Your Comments Third-Party Web SitesDocumentation, Support, and Training Sun Blade T6320 Server Module Product Description Component Overview1Sun Blade T6320 Server Module With Chassis Front View Insert the connector straight into the server module 3Cable Dongle ConnectorsConnections 1Sun Blade T6320 Server Module FeaturesDuring normal system operation 2Interfaces With the chassis SAS/SATA3Sun Blade T6320 Server Module FRU List 4Field-Replaceable UnitsSun Blade T6320 Server Module FRU List Hard Drive onMulticore Processor Information Support for RAID Storage Configurations Finding the Serial Number Sun Blade RAID 0/1 G2 Expansion ModuleMAC address Alom CMT example Additional Service Related Information Sun Blade T6320 Server Module Diagnostics Sun Blade T6320 Server Module Diagnostics Overview Alom CMT CLISun Blade T6320 Server Module Diagnostics 1Diagnostic Flowchart 1Diagnostic Flowchart Actions System LEDs onFRU-namedeemed faulty and disabled Memory Configuration and Fault Handling FB-DIMM Configuration GuidelinesDimm Installation Rules Supported FB-DIMMs and Part Numbers3FB-DIMM Installation Rules BR1/CH0/D0 BR0/CH0/D0 BR2/CH0/D0 BR3/CH0/D0FB-DIMM Configuration and Installation You can also use -2to identify the DIMMs you want to remove2FB-DIMM Configuration and Installation Memory Fault HandlingTroubleshooting Memory Faults Interpreting System LEDs Front Panel LEDs and ButtonsLEDs have assigned meanings, described in Table 3LED Behavior and Meaning4LED Behaviors With Assigned Meanings 5Front Panel Buttons Using Ilom for Diagnosis and Repair Verification Ethernet Port LEDsIlom Using the Ilom Web Interface For Diagnostics Fru at location is OKChanging Post Settings With the Ilom Web Interface 8ILOM Login ScreenPage Type the show command to see the current Post settings Changing Post Settings With the Ilom CLIDisplaying System Faults Viewing Fault Status Using the Ilom Web Interface 10Fault Management Page ExampleViewing Fault Status Using the Ilom CLI 11Faulted Component ID WindowDisplaying the Environmental Status with Show /SYS/MB/VVCORESun Blade T6320 Server Module Diagnostics Using the Ilom Web Interface to Display FRU Information Displaying FRU InformationUsing the CLI to Display FRU Information 15Static FRU Information in the Ilom Web InterfaceAt the -prompt, type the show command Show /SYS/MBSegment TH Running Post Controlling How Post Runs6Parameters Used For Post Configuration 16. This parameter overrides all other16Flowchart of Ilom Variables for Post Configuration Using the Web Interface to Change Post Parameters 7describes how the Post settings will execute7POST Modes and Parameter Settings Changing Post Parameters17Setting Post Parameters With the Ilom Web Interface 18Changing Power Settings with the Ilom Web Interface Show /HOST/diag Using the CLI to Change Post ParametersType the set command to change the Post parameters Power cycle the server module to run Post Post error messages use the following syntaxInterpreting Post Messages Interpret the Post messagesClearing Post Detected Faults Clearing Faults With the Web Interface 19Enabling Components With the Ilom Web InterfaceClearing Faults With the Ilom CLI Reboot the server moduleSet componentstate=enabled Cd /SYS/MB/CMP0/P32Clearing Hard Drive Faults Using the Solaris Predictive Self-Healing FeatureClearing Faults Manually with Ilom Using the fmadm faulty Command # fmdadm faultyUsing the fmdump Command # fmdumpClearing PSH Detected Faults Follow the suggested actions to repair the faultClearing the PSH Fault From the Ilom Logs After replacing a faulty FRU, boot the systemClear the fault from all persistent fault records # fmadm faultyCollecting Information From Solaris OS Files and Commands Set /SYS/component clearfaultaction=trueChecking the Message Buffer Log in as superuserManaging Components With Automatic System Recovery Commands Type the syslogd commandLog in as superuser Type the following command If you want to view all logged messages, type this command8ASR Commands SYS/componentDisplaying System Components With the show /SYS Command An example with no disabled componentsAn example showing a disabled component Show /SYS/MB/USB0Checking SunVTS Software Installation 9Sample of installed SunVTS PackagesExercising the System With SunVTS # pkginfo grep -i vtsExercising the System Using SunVTS Software Enable the remote display. On the display system, typeWhere test-systemis the name of the server you plan to test Steps for Exercising the System With SunVTS Software# /opt/SUNWvts/bin/sunvts -display display-system0 20 SunVTS BIStart testing Optional Select the test category you want to runOptional Customize individual tests 10Useful SunVTS Tests to Run on This ServerResetting the Password to the Factory Default To Reset the Root Password to the Factory DefaultChange the root password Remove the server module from the modular system chassisSun Blade T6320 Server Module Diagnostics Page Hot-Pluggable Hard Drives Hot-Plugging a Hard DriveRules for Hot-Plugging Removing a Hard DriveHDD2 HDD0 HDD1 HDD3 Replacing a Hard Drive or Installing a New Hard Drive 2Hard Drive Locations, Release Button, and LatchAdding PCI ExpressModules Page Safety Information Replacing Cold-Swappable ComponentsUsing an Antistatic Wrist Strap Safety SymbolsElectrostatic Discharge Safety Common Procedures for Parts Replacement Using an Antistatic MatRequired Tools Shutting Down the SystemUsing the Ilom Web Interface to Shut Down the Server Module Log in as superuser or equivalentNotify affected users Save any open files and quit all running programsUsing the Ilom CLI to Shut Down the Server Module 1Powering Off the Server Module with the Ilom Web InterfaceSet /SYS/LOCATE value=fastblink At the Ilom -prompt, type the set /SYS/PS0Set /SYS/ preparetoremoveaction=true 2Disconnecting the Cable Dongle Open the ejector levers Figure 3Removing the Sun Blade T6320 Server Module From the Chassis4Stack Five Server Modules or Fewer Removing the DIMMs This section describes how to remove and replace DIMMsRemoving and Replacing DIMMs Locate the DIMMs that you want to replace Figure 6DIMM Locate Button and Dimm LEDsSixteen DIMMs installed FB-DIMM Configuration Replacing the DIMMs 8Removing DIMMsVerifying Dimm Installation Removing and Replacing the Service ProcessorRemoving the Service Processor 9Removing the Service Processor Replacing the Service Processor Prom is keyed to ensure proper orientationRemoving and Replacing the Battery on the Service Processor Replacing the Battery on the Service Processor 11Removing the Battery From the Service ProcessorRemoving the RAID 5 Expansion Module Set /SP/clock datetime=10Installing the RAID 5 Expansion Module 12Removing the RAID Expansion ModuleVerifying the RAID 5 Expansion Module Installation 13Replacing the RAID 5 Expansion ModuleOk show-disks Configuring the RAID 5 Expansion Module Return to the root node by using the unselect-devcommandFor details, see Appendix B and Appendix C Ok .propertiesCreating a Bootable Array With the RAID 5 Expansion Module Additional InformationRemoving the RAID 0/1 Expansion Module For more information, refer to the following documents atReplacing the RAID 0/1 Expansion Module 14Removing the RAID Expansion ModuleVerifying the RAID 0/1 Expansion Module Installation 15Replacing the RAID 0/1 Expansion ModuleReplacing the Cover Finishing Component ReplacementReinstalling the Server Module in the Chassis 17Inserting the Server Module in the Chassis Page Physical Specifications Lbs fully configuredTable A-1Exterior Dimensions 77 kgSystem Environmental Specifications Operating Temperature and AltitudeNon-Operating Temperature and Altitude Temperature -40˚ C to 60˚ C Maximum altitude 40,000 ftMotherboard Block Diagram Figure A-2Motherboard Block DiagramPage P E N D I X B Install and connect the HBA and disk drives About Creating a Bootable Array on a Sparc SystemCreating a Bootable Array Task Map Modifying the Miniroot Directory On the Install Server Modify two locations on the network install serverTo Modify the Miniroot Directory # cd /cdrom/raidlive/s0/RaidcardTo Modify the Product Installation Directory # cp -r SUNWaac installdirpath/Solaris10/ProductOk boot net -s Building a Logical Drive On Which to Install the Solaris OSTo Create a Logical Drive Using a Network Install Server # cd /opt/StorMan # ./arcconf Getconfig # ./arcconf Create 1 Logicaldrive MAX 5 0 2 0 3 0To Create a Logical Drive Without a Network Install Server Ok boot cdromBringing the drive online Sc shownetworkRun the Create command as shown in the following example To Delete a Logical Drive on the REM# ./arcconf Getconfig 1 LD To Label the Newly Created Logical Drive# ./arcconf Delete 1 Logicaldrive # devfsadm# init Next Steps# format Additional Information Complete the procedures in Appendix B Preparing to Install the Solaris OSTo Prepare to Install the Solaris OS Use the df command to verify the following This section contains the following subsection# cd /cdrom/Solaris10/Product # pkgadd -R /a -d. SUNWaac # rebootApply the HBA driver package, SUNWaac Next Steps Features XVR-50 Graphics AcceleratorTable D-1XVR-50 Graphics Accelerator HD15 Video Formats Video FormatsTable D-1lists video formats supported by the HD15 port This example shows a list of graphics devices displayed Sun OpenGL for Solaris SoftwareMan Pages Default Color Depth Optional Video OutputChecking Device Configuration Log out and then log back in for the change to take effectHost% fbconfig -dev pfb0 -prconf HD15 Video Output PortIndex Man page, D-3, D-4 FRUPost SYS/MB server module FRU name Index-5
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T6320 specifications

The Sun Microsystems T6320 is a high-performance server designed to meet the demands of modern data centers and enterprise applications. As part of the Sun Fire series, the T6320 is built for scalability, efficient resource utilization, and reliability, making it an ideal choice for businesses looking to optimize their IT infrastructure.

One of the key features of the T6320 is its support for the UltraSPARC T2 processor architecture. This multicore processor can handle up to eight threads per core, meaning the T6320 can manage up to 64 simultaneous threads. This threading capability is particularly beneficial for virtualization and multi-threaded applications, allowing organizations to maximize the performance of their software while minimizing latency.

The T6320 also comes equipped with a high-speed memory subsystem, supporting up to 256 GB of DDR2 memory. With a memory bandwidth of up to 17 GB/s, the server ensures that data transfer rates do not become a bottleneck, facilitating faster processing and smoother operation for demanding applications. Moreover, the server supports multi-tier storage configurations, enabling organizations to choose the right balance of performance, capacity, and cost.

In terms of connectivity, the T6320 offers multiple gigabit Ethernet ports, creating a resilient network architecture capable of handling the high data loads typical in enterprise environments. Its redundancy features, including hot-swappable components and mirrored disks, further add to its reliability, ensuring continuous service even during maintenance.

The T6320 is built with energy efficiency in mind, minimizing power consumption without compromising performance. This characteristic is increasingly critical for organizations focused on sustainability and cost savings in their energy expenditures.

Additionally, Sun Microsystems has integrated advanced security features into the T6320, such as hardware-based security mechanisms to protect sensitive data and applications. This feature is vital for businesses operating in regulated industries or those that prioritize data integrity.

Finally, the server supports a variety of operating systems, including Solaris, Linux, and various UNIX flavors. This flexibility allows organizations to run their preferred software environments, making the T6320 a versatile option for diverse IT needs.

Overall, the Sun Microsystems T6320 stands out as a powerful, flexible, and efficient server solution, adept at handling the complexities of today's enterprise workloads while paving the way for future growth and technological advancements.
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