ProLiant BL280c G6 - Server HP - Free user manual and instructions

USER MANUAL ProLiant BL280c G6 HP

HP ProLiant BL280c G6 Server Blade User Guide

Abstract

This document describes installation, administration, and troubleshooting for this server blade. This document is for the person who installs, administers, and troubleshoots servers and storage systems. HP assumes you are qualified in the servicing of computer equipment and trained in recognizing hazards in products with hazardous energy levels.

Part Number: 514028-002

March 2011

Edition: 2

© Copyright 2009, 2011 Hewlett-Packard Development Company, L.P.

The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.

Microsoft, Windows, Windows NT, Windows XP, and Windows Server are U.S. registered trademarks of Microsoft Corporation.

Intel and Pentium are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries.

AMD Athlon is a trademark of Advanced Micro Devices, Inc.

Java is a US trademark of Sun Microsystems, Inc.

Contents

Component identification....6

Front panel components 6

Front panel LEDs and buttons 7

System board components....8

Mezzanine connector definitions 8

DIMM slot locations 9

Hard drive connector identification 9

System maintenance switch....9

HP c-Class Blade SUV Cable....10

Operations.... 11

Power up the server blade....11

Power down the server blade....11

Remove the server blade 12

Remove the access panel....13

Install the access panel....13

Remove the air baffle....13

Install the air baffle 13

Setup 15

Overview 15

Installing an HP BladeSystem c-Class enclosure 15

Installing server blade options....15

Installing interconnect modules 15

Interconnect bay numbering and device mapping....16

Connecting to the network....17

Installing a server blade 18

Completing the configuration....19

Hardware options installation.... 20

Introduction 20

Hard drive option....20

Processor option....22

Memory options 27

Memory subsystem architecture 28

Single-, dual-, and quad-rank DIMMs 28

DIMM identification 28

Memory configurations....29

General DIMM slot population guidelines....31

Configuring the air baffle for DIMM installation....33

Installing a DIMM 35

Mezzanine card option....36

HP Smart Array P712m Controller option 37

HP Trusted Platform Module option 43

Installing the Trusted Platform Module board 44

Retaining the recovery key/password 45

Enabling the Trusted Platform Module....45

Cabling 47

SATA hard drive cabling 47

Optional SAS hard drive cabling 47

Using the HP c-Class Blade SUV Cable 48

Connecting locally to a server blade with video and USB devices....48

Accessing a server blade with local KVM 48

Accessing a server blade with local media devices 49

Software and configuration utilities 51

Server blade deployment tools 51

Software drivers and additional components....51

HP BladeSystem c-Class Advanced management 51

Network-based PXE deployment 52

Deployment methods....54

Configuration tools 57

SmartStart software....57

HP ROM-Based Setup Utility....58

Array Configuration Utility 60

Option ROM Configuration for Arrays 61

Re-entering the server serial number and product ID 61

Management tools....62

Automatic Server Recovery 62

ROMPaq utility 62

Integrated Lights-Out 2 technology....62

Erase Utility 63

Redundant ROM support 63

USB support and functionality 63

Internal SD support 64

Diagnostic tools 64

HP Insight Diagnostics 64

HP Insight Diagnostics survey functionality 64

Integrated Management Log 65

Remote support and analysis tools 65

HP Insight Remote Support software 65

Keeping the system current 66

Drivers 66

ProLiant Support Packs 66

Operating System Version Support 66

HP Smart Update Manager....66

Change control and proactive notification 67

Care Pack 67

Troubleshooting 68

Troubleshooting resources 68

Pre-diagnostic steps 68

Important safety information....68

Symptom information 70

Prepare the server for diagnosis 70

Loose connections 72

Service notifications....72

Server health LEDs 72

Troubleshooting flowcharts 72

Start diagnosis flowchart 73

General diagnosis flowchart 74

Server blade power-on problems flowchart 76

POST problems flowchart 78

OS boot problems flowchart 80

Server fault indications flowchart 82

POST error messages and beep codes 84

Battery replacement 86

Regulatory compliance notices 87

Regulatory compliance identification numbers 87

Federal Communications Commission notice 87

FCC rating label 87

Class A equipment....87

Class B equipment 87

Declaration of conformity for products marked with the FCC logo, United States only....88

Modifications....88

Cables 88

Canadian notice (Avis Canadien)....88

European Union regulatory notice 89

Disposal of waste equipment by users in private households in the European Union 89

Japanese notice 90

BSMI notice 90

Korean notice 90

Chinese notice....91

Laser compliance 91

Battery replacement notice....91

Taiwan battery recycling notice....92

Electrostatic discharge 93

Preventing electrostatic discharge 93

Grounding methods to prevent electrostatic discharge....93

Specifications 94

Environmental specifications 94

Server blade specifications....94

Technical support....95

Before you contact HP....95

HP contact information....95

Customer Self Repair 95

Acronyms and abbreviations.... 103

Index 105

Component identification

Front panel components

Front panel LEDs and buttons

System board components

The symbols correspond to the symbols located on the interconnect bays. For more information, see the HP ProLiant BL280c G6 Server Blade Installation Instructions that ship with the server blade.

Mezzanine connector definitions

A PCIe x8 mezzanine connector supports x16 cards at up to x8 speeds.

DIMM slot locations

DIMM slots are numbered sequentially (1 through 6) for each processor. The supported AMP modes use the letter assignments for population guidelines.

Hard drive connector identification

System maintenance switch

When the system maintenance switch position 6 is set to the On position, the system is prepared to erase all system configuration settings from both CMOS and NVRAM.

CAUTION: Clearing CMOS and/or NVRAM deletes configuration information. Be sure to properly configure the server or data loss could occur.

HP c-Class Blade SUV Cable

Operations

Power up the server blade

The Onboard Administrator initiates an automatic power-up sequence when the server blade is installed. If the default setting is changed, use one of the following methods to power up the server blade:

• Use a virtual power button selection through iLO 2.
- Press and release the Power On/Standby button.

When the server blade goes from the standby mode to the full power mode, the system power LED changes from amber to green.

For more information about the Onboard Administrator, see the enclosure setup and installation guide on the HP website (http://www.hp.com/support).

For more information about iLO 2, see "Integrated Lights-Out 2 technology (on page 62)."

Power down the server blade

Before powering down the server blade for any upgrade or maintenance procedures, perform a backup of critical server data and programs.

Depending on the Onboard Administrator configuration, use one of the following methods to power down the server blade:

• Use a virtual power button selection through iLO 2.
This method initiates a controlled remote shutdown of applications and the OS before the server blade enters standby mode.
- Press and release the Power On/Standby button.
This method initiates a controlled shutdown of applications and the OS before the server blade enters standby mode.
- Press and hold the Power On/Standby button for more than 4 seconds to force the server blade to enter standby mode.
This method forces the server blade to enter standby mode without properly exiting applications and the OS. It provides an emergency shutdown method if an application stops responding.

- Execute one of the following commands using the Onboard Administrator CLI: poweroff server [bay number]

or poweroff server [bay number] force

The first command initiates a controlled shutdown of applications and the OS before the server blade enters standby mode. The second form of the command forces the server blade to enter standby mode without exiting applications and the OS. This emergency method forces a shutdown if an application stops responding.

• Use the Onboard Administrator GUI to initiate a shutdown:

a. Select the Enclosure Information tab, and then select the Overall checkbox in the Device Bays item.

b. Initiate a shutdown from the Virtual Power menu:

— Select Momentary Press to initiate a controlled shutdown of applications and the OS.

— Select Press and Hold to initiate an emergency shutdown of applications and the OS.

IMPORTANT: When the server blade is in standby mode, auxiliary power is still being provided. To remove all power from the server blade, remove the server blade from the enclosure.

After initiating a virtual power down command, be sure that the server blade is in standby mode by observing that the system power LED is amber.

Remove the server blade

CAUTION: Do not use the server blade release lever to lift or carry the server blade. Always support the weight of the server blade by handling the chassis directly. Improper use can damage the release lever and the server blade.

To remove the component:

1. Identify the proper server blade.
2. Power down the server blade (on page 11).
3. Remove the server blade.

1. Place the server blade on a flat, level work surface.

WARNING: To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them.

CAUTION: To prevent damage to electrical components, properly ground the server blade before beginning any installation procedure. Improper grounding can cause ESD.

Remove the access panel

To remove the component:

1. Power down the server blade (on page 11).
2. Remove the server blade (on page 12).
3. Press the access panel release button.
4. Slide the access panel towards the rear of the server blade, and then lift to remove the panel.

Install the access panel

1. Place the access panel on top of the server blade.
2. Slide the access panel forward until it clicks into place.

Remove the air baffle

1. Power down the server blade (on page 11).
2. Remove the server blade (on page 12).
3. Remove the access panel (on page 13).
4. If installed, disconnect the hard drive power and data cables from the system board ("Hard drive connector identification" on page 9).
5. Remove the air baffle.

Install the air baffle

IMPORTANT: To maintain proper airflow and prevent thermal damage, always install the air baffle.

1. Install the air baffle.

1. If removed, connect the hard drive power and data cables to the system board ("Hard drive connector identification" on page 9).
2. Install the access panel (on page 13).
3. Install the server blade ("Installing a server blade" on page 18).

Setup

Overview

Installation of a server blade requires the following steps:

1. Install and configure an HP BladeSystem c-Class enclosure.
2. Install any server blade options.
3. Install interconnect modules in the enclosure.
4. Connect the interconnect modules to the network.
5. Install a server blade.
6. Complete the server blade configuration.

For definitions of the acronyms used in this document, refer to "Acronyms and abbreviations" in the server blade user guide.

Installing an HP BladeSystem c-Class enclosure

Before performing any server blade-specific procedures, install an HP BladeSystem c-Class enclosure.

The most current documentation for server blades and other HP BladeSystem components is available at the HP website (http://www.hp.com/go/bladesystem/documentation).

Documentation is also available in the following locations:

• Documentation CD that ships with the enclosure
• HP Business Support Center website (http://www.hp.com/support)

Installing server blade options

Before installing and initializing the server blade, install any server blade options, such as an additional processor, hard drive, or mezzanine card.

Installing interconnect modules

For specific steps to install interconnect modules, see the documentation that ships with the interconnect module.

Interconnect bay numbering and device mapping

HP BladeSystem c7000 Enclosure

To support network connections for specific signals, install an interconnect module in the bay corresponding to the embedded NIC or mezzanine signals.

For detailed port mapping information, see the HP BladeSystem enclosure installation poster or the HP BladeSystem enclosure setup and installation guide on the HP website (http://www.hp.com/go/bladesystem/documentation).

Connecting to the network

To connect the HP BladeSystem to a network, each enclosure must be configured with network interconnect devices to manage signals between the server blades and the external network.

Two types of interconnect modules are available for HP BladeSystem c-Class enclosures: Pass-thru modules and switch modules. For more information about interconnect module options, see the HP website (http://www.hp.com/go/bladesystem/interconnects).

Installing a server blade

CAUTION: To prevent improper cooling and thermal damage, do not operate the enclosure unless all bays are populated with a component or a blank.

1. Remove the device bay blank.

1. Remove the enclosure connector cover.

1. Prepare the server blade for installation.

1. Install the server blade.

Completing the configuration

To complete the server blade and HP BladeSystem configuration, see the overview card that ships with the enclosure.

Hardware options installation

Introduction

If more than one option is being installed, read the installation instructions for all the hardware options and identify similar steps to streamline the installation process.

WARNING: To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them.

CAUTION: To prevent damage to electrical components, properly ground the server before beginning any installation procedure. Improper grounding can cause electrostatic discharge.

Hard drive option

The HP ProLiant BL280c G6 Server Blade supports midline SATA hard drives and 9.5-mm SATA hard drives. SAS hard drives are supported when the HP Smart Array P712m Controller option is installed. The HP Smart Array P712m Controller option does not support hard drive activity LEDs when installed in the HP ProLiant BL280c G6 Server Blade.

For information on supported hard drive options and controller options, see the server blade QuickSpecs on the HP website (http://www.hp.com).

CAUTION: Failure to follow the hard drive installation guidelines can cause hardware damage.

Always observe the installation guidelines:

• Always install a spacer when installing a 9.5-mm SATA hard drive.
- Be sure to use the proper screws when installing the hard drive:

When installing a 9.5-mm SATA hard drive and a hard drive spacer, install the long hard drive screws that are stored on the hard drive spacer.
When installing a midline SATA hard drive or a SAS hard drive, install the standard hard drive screws that ship with the server blade.

To install the component:

1. Power down the server blade (on page 11).
2. Remove the server blade (on page 12).
3. Remove the access panel (on page 13).
4. Remove the air baffle.
5. Install the hard drives.

CAUTION: When installing midline SATA hard drives in the server blade, always install the standard hard drive screws provided with the server blade. Installing the long hard drive screws located on the hard drive spacer can damage the hard drive.

- Install the midline SATA hard drives. Secure the hard drives to the air baffle with the standard hard drive screws.

- Install the 9.5-mm SATA hard drives and hard drive spacers. Secure the hard drives and spacers to the air baffle with the long hard drive screws. The long hard drive screws are stored on the hard drive spacer.

1. Connect hard drive cable 1 to hard drive 1.

2. Connect hard drive cable 2 to hard drive 2.

3. Route the cables through the air baffle.

1. Install the air baffle (on page 13).
2. Connect hard drive data cable 1 to SATA connector 1 on the system board.
3. Connect hard drive data cable 2 to SATA connector 2 on the system board.
4. Connect the hard drive power cables to the hard drive power connectors on the system board. The power cables can connect to either of the hard drive power connectors on the system board.

1. Install the access panel (on page 13).
2. Install the server blade ("Installing a server blade" on page 18).

Processor option

WARNING: To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them.

To install the component:

1. Update the system ROM.
   Locate and download the latest ROM version from the HP website (http://www.hp.com/support). Follow the instructions on the website to update the system ROM.
2. Power down the server blade (on page 11).
3. Remove the server blade (on page 12).
4. Remove the access panel (on page 13).
5. If installed, disconnect the hard drive power and data cables from the system board ("Hard drive connector identification" on page 9).
6. Remove the air baffle.

CAUTION: Failure to completely open the processor locking lever prevents the processor from seating during installation, leading to hardware damage.

1. Open the processor locking lever and the processor socket retaining bracket. Do not remove the processor socket cover.

IMPORTANT: Be sure the processor remains inside the processor installation tool.

1. If the processor has separated from the installation tool, carefully re-insert the processor in the tool. Handle the processor by the edges only, and do not touch the bottom of the processor, especially the contact area.

1. Align the processor installation tool with the socket, and then install the processor. THE PINS ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED.

CAUTION: THE PINS ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED. To avoid damage to the system board:

• Never install or remove a processor without using the processor installation tool.
  • Do not touch the processor socket contacts.

• Do not tilt or slide the processor when lowering the processor into the socket.

• Press the tabs on the processor installation tool to separate it from the processor, and then remove the tool.

1. Close the processor socket retaining bracket and the processor locking lever. The processor socket cover is automatically ejected. Remove the cover.

CAUTION: Be sure to close the processor socket retaining bracket before closing the processor locking lever. The lever should close without resistance. Forcing the lever closed can damage the processor and socket, requiring system board replacement.

1. Remove the thermal interface protective cover from the heatsink.

1. Align and install the heatsink. Alternate tightening the screws until the heatsink is seated properly.

1. Install the air baffle (on page 13).

2. If removed, connect the hard drive power and data cables to the system board ("Hard drive connector identification" on page 9).

3. Install the access panel (on page 13).

Memory options

IMPORTANT: This server blade does not support mixing RDIMMs and UDIMMs. Attempting to mix these two types causes the server to halt during BIOS initialization.

The memory subsystem in this server blade can support RDIMMs or UDIMMs. Both types are referred to as DIMMs when the information applies to both types. When specified as RDIMM or UDIMM, the information applies to that type only. All memory installed in the server blade must be the same type.

The server blade supports the following DIMM speeds:

• Single- and dual-rank PC3-10600 (DDR-1333) DIMMs operating at 1333 and 1066 MHz
• Quad-rank PC3-8500 (DDR-1067) DIMMs operating at 1066 MHz

Depending on the processor model, the number of DIMMs installed, and whether UDIMMs or RDIMMs are installed, the memory clock speed may be reduced to 1066 or 800 MHz. For more information on the effect of DIMM slot population, see "General DIMM slot population guidelines (on page 31)."

Memory subsystem architecture

The memory subsystem in this server blade is divided into channels. Each processor supports three channels, and each channel supports two DIMM slots, as shown in the following table.

This multi-channel architecture provides enhanced performance in Advanced ECC mode. This architecture also enables the Mirrored Memory and Lockstep memory modes. This server blade supports both Registered PC3 DIMMs (RDIMMs) and Unbuffered DIMMs (UDIMMs).

DIMM slots in this server are identified by number and by letter. Letters identify the slots to populate for specific AMP modes. Slot numbers are reported by ROM messages during boot and for error reporting.

Single-, dual-, and quad-rank DIMMs

To understand and configure memory protection modes properly, an understanding of single-, dual-, and quad-rank DIMMs is helpful. Some DIMM configuration requirements are based on these classifications.

A single-rank DIMM has one set of memory chips that is accessed while writing to or reading from the memory. A dual-rank DIMM is similar to having two single-rank DIMMs on the same module, with only one rank accessible at a time. A quad-rank DIMM is, effectively, two dual-rank DIMMs on the same module. Only one rank is accessible at a time. The server blade memory control subsystem selects the proper rank within the DIMM when writing to or reading from the DIMM.

Dual- and quad-rank DIMMs provide the greatest capacity with the existing memory technology. For example, if current DRAM technology supports 2-GB single-rank DIMMs, a dual-rank DIMM would be 4-GB, and a quad-rank DIMM would be 8-GB.

DIMM identification

IMPORTANT: This server blade does not support mixing RDIMMs and UDIMMs. Attempting to mix these two types causes the server to halt during BIOS initialization.

The memory subsystem may be populated with either RDIMMs or UDIMMs, but mixing the two types is not supported. To determine DIMM characteristics, use the label attached to the DIMM and the following illustration and table.

For the latest supported memory information, see the QuickSpecs on the HP website (http://www.hp.com).

Memory configurations

To optimize server blade availability, the server blade supports the following AMP modes:

• Advanced ECC—provides the greatest memory capacity for a given DIMM size, while providing up to 4-bit error correction. This mode is the default option for this server blade.
• Mirrored Memory—provides maximum protection against failed DIMMs. Uncorrectable errors in one channel are corrected by the mirror channel.
• Lockstep—provides enhanced protection while making all installed memory available to the operating system. The server blade can continue to function if a single- or multi-bit memory failure within a single DRAM device occurs.

Advanced Memory Protection options are configured in RBSU. If the requested AMP mode is not supported by the installed DIMM configuration, the server blade boots in Advanced ECC mode. For more information, see "HP ROM-Based Setup Utility (on page 58)."

For the latest memory configuration information, see the QuickSpecs on the HP website (http://www.hp.com).

RDIMM maximum memory configurations

The following table lists the maximum memory configuration possible with 8-GB RDIMMs.

UDIMM maximum memory configurations

The server blade supports a maximum of 12 GB with one processor and 24 GB with two processors using 2-GB single- or dual-rank UDIMMs.

Advanced ECC memory configuration

Advanced ECC memory is the default memory protection mode for this server blade. Standard ECC can correct single-bit memory errors and detect multi-bit memory errors. When multi-bit errors are detected using Standard ECC, the error is signaled to the server blade and causes the server blade to halt.

Advanced ECC protects the server blade against some multi-bit memory errors. Advanced ECC can correct both single-bit memory errors and 4-bit memory errors if all failed bits are on the same DRAM device on the DIMM.

Advanced ECC provides additional protection over Standard ECC because it is possible to correct certain memory errors that would otherwise be uncorrected and result in a server blade failure. The server blade provides notification that correctable error events have exceeded a pre-defined threshold rate.

Mirrored memory configuration

Mirroring provides protection against uncorrected memory errors that would otherwise result in server blade downtime. Mirroring is performed at the channel level. Channels 1 and 2 are used; channel 3 is not populated.

Data is written to both memory channels. Data is read from one of the two memory channels. If an uncorrectable error is detected in the active memory channel, data is retrieved from the mirror channel. This channel becomes the new active channel, and the system disables the channel with the failed DIMM.

Lockstep memory configuration

Lockstep mode provides protection against multi-bit memory errors that occur on the same DRAM device. Lockstep mode can correct any single DRAM device failure on x4 and x8 DIMM types. The DIMMs in each channel must have identical HP part numbers.

Lockstep mode uses channel 1 and channel 2. Channel 3 is not populated. Because channel 3 cannot be populated when using Lockstep mode, the maximum memory capacity is lower than Advanced ECC mode. Memory performance with Advanced ECC is also slightly higher.

General DIMM slot population guidelines

Observe the following guidelines for all AMP modes:

• Populate DIMM slots for a processor only if the processor is installed.
• To maximize performance in multi-processor configurations, distribute the total memory capacity between all processors as evenly as possible.
  • Do not mix Unbuffered and Registered PC3 DIMMs.
  • Each channel supports up to two Unbuffered DIMMs.
• If quad-rank DIMMs are installed for a processor, a maximum of two DIMMs can be installed on each channel for that processor.

If a channel contains quad-rank DIMMs, the quad-rank DIMM must be installed first on that channel.

DIMM speeds are supported as indicated in the following table.

Advanced ECC population guidelines

For Advanced ECC mode configurations, observe the following guidelines:

• Observe the general DIMM slot population guidelines (on page 31).
  • DIMMs may be installed individually.

Single-processor Advanced ECC population order

For Advanced ECC mode configurations with a single processor, populate the DIMM slots in the following order:

RDIMM: Sequentially in alphabetical order (A through F)
• UDIMM: Sequentially in alphabetical order (A through F).

Multi-processor Advanced ECC population order

For Advanced ECC mode configurations with multiple processors, populate the DIMM slots for each processor in the following order:

RDIMM: Sequentially in alphabetical order (A through F)
• UDIMM: Sequentially in alphabetical order (A through F).

Mirrored Memory population guidelines

For Mirrored Memory mode configurations, observe the following guidelines:

• Observe the general DIMM slot population guidelines (on page 31).
  • Always install DIMMs in channels 1 and 2 for each installed processor.

• Do not install DIMMs in channel 3 for any processor.
  • DIMMs installed on channel 1 and channel 2 of an installed processor must be identical.
  • In multi-processor configurations, each processor must have a valid Mirrored Memory configuration.

• In multi-processor configurations, each processor may have a different valid Mirrored Memory configuration.

Single-processor Mirrored Memory population order

For Mirrored Memory mode configurations with a single processor, populate the DIMM slots in the following order:

RDIMM

• First: A and B
• Next: D and E
  Do not populate slots C or F.

• UDIMM

• First: A and B
• Last: D and E
• Do not populate slots C or F.

After installing the DIMMs, use RBSU to configure the system for Mirrored Memory support ("Configuring mirrored memory" on page 60).

Multi-processor Mirrored Memory population order

For Mirrored Memory mode configurations with multiple processors, populate the DIMM slots for each processor in the following order:

RDIMM

• First: A and B
• Next: D and E
• Do not populate slots C or F.

• UDIMM

• First: A and B
• Last: D and E
• Do not populate slots C or F.

After installing the DIMMs, use RBSU to configure the system for mirrored memory support ("Configuring mirrored memory" on page 60).

Lockstep Memory population guidelines

For Lockstep memory mode configurations, observe the following guidelines:

• Observe the general DIMM slot population guidelines (on page 31).
  • Always install DIMMs in channels 1 and 2 for each installed processor.

• Do not install DIMMs in channel 3 for any processor.

• DIMM configuration on channel 1 and channel 2 of a processor must be identical.
  • In multi-processor configurations, each processor must have a valid Lockstep Memory configuration.

• In multi-processor configurations, each processor may have a different valid Lockstep Memory configuration.

Single-processor Lockstep population order

For Lockstep memory mode configurations with a single processor, populate the DIMM slots in the following order:

RDIMM

• First: A and B
• Next: D and E
• Do not populate slots C or F.

• UDIMM

• First: A and B
• Last: D and E
  Do not populate slots C or F.

After installing the DIMMs, use RBSU to configure the system for Lockstep memory support ("Configuring lockstep memory" on page 60).

Multi-processor Lockstep population order

For Lockstep memory mode configurations with multiple processors, populate the DIMM slots for each processor in the following order:

RDIMM

• First: A and B
• Next: D and E
  Do not populate slots C or F.

• UDIMM

• First: A and B
• Last: D and E
  Do not populate slots C or F.

After installing the DIMMs, use RBSU to configure the system for Lockstep memory support ("Configuring lockstep memory" on page 60).

Configuring the air baffle for DIMM installation

Before installing DIMMs in the server blade, always configure the air baffle depending on which DIMMs are being installed.

Air baffle configuration for 8-GB DIMMs or larger

1. Remove the air flow cover from each end of the air baffle.

1. To store the air flow covers, install the two air flow covers on the top of the air baffle.

Air baffle configuration for all other DIMMs

1. Remove the two air flow covers from the top of the air baffle.

1. Install the air flow covers on each end of the air baffle.

Installing a DIMM

CAUTION: To avoid damage to the hard drives, memory, and other system components, the air baffle, drive blanks, and access panel must be installed when the server is powered up.

1. Power down the server blade (on page 11).

2. Remove the server blade (on page 12).

3. Remove the access panel (on page 13).

4. If installed, disconnect the hard drive power and data cables from the system board ("Hard drive connector identification" on page 9).
5. Remove the air baffle.
6. Configure the air baffle ("Configuring the air baffle for DIMM installation" on page 33).
7. Open the DIMM slot latches.
8. Install the DIMM.

1. Install the air baffle (on page 13).
2. If removed, connect the hard drive power and data cables to the system board ("Hard drive connector identification" on page 9).
3. Install the access panel (on page 13).

If you are installing DIMMs in mirrored or lock-step configuration, configure this mode in RBSU ("HP ROM-Based Setup Utility" on page 58).

Mezzanine card option

Optional mezzanine cards are classified as Type I mezzanine cards and Type II mezzanine cards. The card type determines where it can be installed in the server blade.

• Install Type I mezzanine cards on either mezzanine 1 connector or mezzanine 2 connector.
• Install Type II mezzanine cards only on mezzanine 2 connector.

Optional mezzanine cards enable network connectivity or provide Fibre Channel support. For mezzanine card locations, see the system board components (on page 8).

For mezzanine card mapping, see the HP ProLiant BL280c G6 Server Blade Installation Instructions or see "Interconnect bay numbering and device mapping (on page 16)."

Because mezzanine cards are supported on multiple server blade models, the mezzanine card may have captive screws that are not required to secure it to the server blade. When installing a mezzanine card in this server blade, only two captive screws are required.

To install the component:

1. Power down the server blade (on page 11).
2. Remove the server blade (on page 12).
3. Remove the access panel (on page 13).
4. Remove the mezzanine connector cover.

1. Install the mezzanine card. Press down on the connector to seat the board.

1. Install the access panel (on page 13).
2. Install the server blade ("Installing a server blade" on page 18).

HP Smart Array P712m Controller option

A SAS cache module option and BBWC battery pack option can be purchased separately and installed with the HP Smart Array P712m Controller option.

The HP Smart Array P712m Controller option does not support hard drive activity LEDs when installed in the HP ProLiant BL280c G6 Server Blade.

WARNING: To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them.

To install the component:

1. Power down the server blade (on page 11).
2. Remove the server blade (on page 12).
3. Remove the access panel (on page 13).
4. If installed, disconnect the hard drive power and data cables from the system board ("Hard drive connector identification" on page 9).
5. Remove the air baffle.

6. Do one of the following:

7. Remove the hard drive spacer from each hard drive bay.

8. Remove all SATA hard drives and hard drive spacers from each hard drive bay.

CAUTION: When installing SAS hard drives in the server blade, always install the standard hard drive screws provided with the server blade. Installing the long hard drive screws, located on the hard drive spacer, can damage the hard drive.

1. Install the SAS hard drives.

1. Connect hard drive cable 1 to hard drive 1.
2. Connect hard drive cable 2 to hard drive 2.
3. Route the cables through the air baffle.

1. Install the air baffle (on page 13).

2. Remove the mezzanine connector cover.

1. Connect hard drive data cable 1 to SAS connector 1 on the controller.
2. Connect hard drive data cable 2 to SAS connector 2 on the controller.

1. Install the controller. Press down on the connector to seat the board.

1. Connect the hard drive power cables to the hard drive power connectors on the system board. The power cables can connect to either of the hard drive power connectors on the system board.

1. (Optional) Connect the BBWC battery pack to the cache module.

1. (Optional) Install the cache module on the controller.

1. (Optional) Install the BBWC battery pack on the air baffle. If excess BBWC cable exists, loop and store the extra cable in the available space on the air baffle.

1. Install the access panel (on page 13).

2. Install the server blade ("Installing a server blade" on page 18).

HP Trusted Platform Module option

Use these instructions to install and enable a TPM on a supported server blade. This procedure includes three sections:

1. Installing the Trusted Platform Module board (on page 44).
2. Retaining the recovery key/password (on page 45).
3. Enabling the Trusted Platform Module (on page 45).

Enabling the TPM requires accessing the ROM-Based Setup Utility (RBSU) ("HP ROM-Based Setup Utility" on page 58). For more information about RBSU, see the HP website (http://www.hp.com/support/smartstart/documentation).

TPM installation requires the use of drive encryption technology, such as the Microsoft® Windows® BitLocker™ Drive Encryption feature. For more information on BitLocker™, see the Microsoft website (http://www.microsoft.com).

CAUTION: Always observe the guidelines in this document. Failure to follow these guidelines can cause hardware damage or halt data access.

When installing or replacing a TPM, observe the following guidelines:

• Do not remove an installed TPM. Once installed, the TPM becomes a permanent part of the system board.
• When installing or replacing hardware, HP service providers cannot enable the TPM or the encryption technology. For security reasons, only the customer can enable these features.

• When returning a system board for service replacement, do not remove the TPM from the system board. When requested, HP Service provides a TPM with the spare system board.

• Any attempt to remove an installed TPM from the system board breaks or disfigures the TPM security rivet. Upon locating a broken or disfigured rivet on an installed TPM, administrators should consider the system compromised and take appropriate measures to ensure the integrity of the system data.

• When using BitLocker™, always retain the recovery key/password. The recovery key/password is required to enter Recovery Mode after BitLocker™ detects a possible compromise of system integrity.
  HP is not liable for blocked data access caused by improper TPM use. For operating instructions, see the encryption technology feature documentation provided by the operating system.

Installing the Trusted Platform Module board

WARNING: To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them.

1. Power down the server blade (on page 11).
2. Remove the server blade (on page 12).
3. Place the server blade on a flat, level work surface.

4. Remove the access panel (on page 13).

5. Remove all mezzanine cards ("Mezzanine card option" on page 36).

CAUTION: Any attempt to remove an installed TPM from the system board breaks or disfigures the TPM security rivet. Upon locating a broken or disfigured rivet on an installed TPM, administrators should consider the system compromised and take appropriate measures to ensure the integrity of the system data.

1. Install the TPM board. Press down on the connector to seat the board ("System board components" on page 8).

1. Install the TPM security rivet by pressing the rivet firmly into the system board.

1. Install all mezzanine cards ("Mezzanine card option" on page 36).

2. Install the access panel (on page 13).

3. Install the server blade ("Installing a server blade" on page 18).

Retaining the recovery key/password

The recovery key/password is generated during BitLocker™ setup, and can be saved and printed after BitLocker™ is enabled. When using BitLocker™, always retain the recovery key/password. The recovery key/password is required to enter Recovery Mode after BitLocker™ detects a possible compromise of system integrity.

To help ensure maximum security, observe the following guidelines when retaining the recovery key/password:

• Always store the recovery key/password in multiple locations.
• Always store copies of the recovery key/password away from the server blade.
• Do not save the recovery key/password on the encrypted hard drive.

Enabling the Trusted Platform Module

1. When prompted during the start-up sequence, access RBSU by pressing the F9 key.
2. From the Main Menu, select Server Security.
3. From the Server Security Menu, select Trusted Platform Module.
4. From the Trusted Platform Module Menu, select TPM Functionality.
5. Select Enable, and then press the Enter key to modify the TPM Functionality setting.
6. Press the Esc key to exit the current menu, or press the F10 key to exit RBSU.
7. Reboot the server blade.
8. Enable the TPM in the OS. For OS-specific instructions, see the OS documentation.

CAUTION: When a TPM is installed and enabled on the server blade, data access is locked if you fail to follow the proper procedures for updating the system or option firmware, replacing the system board, replacing a hard drive, or modifying OS application TPM settings.

For more information on firmware updates and hardware procedures, see the HP Trusted Platform Module Best Practices White Paper on the HP website (http://www.hp.com/support).

For more information on adjusting TPM usage in BitLocker™, see the Microsoft website (http://technet.microsoft.com/en-us/library/cc732774.aspx).

Cabling

SATA hard drive cabling

CAUTION: When routing cables, always be sure that the cables are not in a position where they can be pinched or crimped.

Optional SAS hard drive cabling

CAUTION: When routing cables, always be sure that the cables are not in a position where they can be pinched or crimped.

The server blade supports SAS hard drives when the HP Smart Array P712m Controller is installed. For more information, see "HP Smart Array P712m Controller option (on page 37)."

Using the HP c-Class Blade SUV Cable

The HP c-Class Blade SUV Cable enables the user to perform server blade administration, configuration, and diagnostic procedures by connecting video and USB devices directly to the server blade. For SUV cable connectors, see "HP c-Class Blade SUV Cable (on page 10)."

Connecting locally to a server blade with video and USB devices

Use the SUV cable to connect a monitor and any of the following USB devices:

• USB hub
• USB keyboard
• USB mouse
  • USB CD/DVD-ROM drive
• USB diskette drive

Numerous configurations are possible. This section offers two possible configurations. For more information, see "USB support and functionality (on page 63)."

Accessing a server blade with local KVM

For this configuration, a USB hub is not necessary. To connect additional devices, use a USB hub.

CAUTION: Before disconnecting the SUV cable from the connector, always squeeze the release buttons on the sides of the connector. Failure to do so can result in damage to the equipment.

1. Connect the SUV cable to the server blade.

2. Connect the video connector to a monitor.

3. Connect a USB mouse to one USB connector.
4. Connect a USB keyboard to the second USB connector.

Accessing a server blade with local media devices

Use the following configuration when configuring a server blade or loading software updates and patches from a USB CD/DVD-ROM or a USB diskette.

Use a USB hub when connecting a USB diskette drive and/or USB CD-ROM drive to the server blade. The USB hub provides additional connections.

1. Connect the SUV cable to the server blade.
2. Connect the video connector to a monitor.
3. Connect a USB hub to one USB connector.
4. Connect the following to the USB hub:
   USB CD/DVD-ROM drive
5. USB keyboard
6. USB mouse

- USB diskette

Software and configuration utilities

Server blade deployment tools

Software drivers and additional components

HP offers the following additional software components for server blades:

• Health and Wellness driver and IML viewer
• iLO 2 Management interface driver
• Rack infrastructure interface service

For Microsoft® Windows® OS users, these items are included in the HP ProLiant iLO 2 Standard Blade Edition, available from the HP website (http://www.hp.com/servers/lights-out).

Linux OS users can download these components from the HP website (http://www.hp.com/products/servers/linux).

For information on how to use these components with a Linux OS, see the HP website (http://h18000.www1.hp.com/products/servers/linux/documentation.html).

HP BladeSystem c-Class Advanced management

iLO 2 is a standard component of ProLiant c-Class server blades that provides server health and remote server blade manageability. Its features are accessed from a network client device using a supported web browser. In addition to other features, iLO 2 provides keyboard, mouse, and video (text and graphics) capability for a server blade, regardless of the state of the host OS or host server blade.

iLO 2 includes an intelligent microprocessor, secure memory, and a dedicated network interface. This design makes iLO 2 independent of the host server blade and its OS. iLO 2 provides remote access to any authorized network client, sends alerts, and provides other server blade management functions.

Using a supported web browser, you can:

• Remotely access the console of the host server blade, including all text mode and graphics mode screens with full keyboard and mouse controls.
• Remotely power up, power down, or reboot the host server blade.
• Remotely boot a host server blade to a virtual media image to perform a ROM upgrade or install an OS.
• Send alerts from iLO 2 regardless of the state of the host server blade.
• Access advanced troubleshooting features provided by iLO 2.
• Launch a web browser, use SNMP alerting, and diagnose the server blade with HP SIM.
• Configure static IP bay settings for the dedicated iLO 2 management NICs on each server blade in an enclosure for faster deployment.

To connect to the server blade using iLO 2, install the server blade in an enclosure. Onboard Administrator assigns an IP address to enable iLO 2 connectivity to the server blade.

The c-Class tab enables you to control specific settings for the HP BladeSystem. iLO 2 also provides web-based status for the HP BladeSystem configuration.

For detailed information about iLO 2, refer to the HP Integrated Lights-Out User Guide on the HP website (http://www.hp.com/servers/lights-out).

Network-based PXE deployment

PXE is a component of the Intel® WfM specification. The PXE model enables server blades to load and execute an NBP from a PXE server and to execute a pre-configured image. The image can be an OS image created by software utilities or a boot diskette image. This feature enables a user to configure a server blade and install an OS over a network.

Deployment overview

When a PXE-enabled target server blade boots, it obtains an IP address from a DHCP server. The target server blade obtains the name of the NBP from the appropriate boot server. Then, the target server blade uses TFTP to download the NBP from the boot server and executes the image.

IMPORTANT: To connect to a network with a Pass-Thru module, always connect the Pass-Thru module to a network device that supports Gigabit speed.

For each server blade being deployed, the PXE server must be connected to the NIC designated for PXE. The server blade defaults PXE functions to NIC 1, but any of the NC series NICs in the server blade can be designated for PXE in RBSU. For NIC connector locations, refer to the documentation included with the server blade.

NOTE: Actual NIC numeration depends on several factors, including the OS installed on the server blade.

To deploy an OS to multiple server blades, install a PXE deployment server on a network.

Deployment infrastructure

IMPORTANT: To connect to a network with a Pass-Thru module, always connect the Pass-Thru module to a network device that supports Gigabit speed.

To establish a network-based PXE deployment infrastructure, provide the following software and minimum hardware:

- Client PC (administrative workstation)

AMD Athlon™ XP processor (700 MHz or greater recommended), AMD Athlon™ 64 processor, or Intel® Pentium® III or higher processor (700 MHz or greater recommended)
- 128 MB of RAM
- Microsoft® Windows® 2000 Professional or Microsoft® Windows® XP OS
- Microsoft® Internet Explorer 5.5 or above with 128-bit encryption
- Ethernet NIC with 10/100 RJ-45 connector
- TCP/IP networking and an IP address compatible with one of the following: the iLO 2 Diagnostic Port IP address or an assigned DHCP or static IP address
- CD-ROM drive, CD/DVD-ROM drive, and/or diskette drive

- Any of the following Java™ Runtime Environment versions:

1.3.1_02
1.3.1_07
1.3.1_08
1.4.1 for Windows® users only
1.4.2 for Linux users only

Access the Java™ Runtime Environment versions at the HP website (http://java.sun.com/products/archive/index.html).

• DHCP server (IP address assignment)

AMD Athlon™ XP processor (700 MHz or greater recommended), AMD Athlon™ 64 processor, or Intel® Pentium® or Pentium® II 200-MHz or faster processor
- 64 MB of RAM
- 64 MB of free hard drive space
- 10-Mb/s network adapter

• PXE deployment server (storing boot images)

AMD Athlon™ XP processor (700 MHz or greater recommended), AMD Athlon™ 64 processor, or Intel® Pentium® III or higher processor (500 MHz recommended)
- 256 MB of RAM
- 10-Mb/s network adapter
- CD-ROM drive

- Windows® repository server (Windows® or Linux deployment)

• Windows® 2000 or Windows Server® 2003 OS installed
• Network connection
• CD-ROM drive
• 1.5 GB of available disk space
• TCP/IP networking and an IP address compatible with one of the following: the iLO 2 Diagnostic Port IP address or an assigned DHCP or static IP address
• CD-ROM drive and/or diskette drive
• Any of the following Java™ Runtime Environment versions:

1.3.1_02
1.3.1_07
1.3.1_08
1.4.1 for Windows® users only
1.4.2 for Linux users only

Access the Java™ Runtime Environment versions at the HP website (http://java.sun.com/products/archive/index.html).

• Network server with an OS installed

Deployment methods

Four primary deployment methods are supported:

IMPORTANT: To deploy a server blade without the HP Insight Control server deployment, create a bootable diskette or image of a bootable diskette.

• PXE deployment (on page 54)
• CD-ROM deployment (on page 55)
• Diskette image deployment (on page 56)
• SAN configuration (on page 57)

PXE deployment

PXE enables server blades to load an image over the network from a PXE server, and then execute it in memory. The first NIC on the server blade is the default PXE boot NIC, but any of the other NC series NICs can be configured to boot PXE. For more information, see "Network-based PXE deployment (on page 52)."

Actual NIC numeration depends on several factors, including the OS installed on the server blade.

HP recommends using one of the following methods for PXE deployment:

HP Insight Control server deployment (formerly Rapid Deployment Pack)

HP Insight Control is essential server management that unlocks the management capabilities built into HP ProLiant servers. Insight Control delivers powerful capabilities that enable customers to proactively manage ProLiant server health - whether physical or virtual, deploy ProLiant servers quickly, optimize power consumption, and control ProLiant servers from anywhere.

HP Insight Control server deployment is a key component of Insight Control which provides an automated, simple-to-use solution for bare-metal deployment and configuration of HP ProLiant servers with an operating system or virtualization platform. Insight Control server deployment includes an unaltered Altiris Deployment Solution while providing optimization for deployment of HP ProLiant servers using HP ProLiant Integration Module.

HP Insight Control facilitates the installation, configuration, and deployment of high-volumes of servers through an intuitive, comprehensive console, using either scripting or imaging technology. It makes deploying a server as easy as selecting one, a few, or hundreds of target servers, selecting predefined images or scripts, and clicking Run.

For more information about HP Insight Control, see the HP website (http://www.hp.com/go/insightcontrol).

SmartStart Scripting Toolkit

The SmartStart Scripting Toolkit is a server deployment product that allows you to build an unattended automated installation for high-volume server deployments. The SmartStart Scripting Toolkit is designed to support ProLiant BL, ML, DL, and SL servers. The toolkit includes a modular set of utilities and important documentation that describes how to apply these tools to build an automated server deployment process.

The Scripting Toolkit provides a flexible way to create standard server configuration scripts. These scripts are used to automate many of the manual steps in the server configuration process. This automated server configuration process cuts time from each deployment, making it possible to scale rapid, high-volume server deployments.

For more information, and to download the SmartStart Scripting Toolkit, see the HP website (http://www.hp.com/servers/sstoolkit).

SmartStart Scripting Toolkit

The SmartStart Scripting Toolkit is a server deployment product that allows you to build an unattended automated installation for high-volume server deployments. The SmartStart Scripting Toolkit is designed to support ProLiant BL, ML, DL, and SL servers. The toolkit includes a modular set of utilities and important documentation that describes how to apply these tools to build an automated server deployment process.

The Scripting Toolkit provides a flexible way to create standard server configuration scripts. These scripts are used to automate many of the manual steps in the server configuration process. This automated server configuration process cuts time from each deployment, making it possible to scale rapid, high-volume server deployments.

For more information, and to download the SmartStart Scripting Toolkit, see the HP website (http://www.hp.com/servers/sstoolkit).

CD-ROM deployment

CD-ROM deployment involves using a bootable CD that executes scripts to configure the hardware and install the OS. After the OS is configured, the server blade can access the network to locate the scripts and files necessary for deployment. Before beginning the deployment process, connect the server blade to the network.

NOTE: For more information about hardware and cabling configurations, see the documents that ship with the enclosure.

Two methods are available for CD-ROM deployment:

• iLO virtual CD-ROM (on page 55)
• USB CD-ROM (on page 55)

iLO virtual CD-ROM

To deploy with a boot CD:

1. Do one of the following:

2. Insert the boot CD into the client PC using the iLO 2 Remote Console.

3. Use iLO 2 to create an image file of the boot CD.

4. Copy the image of the boot CD to a location on the network or the client PC hard drive.

5. Remotely access the server blade through iLO 2. See "HP BladeSystem c-Class advanced management (on page 51)."

6. Click the Virtual Media tab.

7. Select the Virtual Media applet.
8. Use the Virtual Media applet to select the local CD or image file and connect the Virtual CD to the server blade.
9. Use the iLO 2 Virtual Power Button feature to reboot the server blade.
10. After the server blade boots, follow the normal network installation procedure for the OS.

USB CD-ROM

This method uses SmartStart to facilitate loading the OS. However, SmartStart also allows for manual loading of the OS and drivers.

To deploy with a boot CD:

1. Use the HP c-Class Blade SUV Cable to connect a USB CD-ROM drive to the server blade. Refer to "Connecting locally to a server blade with video and USB devices (on page 48)."
2. Insert the boot CD into the USB CD-ROM drive.
3. Reboot the server blade.
4. After the server blade boots, follow the normal installation procedure for an OS.

Windows Server® 2003 cannot be installed from a USB CD-ROM on the HP c-Class Blade SUV Cable if the hard drive is completely blank (no partitions defined). To install Windows Server® 2003, use one of the following methods:

Make a partition on the hard drive that Windows Server® 2003 will be loaded on.
• Use the SmartStart CD 7.60 or later.
- Use the Rapid Deployment Pack. For instructions, see the HP website (http://h18013.www1.hp.com/products/servers/management/rdp.html?jumpid=reg_R1002_USEN).

Diskette image deployment

To deploy with a diskette image, the user creates a DOS-based network-enabled boot diskette that executes a script that configures the hardware and installs the OS. The diskette enables the server blade to access the required deployment scripts and files on the network.

This method implies a deployment infrastructure that may include an administrator workstation, PXE server, Microsoft® Windows® file share, or a Linux file share. For more information, refer to "Deployment infrastructure (on page 52)."

Before beginning the deployment process, connect the server blade to the network.

NOTE: For more information about hardware and cabling configurations, see the documents that ship with the enclosure.

Two methods are available for diskette image deployment:

• iLO virtual floppy (on page 57)
- PXE ("PXE deployment" on page 54)

Creating a boot diskette

The SmartStart Scripting Toolkit provides the tools and information for creating a boot diskette. For details, refer to the SmartStart Scripting Toolkit User Guide and download the latest version of the software from the HP website (http://www.hp.com/servers/sstoolkit).

As an alternative method, configure the hardware manually with RBSU and the iLO 2 remote console. With this method, the disk is more generic and integrates with an existing network OS installation process. For more information, refer to "HP BladeSystem c-Class advanced management (on page 51)."

To operate properly, the server blade must have a supported OS. For the latest information on a supported OS, refer to the HP website (http://www.hp.com/go/supportos).

iLO virtual floppy

To deploy with a boot diskette:

1. Do one of the following:

2. Insert the boot diskette into the client PC using the iLO 2 Remote Console.

3. Use iLO 2 to create an image file of the boot diskette.

4. Copy the image of the boot diskette to a location on the network or the client PC hard drive.

5. Remotely access the server blade through iLO 2. See "HP BladeSystem c-Class advanced management (on page 51)."

6. Click the Virtual Media tab.

7. Select the Virtual Media applet.
8. Use the Virtual Media applet to select the local diskette or image file and connect the Virtual CD to the server blade.
9. Use the iLO 2 Virtual Power Button feature to reboot the server blade.
10. After the server blade boots, follow the normal network installation procedure for the OS.

SAN configuration

The server blade provides FC support for SAN implementations. This solution uses an optional FCA that offers redundant SAN connectivity and optimization for HP StorageWorks products. The server blade is also compatible with certain third-party SAN products. For more information, refer to the documentation that ships with the FCA option.

For optimal SAN connectivity, observe the following guidelines:

• The FCA option is installed correctly in the server blade. Refer to the documentation that ships with the FCA option.
• An FC-compatible interconnect is installed in the enclosure. Refer to the documentation that ships with the interconnect option.
• The server blade enclosure management module firmware is up-to-date. Refer to the HP Business Support Center website (http://www.hp.com/support).
  • The server blade is cabled properly to a supported SAN.
  • SAN storage drivers are loaded. Refer to supporting white papers and the HP website (http://www.hp.com/servers/rdp).

For SAN configuration information for the server blade, refer to the HP StorageWorks SAN Design Reference Guide on the HP website

(http://h18000.www1.hp.com/products/storageworks/san/documentation.html).

Configuration tools

SmartStart software

SmartStart is a collection of software that optimizes single-server setup, providing a simple and consistent way to deploy server configuration. SmartStart has been tested on many ProLiant server products, resulting in proven, reliable configurations.

SmartStart assists the deployment process by performing a wide range of configuration activities, including:

• Preparing the system for installing "off-the-shelf" versions of leading operating system software
• Installing optimized server drivers, management agents, and utilities automatically with every assisted installation
- Testing server hardware using the Insight Diagnostics Utility ("HP Insight Diagnostics" on page 64)
- Installing software drivers directly from the CD. With systems that have Internet connection, the SmartStart Autorun Menu provides access to a complete list of Proliant system software.
- Enabling access to the Array Configuration Utility (on page 60) and Erase Utility (on page 63)

SmartStart is included in the HP Insight Foundation suite for ProLiant. For more information about SmartStart software, see the HP Insight Foundation suite for ProLiant or the HP website (http://www.hp.com/go/foundation).

HP ROM-Based Setup Utility

RBSU is a configuration utility embedded in ProLiant servers that performs a wide range of configuration activities that can include the following:

• Configuring system devices and installed options
  • Enabling and disabling system features
  • Displaying system information
• Selecting the primary boot controller
• Configuring memory options
• Language selection

For more information on RBSU, see the HP ROM-Based Setup Utility User Guide on the Documentation CD or the HP website (http://www.hp.com/support/smartstart/documentation).

Using RBSU

To use RBSU, use the following keys:

• To access RBSU, press the F9 key during power-up when prompted.
• To navigate the menu system, use the arrow keys.
• To make selections, press the Enter key.
• To access Help for a highlighted configuration option, press the F1 key.

IMPORTANT: RBSU automatically saves settings when you press the Enter key. The utility does not prompt you for confirmation of settings before you exit the utility. To change a selected setting, you must select a different setting and press the Enter key.

Default configuration settings are applied to the server at one of the following times:

• Upon the first system power-up
• After defaults have been restored

Default configuration settings are sufficient for proper typical server operation, but configuration settings can be modified using RBSU. The system will prompt you for access to RBSU with each power-up.

Auto-configuration process

The auto-configuration process automatically runs when you boot the server for the first time. During the power-up sequence, the system ROM automatically configures the entire system without needing any intervention. During this process, the ORCA utility, in most cases, automatically configures the array to a default setting based on the number of drives connected to the server.

NOTE: The server may not support all the following examples.

NOTE: If the boot drive is not empty or has been written to in the past, ORCA does not automatically configure the array. You must run ORCA to configure the array settings.

To change any ORCA default settings and override the auto-configuration process, press the F8 key when prompted.

By default, the auto-configuration process configures the system for the English language. To change any default settings in the auto-configuration process (such as the settings for language, operating system, and primary boot controller), execute RBSU by pressing the F9 key when prompted. After the settings are selected, exit RBSU and allow the server to reboot automatically.

For more information on RBSU, see the HP ROM-Based Setup Utility User Guide on the Documentation CD or the HP website (http://www.hp.com/support/smartstart/documentation).

Boot options

Near the end of the boot process, the boot options screen is displayed. This screen is visible for several seconds before the system attempts to boot from a supported boot device. During this time, you can do the following:

• Access RBSU by pressing the F9 key.
- Access the System Maintenance Menu (which enables you to launch ROM-based Diagnostics or Inspect) by pressing the F10 key.
- Access the boot menu by pressing the F11 key.
• Force a PXE Network boot by pressing the F12 key.

BIOS Serial Console

BIOS Serial Console allows you to configure the serial port to view POST error messages and run RBSU remotely through a serial connection to the server COM port. The server that you are remotely configuring does not require a keyboard and mouse.

For more information about BIOS Serial Console, see the BIOS Serial Console User Guide on the Documentation CD or the HP website (http://www.hp.com/support/smartstart/documentation).

Configuring mirrored memory

To configure mirrored memory:

1. Install the required DIMMs ("Installing a DIMM" on page 35).
2. Access RBSU by pressing the F9 key during power-up when the prompt is displayed.
3. Select System Options.
4. Select Advanced Memory Protection.
5. Select Mirrored Memory with Advanced ECC Support.
6. Press the Enter key.
7. Press the Esc key to exit the current menu or press the F10 key to exit RBSU.

For more information on mirrored memory, see the white paper on the HP website (http://h18000.www1.hp.com/products/servers/technology/memoryprotection.html).

Configuring lockstep memory

To configure Lockstep memory:

1. Install the required DIMMs ("Installing a DIMM" on page 35).
2. Access RBSU by pressing the F9 key during power-up when the prompt is displayed.
3. Select System Options.
4. Select Advanced Memory Protection.
5. Select Lockstep with Advanced ECC Support.
6. Press the Enter key.
7. Press the Esc key to exit the current menu, or press the F10 key to exit RBSU.

For more information on Lockstep memory, see the white paper on the HP website (http://h18000.www1.hp.com/products/servers/technology/memoryprotection.html).

Array Configuration Utility

ACU is a browser-based utility with the following features:

• Runs as a local application or remote service
  • Supports online array capacity expansion, logical drive extension, assignment of online spares, and RAID or stripe size migration
  • Suggests the optimum configuration for an unconfigured system
• Provides different operating modes, enabling faster configuration or greater control over the configuration options
  • Remains available any time that the server is on
  • Displays on-screen tips for individual steps of a configuration procedure
• Beginning with ACU version 8.28.13.0, provides diagnostic functionality on the Diagnostics tab (formerly known as Array Diagnostics Utility).

For optimum performance, the minimum display settings are 1024 × 768 resolution and 16-bit color. Servers running Microsoft® operating systems require one of the following supported browsers:

• Internet Explorer 6.0 or later

- Mozilla Firefox 2.0 or later

For Linux servers, see the README.TXT file for additional browser and support information.

For more information, see the Configuring Arrays on HP Smart Array Controllers Reference Guide on the Documentation CD or the HP website (http://www.hp.com).

Option ROM Configuration for Arrays

Before installing an operating system, you can use the ORCA utility to create the first logical drive, assign RAID levels, and establish online spare configurations.

The utility also provides support for the following functions:

• Reconfiguring one or more logical drives
• Viewing the current logical drive configuration
• Deleting a logical drive configuration
- Setting the controller to be the boot controller

If you do not use the utility, ORCA will default to the standard configuration.

For more information regarding array controller configuration, refer to the controller user guide.

For more information regarding the default configurations that ORCA uses, refer to the HP ROM-Based Setup Utility User Guide on the Documentation CD.

Re-entering the server serial number and product ID

After you replace the system board, you must re-enter the server blade serial number and the product ID.

1. During the server blade startup sequence, press the F9 key to access RBSU.
2. Select the Advanced Options menu.
3. Select Service Options.
4. Select Serial Number. The following warnings appear:

WARNING! WARNING! WARNING! The serial number is loaded into the system during the manufacturing process and should NOT be modified. This option should only be used by qualified service personnel. This value should always match the serial number sticker located on the chassis.

Warning: The serial number should ONLY be modified by qualified personnel. This value should always match the serial number located on the chassis.

1. Press the Enter key to clear the warning.
2. Enter the serial number and press the Enter key.

3. Select Product ID. The following warning appears:
   Warning: The Product ID should ONLY be modified by qualified personnel. This value should always match the Product ID on the chassis.

4. Enter the product ID and press the Enter key.

5. Press the Esc key to close the menu.

6. Press the Esc key to exit RBSU.

7. Press the F10 key to confirm exiting RBSU. The server blade automatically reboots.

Management tools

Automatic Server Recovery

ASR is a feature that causes the system to restart when a catastrophic operating system error occurs, such as a blue screen, ABEND, or panic. A system fail-safe timer, the ASR timer, starts when the System Management driver, also known as the Health Driver, is loaded. When the operating system is functioning properly, the system periodically resets the timer. However, when the operating system fails, the timer expires and restarts the server.

ASR increases server availability by restarting the server within a specified time after a system hang or shutdown. At the same time, the HP SIM console notifies you by sending a message to a designated pager number that ASR has restarted the system. You can disable ASR from the HP SIM console or through RBSU.

ROMPaq utility

The ROMPaq utility enables you to upgrade the system firmware (BIOS). To upgrade the firmware, insert a ROMPaq USB Key into an available USB port and boot the system. In addition to ROMPaq, Online Flash Components for Windows and Linux operating systems are available for updating the system firmware.

The ROMPaq utility checks the system and provides a choice (if more than one exists) of available firmware revisions.

For more information, see the Download drivers and software page for the server blade. To access the server-specific page, enter the following web address into the browser:

http://www.hp.com/support/

For example:

http://www.hp.com/support/dl360g6

Integrated Lights-Out 2 technology

The iLO 2 subsystem is a standard component of selected ProLiant servers that provides server health and remote server manageability. The iLO 2 subsystem includes an intelligent microprocessor, secure memory, and a dedicated network interface. This design makes iLO 2 independent of the host server and its operating system. The iLO 2 subsystem provides remote access to any authorized network client, sends alerts, and provides other server management functions.

Using iLO 2, you can:

• Remotely power up, power down, or reboot the host server.
- Send alerts from iLO 2 regardless of the state of the host server.
- Access advanced troubleshooting features through the iLO 2 interface.
• Diagnose iLO 2 using HP SIM through a web browser and SNMP alerting.

For more information about iLO 2 features (which may require an iLO Advanced Pack or iLO Advanced for BladeSystem license), see the iLO 2 documentation on the Documentation CD or on the HP website (http://www.hp.com/servers/lights-out).

Erase Utility

CAUTION: Perform a backup before running the System Erase Utility. The utility sets the system to its original factory state, deletes the current hardware configuration information, including array setup and disk partitioning, and erases all connected hard drives completely. Refer to the instructions for using this utility.

Run the Erase Utility if you must erase the system for the following reasons:

• You want to install a new operating system on a server blade with an existing operating system.
• You encounter an error when completing the steps of a factory-installed operating system installation.

To access the Erase Utility, use the System Erase button on the home screen of the SmartStart CD ("SmartStart software" on page 57).

Redundant ROM support

The server enables you to upgrade or configure the ROM safely with redundant ROM support. The server has a 8-MB ROM that acts as two, separate 4-MB ROMs. In the standard implementation, one side of the ROM contains the current ROM program version, while the other side of the ROM contains a backup version.

NOTE: The server ships with the same version programmed on each side of the ROM.

Safety and security benefits

When you flash the system ROM, ROMPaq writes over the backup ROM and saves the current ROM as a backup, enabling you to switch easily to the alternate ROM version if the new ROM becomes corrupted for any reason. This feature protects the existing ROM version, even if you experience a power failure while flashing the ROM.

USB support and functionality

USB support

HP provides both standard USB 2.0 support and legacy USB 2.0 support. Standard support is provided by the OS through the appropriate USB device drivers. Before the OS loads, HP provides support for USB devices through legacy USB support, which is enabled by default in the system ROM.

Legacy USB support provides USB functionality in environments where USB support is not available normally. Specifically, HP provides legacy USB functionality for the following:

POST
RBSU
• Diagnostics
• DOS
- Operating environments which do not provide native USB support

Internal USB functionality

An internal USB connector is available for use with security key devices and USB drive keys. This solution provides for use of a permanent USB key installed in the internal connector, avoiding issues of clearance on the front of the rack and physical access to secure data.

External USB functionality

HP provides external USB support to enable local connection of USB devices for server blade administration, configuration, and diagnostic procedures. For more information, see "Using the HP c-Class Blade SUV Cable (on page 48)."

For additional security, external USB functionality can be disabled through RBSU. Disabling external USB support in RBSU disables the USB connectors on the HP c-Class Blade SUV Cable.

Internal SD support

An internal SD connector is available for use with embedded Hypervisors. This solution provides for use of a permanently installed SD card in the internal connector, decreasing the possibility of tampering or loss.

Diagnostic tools

HP Insight Diagnostics

HP Insight Diagnostics is a proactive server blade management tool, available in both offline and online versions, that provides diagnostics and troubleshooting capabilities to assist IT administrators who verify server blade installations, troubleshoot problems, and perform repair validation.

HP Insight Diagnostics Offline Edition performs various in-depth system and component testing while the OS is not running. To run this utility, launch the SmartStart CD.

HP Insight Diagnostics Online Edition is a web-based application that captures system configuration and other related data needed for effective server blade management. Available in Microsoft® Windows® and Linux versions, the utility helps to ensure proper system operation.

For more information or to download the utility, refer to the HP website (http://www.hp.com/servers/diags).

HP Insight Diagnostics survey functionality

HP Insight Diagnostics (on page 64) provides survey functionality that gathers critical hardware and software information on ProLiant server blades.

This functionality supports operating systems that may not be supported by the server blade. For operating systems supported by the server blade, see the HP website (http://www.hp.com/go/supportos).

If a significant change occurs between data-gathering intervals, the survey function marks the previous information and overwrites the survey data files to reflect the latest changes in the configuration.

Survey functionality is installed with every SmartStart-assisted HP Insight Diagnostics installation, or it can be installed through the HP PSP ("ProLiant Support Packs" on page 66).

NOTE: The current version of SmartStart provides the memory spare part numbers for the server blade. To download the latest version, see the HP website (http://www.hp.com/support).

Integrated Management Log

The IML records hundreds of events and stores them in an easy-to-view form. The IML timestamps each event with 1-minute granularity.

You can view recorded events in the IML in several ways, including the following:

• From within HP SIM
  • From within Survey Utility
  • From within operating system-specific IML viewers
• For NetWare: IML Viewer
• For Windows®: IML Viewer
• For Linux: IML Viewer Application
  • From within the iLO 2 user interface
  • From within HP Insight Diagnostics (on page 64)

For more information, see the Management CD in the HP Insight Foundation suite for ProLiant.

Remote support and analysis tools

HP Insight Remote Support software

HP strongly recommends that you install HP Insight Remote Support software to complete the installation or upgrade of your product and to enable enhanced delivery of your HP Warranty, HP Care Pack Service, or HP contractual support agreement. HP Insight Remote Support supplements your monitoring 24 x 7 to ensure maximum system availability by providing intelligent event diagnosis, and automatic, secure submission of hardware event notifications to HP, which will initiate a fast and accurate resolution, based on your product's service level. Notifications may be sent to your authorized HP Channel Partner for on-site service, if configured and available in your country. The software is available in two variants:

HP Insight Remote Support Standard: This software supports server and storage devices and is optimized for environments with 1–50 servers. Ideal for customers who can benefit from proactive notification but do not need proactive service delivery and integration with a management platform.
- HP Insight Remote Support Advanced: This software provides comprehensive remote monitoring and proactive service support for nearly all HP servers, storage, network, and SAN environments, plus selected non-HP servers that have a support obligation with HP. It is integrated with HP Systems Insight Manager. A dedicated server is recommended to host both HP Systems Insight Manager and HP Insight Remote Support Advanced.

Details for both versions are available on the HP website (http://www.hp.com/go/insightremotesupport).

To download the software, go to Software Depot (http://www.software.hp.com).

Select Insight Remote Support from the menu on the right.

Keeping the system current

Drivers

IMPORTANT: Always perform a backup before installing or updating device drivers.

The server blade includes new hardware that may not have driver support on all OS installation media.

If you are installing a SmartStart-supported OS, use the SmartStart software (on page 57) and its Assisted Path feature to install the OS and latest driver support.

If you are installing drivers from the SmartStart CD, be sure that you are using the latest SmartStart version that your server blade supports. To verify that your server blade is using the latest supported version, see the HP website (http://www.hp.com/support). For more information, see the documentation provided with the SmartStart CD.

If you do not use the SmartStart CD to install an OS, drivers for some of the new hardware are required. These drivers, as well as other option drivers, ROM images, and value-add software can be downloaded from the HP website (http://www.hp.com/support).

To directly locate the OS drivers for a particular server blade, enter the following web address into the browser:

http://www.hp.com/support/

In place of , enter the server name.

For example:

http://www.hp.com/support/dl360g6 (http://www.hp.com/support/dl360g6)

ProLiant Support Packs

PSPs represent operating system-specific bundles of ProLiant optimized drivers, utilities, and management agents. Refer to the PSP website (http://h18000.www1.hp.com/products/servers/management/psp.html).

Operating System Version Support

For information about specific versions of a supported operating system, refer to the operating system support matrix (http://www.hp.com/go/supportos).

HP Smart Update Manager

The HP Smart Update Manager enables system administrators to upgrade ROM images efficiently across a wide range of servers and options. This tool has the following features:

• Works offline and online
• Supports Microsoft® Windows® and Linux operating systems
• Integrates with other software maintenance, deployment, and operating system tools
- Automatically checks for hardware, firmware, and operating system dependencies, and installs only the correct ROM upgrades required by each target server

For more information, see the HP Smart Update Manager User Guide. The guide and the HP Smart Update Manager utility are available from the ProLiant Firmware Maintenance CD. This CD and others can be downloaded free of charge from the SmartStart download page on the HP website (http://www.hp.com/go/support).

Change control and proactive notification

HP offers Change Control and Proactive Notification to notify customers 30 to 60 days in advance of upcoming hardware and software changes on HP commercial products.

For more information, refer to the HP website (http://www.hp.com/go/pcn).

Care Pack

HP Care Pack Services offer upgraded service levels to extend and expand bundled services with easy-to-buy, easy-to-use support packages that help you make the most of your server investments. For more information, see the HP website (http://www.hp.com/services/carepack).

Troubleshooting

Troubleshooting resources

The HP ProLiant Servers Troubleshooting Guide provides procedures for resolving common problems and comprehensive courses of action for fault isolation and identification, error message interpretation, issue resolution, and software maintenance on ProLiant servers and server blades. This guide includes problem-specific flowcharts to help you navigate complex troubleshooting processes. To view the guide, select a language:

• English (http://www.hp.com/support/ProLiant_TSG_en)
• French (http://www.hp.com/support/ProLiant_TSG_fr)
• Italian (http://www.hp.com/support/ProLiant_TSG_it)
- Spanish (http://www.hp.com/support/ProLiant_TSG_sp)
• German (http://www.hp.com/support/ProLiant_TSG_gr)
• Dutch (http://www.hp.com/support/ProLiant_TSG_nl)
• Japanese (http://www.hp.com/support/ProLiant_TSG_jp)

The HP BladeSystem c-Class Enclosure Troubleshooting Guide provides procedures and solutions for troubleshooting HP BladeSystem c-Class enclosures. This guide explains how to use the Insight Display to troubleshoot enclosures, and it includes a flowchart to help you navigate the troubleshooting process. To view the guide, see the HP website (http://www.hp.com/support/BladeSystem_Enclosure_TSG_en).

Pre-diagnostic steps

WARNING: To avoid potential problems, ALWAYS read the warnings and cautionary information in the server documentation before removing, replacing, reseating, or modifying system components.

IMPORTANT: This guide provides information for multiple servers. Some information may not apply to the server you are troubleshooting. Refer to the server documentation for information on procedures, hardware options, software tools, and operating systems supported by the server.

1. Review the important safety information (on page 68).
2. Gather symptom information (on page 70).
3. Prepare the server for diagnosis (on page 70).
4. Use the Start diagnosis flowchart (on page 73) to begin the diagnostic process.

Important safety information

Familiarize yourself with the safety information in the following sections before troubleshooting the server.

Important safety information

Before servicing this product, read the Important Safety Information document provided with the server.

Symbols on equipment

The following symbols may be placed on equipment to indicate the presence of potentially hazardous conditions.

This symbol indicates the presence of hazardous energy circuits or electric shock hazards. Refer all servicing to qualified personnel.

WARNING: To reduce the risk of injury from electric shock hazards, do not open this enclosure. Refer all maintenance, upgrades, and servicing to qualified personnel.

This symbol indicates the presence of electric shock hazards. The area contains no user or field serviceable parts. Do not open for any reason.

WARNING: To reduce the risk of injury from electric shock hazards, do not open this enclosure.

This symbol on an RJ-45 receptacle indicates a network interface connection.

WARNING: To reduce the risk of electric shock, fire, or damage to the equipment, do not plug telephone or telecommunications connectors into this receptacle.

This symbol indicates the presence of a hot surface or hot component. If this surface is contacted, the potential for injury exists.

WARNING: To reduce the risk of injury from a hot component, allow the surface to cool before touching.

This symbol indicates that the component exceeds the recommended weight for one individual to handle safely.

4.31 kg 9.50 lb

WARNING: To reduce the risk of personal injury or damage to the equipment, observe local occupational health and safety requirements and guidelines for manual material handling.

These symbols, on power supplies or systems, indicate that the equipment is supplied by multiple sources of power.

WARNING: To reduce the risk of injury from electric shock, remove all power cords to completely disconnect power from the system.

Warnings

WARNING: Only authorized technicians trained by HP should attempt to repair this equipment. All troubleshooting and repair procedures are detailed to allow only subassembly/module-level repair. Because of the complexity of the individual boards and subassemblies, no one should attempt to make repairs at the component level or to make modifications to any printed wiring board. Improper repairs can create a safety hazard.

!

WARNING: To reduce the risk of personal injury or damage to the equipment, be sure that:

• The leveling feet are extended to the floor.
• The full weight of the rack rests on the leveling feet.
- The stabilizing feet are attached to the rack if it is a single-rack installation.
- The racks are coupled together in multiple-rack installations.
- Only one component is extended at a time. A rack may become unstable if more than one component is extended for any reason.

Symptom information

Before troubleshooting a server problem, collect the following information:

• What events preceded the failure? After which steps does the problem occur?
• What has been changed since the time the server was working?
- Did you recently add or remove hardware or software? If so, did you remember to change the appropriate settings in the server setup utility, if necessary?
• How long has the server exhibited problem symptoms?
• If the problem occurs randomly, what is the duration or frequency?

To answer these questions, the following information may be useful:

• Run HP Insight Diagnostics (on page 64) and use the survey page to view the current configuration or to compare it to previous configurations.
  • Refer to your hardware and software records for information.
  • Refer to server LEDs and their statuses.

Prepare the server for diagnosis

1. Be sure the server is in the proper operating environment with adequate power, air conditioning, and humidity control. For required environmental conditions, see the server documentation.
2. Record any error messages displayed by the system.
3. Remove all diskettes, CD-ROMs, DVD-ROMs, and USB drive keys.

4. Power down the server and peripheral devices if you will be diagnosing the server offline. If possible, always perform an orderly shutdown:
   a. Exit any applications.
   b. Exit the operating system.
   c. Power down the server ("Power down the server blade" on page 11).

5. Disconnect any peripheral devices not required for testing (any devices not necessary to power up the server). Do not disconnect the printer if you want to use it to print error messages.

6. Collect all tools and utilities, such as a Torx screwdriver, loopback adapters, ESD wrist strap, and software utilities, necessary to troubleshoot the problem.

- You must have the appropriate Health Drivers and Management Agents installed on the server. To verify the server configuration, connect to the System Management homepage and select Version Control Agent. The VCA gives you a list of names and versions of all installed HP drivers, Management Agents, and utilities, and whether they are up-to-date.

• HP recommends you have access to the server documentation for server-specific information.
• HP recommends you have access to the SmartStart CD for value-added software and drivers required during the troubleshooting process. Download the current version of SmartStart from the HP website (http://www.hp.com/servers/smartstart).

Performing processor procedures in the troubleshooting process

Before performing any troubleshooting steps that involve processors, review the following guidelines:

• Be sure that only authorized personnel perform the troubleshooting steps that involve installing, removing, or replacing a processor.
• Always locate the documentation for your processor model before performing any steps that require installing, removing, or replacing a processor. If you cannot locate the hard copy of the instructions that shipped with the processor, see the processor ("Processor option" on page 22) instructions in this document.
• Some processor models require the use of a processor installation tool, and specific steps are documented to ensure that you do not damage the processor or processor socket on the system board. For server models that have pins inside the processor socket, remember that THE PINS ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED. If you damage the socket, you must replace the system board.
• Depending on the server blade model, the contacts may be on the processor or they may be inside the processor socket. Never touch the contacts. THE PINS ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED. If the contacts inside the processor socket are damaged, the system board must be replaced.
  • Always complete all other troubleshooting procedures before removing or replacing a processor.

Breaking the server down to the minimum hardware configuration

During the troubleshooting process, you may be asked to break the server down to the minimum hardware configuration. A minimum configuration consists of only the components needed to boot the server and successfully pass POST.

When requested to break the server down to the minimum configuration, uninstall the following components, if installed:

• All additional DIMMs
Leave only the minimum required to boot the server—either one DIMM or a pair of DIMMs. For more information, see the memory guidelines in the server user guide.
• All additional cooling fans, if applicable
For the minimum fan configuration, see the server user guide.
• All additional power supplies, if applicable (leave one installed)
- All hard drives
• All optical drives (DVD-ROM, CD-ROM, and so forth)
• All optional mezzanine cards
- All expansion boards

Before removing the components, be sure to determine the minimum configuration for each component and follow all guidelines in the server user guide.

Always use the recommended minimum configuration above before removing any processors. If you are unable to isolate the issue with the configuration above, you will then remove all all but one of the additional processors.

CAUTION: Before removing or replacing any processors, be sure to follow the guidelines provided in "Performing processor procedures in the troubleshooting process (on page 71)." Failure to follow the recommended guidelines can cause damage to the system board, requiring replacement of the system board.

Loose connections

Action:

• Be sure all power cords are securely connected.
• Be sure all cables are properly aligned and securely connected for all external and internal components.
• Remove and check all data and power cables for damage. Be sure no cables have bent pins or damaged connectors.
• If a fixed cable tray is available for the server, be sure the cords and cables connected to the server are routed correctly through the tray.
• Be sure each device is properly seated. Avoid bending or flexing circuit boards when reseating components.
  • If a device has latches, be sure they are completely closed and locked.
• Check any interlock or interconnect LEDs that may indicate a component is not connected properly.
• If problems continue to occur, remove and reinstall each device, checking the connectors and sockets for bent pins or other damage.

Service notifications

To view the latest service notifications, refer to the HP website (http://www.hp.com/go/bizsupport). Select the appropriate server model, and then click the Troubleshoot a Problem link on the product page.

Server health LEDs

Some server blades have an internal health LED and an external health LED, while other server blades have a single system health LED. The system health LED provides the same functionality as the two separate internal and external health LEDs. Depending on the model, the internal health LED and external health LED may either appear solid or they may flash. Both conditions represent the same symptom.

For the location of server blade LEDs and information on their statuses, see the server blade documentation on the HP website (http://www.hp.com/support).

Troubleshooting flowcharts

To effectively troubleshoot a problem, HP recommends that you start with the first flowchart in this section, "Start diagnosis flowchart (on page 73)," and follow the appropriate diagnostic path. If the other flowcharts

do not provide a troubleshooting solution, follow the diagnostic steps in "General diagnosis flowchart (on page 74)." The General diagnosis flowchart is a generic troubleshooting process to be used when the problem is not server-specific or is not easily categorized into the other flowcharts.

The available flowcharts include:

• Start diagnosis flowchart (on page 73)
• General diagnosis flowchart (on page 74)
• Server blade power-on problems flowchart (on page 76)
• POST problems flowchart (on page 78)
• OS boot problems flowchart (on page 80)
• Server fault indications flowchart (on page 82)

Start diagnosis flowchart

Use the following flowchart to start the diagnostic process.

graph TD
    A["Start diagnosis"] --> B{Do you want to perform the General Diagnosis?}
    B -->|Yes| C["(1) Go to General diagnosis"]
    B -->|No| D{Does server power on?}
    D -->|Yes| E{Does server complete POST OK?}
    D -->|No| F["(2) Go to Power-on problems"]
    E -->|Yes| G{Does server boot to OS OK?}
    E -->|No| H["(3) Go to POST problems"]
    G -->|Yes| I{Does server have Insight Management Agent fault or LED fault indication?}
    G -->|No| J["(4) Go to OS boot problems"]
    I -->|Yes| K["(5) Go to Server fault indications"]
    I -->|No| L["(1) Go to General diagnosis"]

General diagnosis flowchart

The General diagnosis flowchart provides a generic approach to troubleshooting. If you are unsure of the problem, or if the other flowcharts do not fix the problem, use the following flowchart.

graph TD
    A["Start General diagnosis"] --> B["(1) Record symptom information."]
    B --> C["Reboot server to see if condition still exists."]
    C --> D{Is this a newly installed server?}
    D -->|Yes| E["(2) Reseat any components that may have come loose during shipping and reboot the server."]
    D -->|No| F{Were options added or was the configuration changed recently?}
    F -->|No| G["(3) Check for Service Notifications."]
    G --> H["(4) Download the latest software and firmware from the HP website."]
    H --> I{Does condition still exist?}
    I -->|No| J["(5) Isolate and minimize the memory configuration."]
    I -->|Yes| K{Does condition still exist?}
    K -->|No| L["(6) Isolate what has changed. Verify it was installed correctly. Restore server to last known working state or original shipped configuration."]
    K -->|Yes| M{Does condition still exist?}
    M -->|No| N["(7) Troubleshoot or replace basic server spare parts."]
    M -->|Yes| O{Does condition still exist?}
    O -->|No| P["(8) Break server down to minimal configuration."]
    O -->|Yes| Q{Does condition still exist?}
    Q -->|No| R["(9) Ensure the following information is available: Survey configuration snapshots OS event log file Full crash dump"]
    Q -->|Yes| S["(10) Call HP Service Provider"]
    S --> T["(1) Record action taken."]
    T --> U["End"]

Server blade power-on problems flowchart

Symptoms:

• The server does not power on.
• The system power LED is off or amber.

• The health LED is red or amber.

NOTE: For the location of server LEDs and information on their statuses, refer to the server documentation.

Possible causes:

• Improperly seated or faulty power supply
- Loose or faulty power cord
• Power source problem
• Power on circuit problem
- Improperly seated component or interlock problem
• Faulty internal component

graph TD
    A["Start"] --> B{Does the server blade automatically power on?}
    B -->|Yes| C["End"]
    B -->|No| D{What color is the server blade power LED?}
    D -->|Off| E{Is the server blade health LED on?}
    D -->|Green| F["Wait 45 seconds."]
    E -->|Yes| G{Is the Insight Display background green?}
    E -->|No| H{Is the "Automatically Power On server" choice selected in iLO?}
    F -->|Yes| G
    F -->|No| I["Check the Insight Display/Onboard Administrator error message and perform the suggested ation."]
    G -->|Yes| J{Does condition still exist?}
    G -->|No| K["End"]
    H -->|Yes| L["Change the setting in iLO."]
    H -->|No| M["End"]
    I --> N{Does condition still exist?}
    J -->|Yes| O["Replace or troubleshoot the server blade internal components."]
    J -->|No| P["End"]
    K --> Q["Reseat the server blade."]
    L --> Q
    M --> Q
    N --> Q
    O --> Q
    Q --> R["Call HP Service Provider"]

POST problems flowchart

Symptoms:

• Server does not complete POST

NOTE: The server has completed POST when the system attempts to access the boot device.

• Server completes POST with errors
Possible problems:
• Improperly seated or faulty internal component
- Faulty KVM device
- Faulty video device

graph TD
    A["Start POST Problems"] --> B{Are you connected to the server blade with the SUV cable?}
    B -->|No| C{Are you able to connect remotely using iLO?}
    B -->|Yes| D{Do you have video output?}
    C -->|No| E["(3) Verify SUV cable is connected correctly"]
    C -->|Yes| F{POST errors messages displayed?}
    F -->|Yes| G["(2) See "POST error messages.""]
    F -->|No| H{What color is the server blade health LED?}
    H -->|Yes| I["(4) Isolate and minimize the memory configuration."]
    H -->|No| J["(5) Break server blade down to minimum configuration."]
    I --> K{Does condition still exist?}
    J --> K
    K -->|Yes| L["Does condition still exist?"]
    K -->|No| M["Record action taken."]
    L --> N{Does condition still exist?}
    N -->|Yes| O["(7) Troubleshoot or replace basic server spare parts."]
    N -->|No| P["Add one part at a time back to configuration to isolate component."]
    P --> Q{Does condition still exist?}
    Q -->|Yes| R["(8) Call HP Service Provider"]
    Q -->|No| S["Record symptom & error information on repair tag if sending back a failed part."]
    S --> T{Does condition still exist?}
    T -->|Yes| U["(9) Ensure the following information is available: Survey configuration snapshots OS event log file Full crash dump"]
    T -->|No| V["(6) Record action taken."]
    V --> W["End"]
    U --> X["End"]

OS boot problems flowchart

There are two ways to use SmartStart when diagnosing OS boot problems on a server blade:

• Use iLO to remotely attach virtual devices to mount the SmartStart CD onto the server blade.
• Use a local I/O cable and drive to connect to the server blade, and then restart the server blade.

Symptoms:

• Server does not boot a previously installed OS
• Server does not boot SmartStart

Possible causes:

• Corrupted OS
  • Hard drive subsystem problem
  • Incorrect boot order setting in RBSU

graph TD
    A["Start OS boot problems"] --> B{Does the server boot SmartStart CD?*}
    B -->|No| C["(1) Disable Fast Boot in RBSU and check server boot order."]
    C --> D{Does server still boot with errors?}
    D -->|Yes| E["(2) Go to POST Problems"]
    D -->|No| F{Does server still fail to boot SmartStart?}
    F -->|No| G["End"]
    F -->|Yes| H{Does server still fail to boot SmartStart?}
    H -->|Yes| I{Is this a known good copy of SmartStart?}
    I -->|No| J{Still fail with known good copy?}
    J -->|No| K["End"]
    J -->|Yes| L["(5) Check CD/DVD-ROM, controller, and cable."]
    L --> M{Does condition still exist?}
    M -->|Yes| N["Add parts back to configuration to isolate component."]
    M -->|No| O["End"]
    O --> P{Does condition still exist?}
    P -->|No| Q["End"]
    P -->|Yes| R["(9) Troubleshoot or replace basic server spare parts."]
    R --> S["End"]
    S --> T["(10) Go to General Diagnosis"]
    T --> U{Does condition still exist?}
    U -->|No| V["End"]
    U -->|Yes| W["(6) Isolate and minimize the memory configuration"]
    W --> X{Does condition still exist?}
    X -->|Yes| Y["End"]
    X -->|No| Z["End"]
    Z --> AA{Does condition still run without errors?}
    AA -->|No| AB["(4) Run Insight Diagnostics."]
    AB --> AC{Does SmartStart recognize default boot device?}
    AC -->|No| AD["(3) Troubleshoot possible hard drive subsystem problem."]
    AD --> AE{Does server still run out of smart start?}
    AE -->|Yes| AF["End"]
    AE -->|No| AG["End"]

* See the server blade OS boot problems flowchart (on page 80)

Server fault indications flowchart

Symptoms:

• Server boots, but a fault event is reported by Insight Management Agents
• Server boots, but the internal health LED, external health LED, or component health LED is red or amber

NOTE: For the location of server LEDs and information on their statuses, refer to the server documentation.

Possible causes:

• Improperly seated or faulty internal or external component
  • Unsupported component installed
• Redundancy failure
  • System overtemperature condition

graph TD
    A["Start server fault indications"] --> B["Select an appropriate fault indicator."]
    B --> C{Decision}
    C -->|Yes| D["Insight Management Agents"]
    C -->|No| E{Event Reported by Insight Management Agents?}
    E -->|Yes| F["(3) Gather information from the System Management Homepage. Failing components will be shown as yellow (degraded) or orange (failed)."]
    E -->|No| G{Is there an IML entry identifying the problem?}
    G -->|Yes| H["(1) Obtain failure information from IML entry, if available."]
    G -->|No| I{What color is the server blade health LED?}
    I -->|Yes| J["Green"]
    I -->|No| K{What color is the Insight Display background?}
    K -->|Yes| L["(4) Go to Server blade power-on problems flowchart."]
    K -->|No| M{Is a hard drive fault LED on?}
    M -->|Yes| N{Is the LED solid or flashing?}
    M -->|No| O{Is there sufficient information to identify failing component?}
    O -->|Yes| P["(5) Replace or reseat component identified as failed or about to fail."]
    O -->|No| Q["End"]
    P --> R["(1) Mark the corresponding IML entry as repaired, if present."]
    Q --> R
    R --> S["End"]
    S --> T["You may need to replace the hard drive."]
    T --> U["A predictive failure alert has been received for this drive."]

POST error messages and beep codes

For a complete listing of error messages, refer to the "POST error messages" in the HP ProLiant Servers Troubleshooting Guide located on the Documentation CD or on the HP website (http://www.hp.com/support).

WARNING: To avoid potential problems, ALWAYS read the warnings and cautionary information in the server documentation before removing, replacing, reseating, or modifying system components.

Battery replacement

If the server blade no longer automatically displays the correct date and time, you may need to replace the battery that provides power to the real-time clock. Under normal use, battery life is 5 to 10 years.

WARNING: The computer contains an internal lithium manganese dioxide, a vanadium pentoxide, or an alkaline battery pack. A risk of fire and burns exists if the battery pack is not properly handled. To reduce the risk of personal injury:

• Do not attempt to recharge the battery.
- Do not expose the battery to temperatures higher than 60^ (140°F).
- Do not disassemble, crush, puncture, short external contacts, or dispose of in fire or water.
- Replace only with the spare designated for this product.

To remove the component:

1. Power down the server blade (on page 11).
2. Remove the server blade (on page 12).
3. Remove the access panel (on page 13).
4. Identify the battery location ("System board components" on page 8).
5. Remove the battery.

IMPORTANT: Replacing the system board battery resets the system ROM to its default configuration. After replacing the battery, reconfigure the system through RBSU.

To replace the component, reverse the removal procedure.

For more information about battery replacement or proper disposal, contact an authorized reseller or an authorized service provider.

Regulatory compliance notices

Regulatory compliance identification numbers

For the purpose of regulatory compliance certifications and identification, this product has been assigned a unique regulatory model number. The regulatory model number can be found on the product nameplate label, along with all required approval markings and information. When requesting compliance information for this product, always refer to this regulatory model number. The regulatory model number is not the marketing name or model number of the product.

Federal Communications Commission notice

Part 15 of the Federal Communications Commission (FCC) Rules and Regulations has established Radio Frequency (RF) emission limits to provide an interference-free radio frequency spectrum. Many electronic devices, including computers, generate RF energy incidental to their intended function and are, therefore, covered by these rules. These rules place computers and related peripheral devices into two classes, A and B, depending upon their intended installation. Class A devices are those that may reasonably be expected to be installed in a business or commercial environment. Class B devices are those that may reasonably be expected to be installed in a residential environment (for example, personal computers). The FCC requires devices in both classes to bear a label indicating the interference potential of the device as well as additional operating instructions for the user.

FCC rating label

The FCC rating label on the device shows the classification (A or B) of the equipment. Class B devices have an FCC logo or ID on the label. Class A devices do not have an FCC logo or ID on the label. After you determine the class of the device, refer to the corresponding statement.

Class A equipment

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at personal expense.

Class B equipment

This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to

radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

• Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit that is different from that to which the receiver is connected.
- Consult the dealer or an experienced radio or television technician for help.

Declaration of conformity for products marked with the FCC logo, United States only

This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

For questions regarding this product, contact us by mail or telephone:

Hewlett-Packard Company P. O. Box 692000, Mail Stop 530113 Houston, Texas 77269-2000
1-800-HP-INVENT (1-800-474-6836). (For continuous quality improvement, calls may be recorded or monitored.)

For questions regarding this FCC declaration, contact us by mail or telephone:

Hewlett-Packard Company P. O. Box 692000, Mail Stop 510101 Houston, Texas 77269-2000

1-281-514-3333

To identify this product, refer to the part, series, or model number found on the product.

Modifications

The FCC requires the user to be notified that any changes or modifications made to this device that are not expressly approved by Hewlett-Packard Company may void the user's authority to operate the equipment.

Cables

Connections to this device must be made with shielded cables with metallic RFI/EMI connector hoods in order to maintain compliance with FCC Rules and Regulations.

Canadian notice (Avis Canadien)

Class A equipment

This Class A digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations.

This Class B digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations.

European Union regulatory notice

Products bearing the CE marking comply with the following EU Directives:

• Low Voltage Directive 2006/95/EC
• EMC Directive 2004/108/EC
• Ecodesign Directive 2009/125/EC, where applicable

CE compliance of this product is valid if powered with the correct CE-marked AC adapter provided by HP.

Compliance with these directives implies conformity to applicable harmonized European standards (European Norms) that are listed in the EU Declaration of Conformity issued by HP for this product or product family and available (in English only) either within the product documentation or at the following HP website (http://www.hp.eu/certificates) (type the product number in the search field).

The compliance is indicated by one of the following conformity markings placed on the product:

For non-telecommunications products and for EU harmonized telecommunications products, such as Bluetooth® within power class below 10mW.

CE

For EU non-harmonized telecommunications products (If applicable, a 4-digit notified body number is inserted between CE and !).

CE!

Please refer to the regulatory label provided on the product.

The point of contact for regulatory matters is Hewlett-Packard GmbH, Dept./MS: HQ-TRE, Herrenberger Strasse 140, 71034 Boeblingen, GERMANY.

Disposal of waste equipment by users in private households in the European Union

This symbol on the product or on its packaging indicates that this product must not be disposed of with your other household waste. Instead, it is your responsibility to dispose of your waste equipment by handing it over to a designated collection point for the recycling of waste electrical and electronic equipment. The separate collection and recycling of your waste equipment at the time of disposal will help to conserve natural resources and ensure that it is recycled in a manner that protects human health and the environment. For more information about where you can drop off your waste equipment for recycling, please contact your local city office, your household waste disposal service or the shop where you purchased the product.

Japanese notice

This product may be provided with an optical storage device (that is, CD or DVD drive) and/or fiber optic transceiver. Each of these devices contains a laser that is classified as a Class 1 Laser Product in accordance with US FDA regulations and the IEC 60825-1. The product does not emit hazardous laser radiation.

Each laser product complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to Laser Notice No. 50, dated June 24, 2007; and with IEC 60825-1:2007.

WARNING: Use of controls or adjustments or performance of procedures other than those specified herein or in the laser product's installation guide may result in hazardous radiation exposure. To reduce the risk of exposure to hazardous radiation:

• Do not try to open the module enclosure. There are no user-serviceable components inside.
• Do not operate controls, make adjustments, or perform procedures to the laser device other than those specified herein.
• Allow only HP Authorized Service technicians to repair the unit.

The Center for Devices and Radiological Health (CDRH) of the U.S. Food and Drug Administration implemented regulations for laser products on August 2, 1976. These regulations apply to laser products manufactured from August 1, 1976. Compliance is mandatory for products marketed in the United States.

Battery replacement notice

WARNING: The computer contains an internal lithium manganese dioxide, a vanadium pentoxide, or an alkaline battery pack. A risk of fire and burns exists if the battery pack is not properly handled. To reduce the risk of personal injury:

• Do not attempt to recharge the battery.
- Do not expose the battery to temperatures higher than 60^ (140°F).
- Do not disassemble, crush, puncture, short external contacts, or dispose of in fire or water.

Batteries, battery packs, and accumulators should not be disposed of together with the general household waste. To forward them to recycling or proper disposal, use the public collection system or return them to HP, an authorized HP Partner, or their agents.

For more information about battery replacement or proper disposal, contact an authorized reseller or an authorized service provider.

Taiwan battery recycling notice

The Taiwan EPA requires dry battery manufacturing or importing firms in accordance with Article 15 of the Waste Disposal Act to indicate the recovery marks on the batteries used in sales, giveaway or promotion. Contact a qualified Taiwanese recycler for proper battery disposal.

Electrostatic discharge

Preventing electrostatic discharge

To prevent damaging the system, be aware of the precautions you need to follow when setting up the system or handling parts. A discharge of static electricity from a finger or other conductor may damage system boards or other static-sensitive devices. This type of damage may reduce the life expectancy of the device.

To prevent electrostatic damage:

• Avoid hand contact by transporting and storing products in static-safe containers.
• Keep electrostatic-sensitive parts in their containers until they arrive at static-free workstations.
• Place parts on a grounded surface before removing them from their containers.
• Avoid touching pins, leads, or circuitry.
  • Always be properly grounded when touching a static-sensitive component or assembly.

Grounding methods to prevent electrostatic discharge

Several methods are used for grounding. Use one or more of the following methods when handling or installing electrostatic-sensitive parts:

• Use a wrist strap connected by a ground cord to a grounded workstation or computer chassis. Wrist straps are flexible straps with a minimum of 1 megohm ±10 percent resistance in the ground cords. To provide proper ground, wear the strap snug against the skin.
• Use heel straps, toe straps, or boot straps at standing workstations. Wear the straps on both feet when standing on conductive floors or dissipating floor mats.
  • Use conductive field service tools.
  • Use a portable field service kit with a folding static-dissipating work mat.

If you do not have any of the suggested equipment for proper grounding, have an authorized reseller install the part.

For more information on static electricity or assistance with product installation, contact an authorized reseller.

Specifications

Environmental specifications

* The following temperature conditions and limitations apply:
- All temperature ratings shown are for sea level.
- An altitude derating of 1^ C per 304.8 m (1.8°F per 1,000 ft) up to 3048 m (10,000 ft) applies.
- No direct sunlight is allowed.
-The maximum permissible rate of change is 10°C/hr (18°F/hr).
- The type and number of options installed may reduce the upper temperature and humidity limits.
- Operating with a fan fault or above 30°C (86°F) may reduce system performance.
** Storage maximum humidity of 95% is based on a maximum temperature of 45°C (113°F).
Maximum storage altitude corresponds to a minimum pressure of 70 kPa (10.1 psia).

Server blade specifications

Technical support

Before you contact HP

Be sure to have the following information available before you call HP:

• Technical support registration number (if applicable)
• Product serial number
• Product model name and number
• Product identification number
• Applicable error messages
• Add-on boards or hardware
• Third-party hardware or software
• Operating system type and revision level

HP contact information

For the name of the nearest HP authorized reseller:

• See the Contact HP worldwide (in English) webpage (http://welcome.hp.com/country/us/en/wwcontact.html).

For HP technical support:

• In the United States, for contact options see the Contact HP United States webpage (http://welcome.hp.com/country/us/en/contact_us.html). To contact HP by phone:
• Call 1-800-HP-INVENT (1-800-474-6836). This service is available 24 hours a day, 7 days a week. For continuous quality improvement, calls may be recorded or monitored.
  If you have purchased a Care Pack (service upgrade), call 1-800-633-3600. For more information about Care Packs, refer to the HP website (http://www.hp.com/hps).

- In other locations, see the Contact HP worldwide (in English) webpage (http://welcome.hp.com/country/us/en/wwcontact.html).

Customer Self Repair

HP products are designed with many Customer Self Repair (CSR) parts to minimize repair time and allow for greater flexibility in performing defective parts replacement. If during the diagnosis period HP (or HP service providers or service partners) identifies that the repair can be accomplished by the use of a CSR part, HP will ship that part directly to you for replacement. There are two categories of CSR parts:

- Mandatory—Parts for which customer self repair is mandatory. If you request HP to replace these parts, you will be charged for the travel and labor costs of this service.

- Optional—Parts for which customer self repair is optional. These parts are also designed for customer self repair. If, however, you require that HP replace them for you, there may or may not be additional charges, depending on the type of warranty service designated for your product.

NOTE: Some HP parts are not designed for customer self repair. In order to satisfy the customer warranty, HP requires that an authorized service provider replace the part. These parts are identified as "No" in the Illustrated Parts Catalog.

Based on availability and where geography permits, CSR parts will be shipped for next business day delivery. Same day or four-hour delivery may be offered at an additional charge where geography permits. If assistance is required, you can call the HP Technical Support Center and a technician will help you over the telephone. HP specifies in the materials shipped with a replacement CSR part whether a defective part must be returned to HP. In cases where it is required to return the defective part to HP, you must ship the defective part back to HP within a defined period of time, normally five (5) business days. The defective part must be returned with the associated documentation in the provided shipping material. Failure to return the defective part may result in HP billing you for the replacement. With a customer self repair, HP will pay all shipping and part return costs and determine the courier/carrier to be used.

For more information about HP's Customer Self Repair program, contact your local service provider. For the North American program, refer to the HP website (http://www.hp.com/go/selfrepair).

Customer Self Repair

Customer Self Repair

Array Configuration Utility

AMP

Advanced Memory Protection

ASR

Automatic Server Recovery

CSR

Customer Self Repair

DHCP

Dynamic Host Configuration Protocol

HP SIM

HP Systems Insight Manager

iLO 2

Integrated Lights-Out 2

IML

Integrated Management Log

ORCA

Option ROM Configuration for Arrays

P2V

physical to virtual

PMP

Performance Management Pack

POST

Power-On Self Test

PSP

ProLiant Support Pack

PXE

Preboot Execution Environment

RBSU

ROM-Based Setup Utility

RDIMM

Registered Dual In-line Memory Module

RDP

Rapid Deployment Pack

SAS

serial attached SCSI

SATA

serial ATA

SMP

Server Migration Pack

SUM

software update manager

UDIMM

Unregistered Dual In-Line Memory Module

V2P

virtual to physical

V2V

virtual to virtual

Index

A

access panel 13

additional information 68

Advanced ECC memory 30, 31

air baffle 13

air flow covers 34, 35

ASR (Automatic Server Recovery) 62

authorized reseller 95

auto-configuration process 59

Automatic Server Recovery (ASR) 62

B

Basic Input/Output System (BIOS) 59, 62

batteries, replacing 86, 91

battery 8, 86, 91

battery replacement notice 86, 91

bay numbering 16

beep codes 84

BIOS (Basic Input/Output System) 59, 62

BIOS Serial Console 59

BIOS upgrade 62

blade blank 18

boot diskette 56

boot options 59

BSMI notice 90

buttons 6

C

cables 47, 48, 72, 88

cables, FCC compliance 88

cables, troubleshooting 72

cabling 47, 48

cabling, hard drive 47

cabling, SAS hard drive 47

Canadian notice 88

CD-ROM deployment 55

class A equipment 87

class B equipment 87

components 6

components, identification 6

configuration 19

configuration of system 19, 51, 57

configuration parameters 57

configuration tools 57

configuration, completing 19

configuration, network 52

configuring AMP modes 60

connecting to the network 17

connection problems 72

connectors 6

contact information 95

contacting HP 95

creating a disk image 56

CSR (customer self repair) 95

customer self repair (CSR) 95

D

Declaration of Conformity 88

deployment infrastructure 52

deployment methods 51, 52, 54

deployment overview 52

DHCP server 51

diagnosing problems 68, 74

diagnostic tools 62, 64

diagnostics utility 64

DIMM identification 28

DIMM installation guidelines 31

DIMM population guidelines 31

DIMM slot locations 8, 9

DIMM slots 31

DIMMs 8, 28, 60

DIMMs, installation 35

DIMMs, single- and dual-rank 28

disposal, battery 89, 91

disposal, waste 89

documentation 57

drivers 51, 66

E

electrostatic discharge 93

enabling, Trusted Platform Module (TPM) 45

enclosure connector 8

enclosure connector cover 8

environmental specifications 94

Erase Utility 63

error messages 84

European Union notice 89

external cables 48

F

FCC (Federal Communications Commission) notice 87, 88

FCC rating label 87

features 6

Federal Communications Commission (FCC) notice 87, 88

firmware upgrade utility, troubleshooting 68

flowcharts 72, 73, 74, 76, 78, 80, 82

front panel buttons 7

front panel components 6

front panel LEDs 7

front panel/hard drive cage assembly 20

G

general diagnosis flowchart 74

grounding methods 93

H

hard drive cable connector 8

hard drive connector 9

hard drive data connector 8, 9

hard drive LEDs 7

hard drive power connector 8, 9

hard drives 20

hard drives, installing 20

hardware options 20

hardware options installation 20

health driver 62

health LEDs 7,72

heatsink 22

heatsink blank 22

help resources 95

HP c-Class Blade SUV Cable 6, 10, 48, 49

HP Insight Diagnostics 64

HP Insight Diagnostics survey functionality 64

HP Insight Remote Support software 65

HP Smart Array P712m Controller 37

HP Smart Update Manager overview 66

HP technical support 95

HP website 95

HP, contacting 95

|

identification number 87

iLO 2 (Integrated Lights-Out 2) 11, 51, 52, 62

iLO 2 advanced features 51

IML (Integrated Management Log) 65

Important Safety Information document 68

Insight Diagnostics 64, 66

installation, server blade 18

installation, server options 20

installing hardware 20

installing operating system 54

installing server blade 18

installing server blade options 20

installing the access panel 13

installing, Trusted Platform Module (TPM) 44

Integrated Lights-Out 2 (iLO 2) 11, 51, 62

Integrated Management Log (IML) 65

interconnect bay numbering 16

interconnect bay, port mapping 16

interconnect device mapping 16

interconnect modules 15

interconnect modules, installing 15

internal cables 47

internal USB connector 8

internal USB functionality 64

J

Japanese notice 90

K

Korean notices 90

L

laser compliance 91

laser devices 91

LED, health 7, 72

LED, power button 7

LED, system power 7

LEDs 6

LEDs, hard drive 7

LEDs, NIC 7

LEDs, troubleshooting 68

LEDs, unit identification (UID) 7

Lights-Out network-based deployment 51, 52, 54

local KVM, accessing a server blade with 48

local media devices, accessing 49

lockstep memory 30, 32, 60

loose connections 72

M

maintenance guidelines 66

management tools 51, 62

memory 27, 28, 60

memory configurations 29

memory options 20

memory subsystem architecture 28

memory, mirrored 30, 31, 60

mezzanine board connectors 8

mezzanine card 36

mezzanine connector covers 36

mezzanine connectors 8

mirrored memory 30, 31, 60

modifications, FCC notice 88

N

network connections 17

network-based PXE deployment 52

NIC (network interface card) 8

0

operating systems 66

operations 11

Option ROM Configuration for Arrays (ORCA) 61

options 15

options installation 15, 20

ORCA (Option ROM Configuration for Arrays) 61

OS boot problems flowchart 80

P

passwords 45

phone numbers 95

POST error messages 84

POST problems flowchart 78

power button LED 7

Power On/Standby button 7

powering down 11

powering up 11,58

power-on problems flowchart 76

preboot execution environment (PXE) 52, 54

pre-diagnostic steps 68

preparation procedures 11, 70

problem diagnosis 68

processor socket 8

processor tool 22

processors 8, 22, 71

Product ID 61

ProLiant Support Pack (PSP) 66

PSP (ProLiant Support Pack) 66

PSPs, overview 66

PXE (preboot execution environment) 52, 54

PXE deployment 52, 54

R

RBSU (ROM-Based Setup Utility) 58

RBSU configuration 58

RDIMM configuration 30

recovery key 45

redundant ROM 63

regulatory compliance identification numbers 87

regulatory compliance notices 87, 89, 92

release button 6

remote support and analysis tools 65

removing the access panel 13

removing the server blade 12

required information 95

resources 57,68

resources, troubleshooting 68

ROM legacy USB support 63

ROM redundancy 63

ROM-Based Setup Utility (RBSU) 45, 58

ROMPaq utility 62, 63

s

safety considerations 68

safety information 63

SAN configuration 57

SATA connectors 9

scripted installation 55

serial connector 10

serial label pull tab 6

serial number 61

series number 87

server blade installation 18

server blade release lever 6

server blade removal 12

server blade specifications 94

server fault indications flowchart 82

server features and options 20

server options, installing 20

service notifications 72

setting up a network 52

Setup 15

Smart Update Manager 66

SmartStart autorun menu 57

SmartStart Scripting Toolkit 55

SmartStart, overview 57

software components 51

specifications 94

specifications, environmental 94

specifications, server blade 94

start diagnosis flowchart 73

static electricity 93

support 65, 95

support packs 57

supported operating systems 66

SUV connector 6, 10, 48

switches, interconnect 15

symbols on equipment 69

symptom information 70

system board 8

system board battery 8,91

system board components 8

system components 6

system configuration settings 57

System Erase Utility 63

system maintenance switch 8, 9

system power LED 7

system, keeping current 66

T

Taiwan battery recycling notice 92

technical support 95

telephone numbers 95

tool, processor 22

TPM (Trusted Platform Module) 43, 45

troubleshooting 68,72

troubleshooting flowcharts 72

troubleshooting resources 68

troubleshooting, firmware upgrade utility 68

Trusted Platform Module (TPM) 43, 45

Type I or Type II mezzanine card 36

U

UDIMM configuration 30

UID LED 7

updating drivers 51

updating the system ROM 63

updating, FCA device driver 57

USB CD-ROM drive 55

USB connectors 8, 10

USB devices 48

USB support 63

utilities 51

utilities, deployment 55, 58

V

video connector 10

video connector cabling 10

video devices 48

virtual CD/DVD-ROM 55

virtual floppy 57

W

warnings 69

website, HP 95