This version of LO100 does not support DNS naming in G5 firmware through a shared NIC.

LO100 optional features

For HP ProLiant ML110 G5, ML115 G5, DL120 G5, ML150 G5, and DL180 G5 servers, LO100 optional features are activated with installation of the HP Lights-Out 100c Remote Management Card and include the following:
Support for SSL, SSH, and IPMI 2.0 security with factory-default self-signed certificates and keys Support for imported certificates Virtual media access Remote graphic console (Virtual KVM) access
For HP ProLiant DL160 G5, DL165 G5, and DL185 G5 servers, LO100 optional features are activated with the purchase of an optional features package. The following features packages are available:

Operational overview 6

The Lights-Out 100i Select Pack includes:
Support for SSL, SSH, and IPMI 2.0 security with factory-default self-signed certificates and keys Support for imported certificates Virtual media access (available when using the dedicated LO100 NIC) All features in the Lights-Out 100i Select Pack Virtual KVM (available when using the dedicated LO100 NIC) Web browser access (HTTP) to power control, system event log, hardware status, and license key activation of optional features SMASH CLP interface access to remote power control, system event log, hardware status, and operating system serial console NOTE: Beginning December 30, 2008, Lights-Out 100i (LO100i) Select Pack licenses for ProLiant 100 series G5 servers will go end-of-life. On March 30, 2009, these licenses will be fully discontinued and no longer available for sale. Additionally, HP will not offer these licenses on ProLiant 100 series G6 servers.
The Lights-Out 100i Advanced Pack includes:

o o o o

Operational overview 7
Installation of the HP Lights-Out 100c Remote Management Card
Remote management card kit contents
For HP ProLiant ML110 G5, ML115 G5, DL120 G5, ML150 G5, and DL180 G5 servers, you must install the HP Lights-Out 100c Remote Management Card to activate the LO100 optional features. For more information, see "LO100 optional features (on page 6)." The HP ProLiant Lights-Out 100c Remote Management Card Kit includes the following components:
HP Lights-Out 100c Remote Management Card Spacer support Remote management card installation instructions
Preinstallation procedures
The installation procedures in this document are intended for individuals who are qualified in the servicing of computer equipment and trained in recognizing hazards in products with hazardous energy levels. WARNING: Failure to properly turn off the server before you open the server may cause serious damage to the equipment as well as bodily harm. CAUTION: Follow the ESD precautions listed in your server guide when handling the remote management card. IMPORTANT: Observe the pre- and post-configuration procedures described in later sections when installing the remote management card. NOTE: The procedures described in this section assume that the server is positioned on a flat, stable surface.

To set up a static IP address, see "Setting up a static IP address from the BIOS Setup Utility (on page 14) ".
Configuring user accounts
LO100 supports four accounts types, with varying levels of permissions to view and control features. For more information on user accounts, see the "User administration (on page 49)" section. Two accounts are available by default, one of type administrator and one of type operator. The administrator account enables the user to execute the full set of CLP commands and change management processor configuration. The default administrator account user name is admin, and the default password is admin. The operator account enables the user to execute common commands and functions but restricts access to specific functions, such as adding and changing user account information and changing the configuration of the management processor. HP recommends logging in with the operator account to perform common functions. The default user name is Operator, and the default password is Operator. For more information on how to log in to LO100, see the "Logging in to LO100 (on page 26)" section.
Accessing BIOS Setup Utility and using function keys
Throughout the document, the F10 key is listed as the standard method of accessing the BIOS Setup Utility, saving changes, and exiting the utility. In some cases, the function keys (F keys) might not pass through the telnet client correctly to the remote system. If this occurs, use the following ESC key equivalents:
F8ESC+8 F10ESC+0 F12ESC+@

Using the serial port

The server serial port provides basic serial port functionality and serves as an interface to LO100. You can configure the system serial port for exclusive use with LO100. CAUTION: After enabling the serial port for use with LO100, legacy serial devices might not function correctly if attached to the serial port. You must configure the LO100 serial port hardware parameters to work with your respective serial port communications software. LO100 serial port configuration is controlled through the BIOS Setup Utility.
Enabling serial access to LO100
Power up the server. When POST displays the message, ROM-Based Setup, press the F10 key. If the server has an administrator password configured, the system prompts you to enter the password. If the server does not have a password configured, the main screen of the BIOS Setup Utility appears. Press the right arrow () key to navigate to the Advanced menu. Choose one of these options: NOTE: If you change the Serial Port Assignment, the BMC IP Address resets. The BMC IP address might not be the same after reboot.

Press the down arrow () key to scroll to the IPMI Configuration menu. Press the Enter key.
ii. Scroll to LAN Configuration, and then scroll to DHCP IP Source. iii. Select either of the following:
To set BMC NIC to DHCP, scroll down to DHCP IP source, and then to enable, press the Enter
To save all changes and exit, press the F10 key.
To configure or change your network settings, see "Network settings (on page 51)".
Using the DNS naming feature
The DNS naming feature enables you to reference the server name assigned to the server without having to know the server IP address or obtaining the IP address for a given server. This ability to reference the server name occurs after the server has registered its name with the DNS, using the default naming sequence assigned by LO100, LO100 - {Server Serial Number}. (For example, LO100 CNQ123456.) To obtain the serial number, look at the pull-out tab usually located in the front panel of the server. You can change the server name through the Network Settings page of the LO100 web interface. To retrieve a server IP address using the DNS naming feature, use a system connected to the same network, open a DOS command prompt, and then type nslookup {server name}. (For example, nslookup {CBQ123456}.) Depending on your DNS server configuration, it might take up to 45 minutes for the DNS to register a server name. For more DNS options in LO100, see "Configuring network settings using a web browser (on page 52)".
Setting up a static IP address from the BIOS Setup Utility
By default, LO100 has DHCP enabled and automatically negotiates an IP address. To disable DHCP and enable a static IP address:
Press the F10 key during POST to enter the BIOS Setup Utility. Press the right arrow () key to navigate to the Advanced menu. Press the down arrow () key to scroll to IPMI. Press the Enter key. To set your network BIOS settings, choose one of these options:
Press the down arrow () key to scroll to the end, and then select DHCP IP Source.
ii. On DHCP IP Source, select Disabled. iii. Press the down arrow () key to scroll down and enter a valid IP address, subnet mask, and
gateway address (press the Tab key to move between address fields).
Press the down arrow () key to scroll to the BMC LAN Configuration menu. Press the Enter key.
ii. Press the down arrow () key to scroll to the end, and then select DHCP IP Source. iii. On DHCP IP Source, select Disabled. iv. Press the down arrow () key to scroll down and enter a valid IP address, subnet mask, and
Press the down arrow () key to scroll to the LAN Settings menu. Press the Enter key.

ii. On IP Address Assignment, select Static. iii. Press the down arrow () key to scroll down and enter a valid IP address, subnet mask, and
gateway address (press the Tab or period (.) key to move between address fields).
ii. Press the down arrow () key to scroll to the LAN Configuration menu. Press the Enter key. iii. Press the down arrow () key to scroll to the end, and then select DHCP IP Source. iv. Select either of the following:
To set BMC NIC to Disabled, press the Enter key. To save all changes and exit, press the F10 key.
To restore DHCP, see "Configuring network settings using the BIOS Setup Utility (on page 53)."
Enabling telnet and HTTP services
On DL160 G5, DL165 G5, DL185 G5, and SL165z G6 servers, HTTP and telnet are enabled by default. On ML110 G5 and ML115 G5 servers:
Select Advanced>IPMI>LAN Configuration. Set the following:
BMC HTTP ServiceEnabled BMC Telnet ServiceEnabled

On the DL120 G5:

Select Advanced>IPMI>LAN Settings.

Set the following:

BMC HTTP ServiceEnabled BMC HTTPS ServiceEnabled BMC Telnet ServiceEnabled
On ML150 G5 and DL180 G5 servers:
Select Advanced>IPMI. Set the following:
TCP and UDP port numbers used by LO100
The following table lists the TCP and UDP port numbers used by the various LO100 network-accessible features. You can use this information to configure networking infrastructure or security settings. Port number

Protocol

SSH Telnet HTTP TFTP SNMP trap HTTPS IPMI RMCP+ Secure IPMI RMCP+ Storage

Support

Secure Shell connections Command line interface, Remote text console Web-based user interface for LO100 Virtual KVM Firmware upgrade HP SIM agent events Secure access to the web-based user interface Virtual KVM IPMI-over-LAN connections IPMI-over-LAN connections Storage

Embedded by default

Yes Yes Yes Yes Yes Yes Yes Yes Yes

Updating the firmware

To update the LO100 firmware, use the ROMPaq utility. Downloads for the ROMPaq utility are available on the HP website (http://www.hp.com/support). For more information about using the ROMPaq utility, refer to the HP website (http://www.hp.com/servers/manage). NOTE: LO100 does not support ROMPAQ flashing from a virtual floppy.

If a firewall is enabled, disable it or modify the settings to allow the firewall to connect to the TFTP port. To change the firewall settings, navigate to Applications>System Settings>Security Level, and enter 69:udp in the parameter of the other port.
To update the firmware, log in to LO100 as the administrator through the CLP interface, and issue the load command to upload and install the firmware from the map1/firmware directory.
Start a CLP session. To access CLP:
a. Navigate to Start>All Programs>Accessories>Command Prompt. b. At the command prompt, enter telnet <IP address>.
At the CLP prompt, enter cd map1/firmware. At the CLP prompt, enter load -source <URI> -oemhpfiletype csr where:
<URI> is the //<tftp server IP>/<path>/<filename> to be downloaded.
<tftp server IP> is the URL or IP address of the TFTP server containing the firmware. <path> is the path of the file relative to the TFTP server root. <filename> is the file name of the image file (in this example, LdrImage.bin).
For example, enter load -source //10.141.38.157/LdrImage.bin -oemhpfiletype csr. For Linux CLP load command firmware updates, you must place the image file in the tftpboot folder, which is located in the TFTP servers root directory. The TFTP application might report an error in the early part of the firmware upload process, during the firmware image validation process. An error does not necessarily indicate failure of the firmware upload and does not prevent successful firmware uploads. A successful firmware upload typically takes several minutes. After the firmware upgrade process is complete, verify that the new version of the firmware is active. If the firmware upgrade process fails after sufficient time (at least 5 minutes), reboot the server, and verify that the previous version of the firmware is still active. Always reboot the server before retrying the firmware upgrade process. After installing the firmware, the IP address of the server might reset to the default value. You must locally reset the IP address to the desired address. NOTE: After using the load command LO100 will reset ending your CLP interface session. You must reconnect to the CLP interface. NOTE: When you use the CLP load command with TFTPD32, HP recommends using a 4second timeout and 10 retries.

Open an SSH window. When prompted, enter the IP address, login name, and password.

Using the PuTTY utility

PuTTY 0.54 is a terminal emulation product that includes support for telnet and the SSH protocol. PuTTY 0.54 is available for download from the Internet.
To start a PuTTY session, double-click the PuTTY icon in the directory in which PuTTY is installed. To start a PuTTY session from the command line:
To start a connection to a server called host, enter: putty.exe [-ssh | -telnet | -rlogin | -raw] [user@]host For telnet sessions, you can also enter the following alternative syntax: putty.exe telnet://host[:port]/ To start an existing saved session called session name, enter: putty.exe -load "session name"
When you press Enter using PuTTY versions earlier than 0.54, two line feeds might appear on a single line feed. To avoid this issue and for best results, HP recommends using version 0.54 or later.
Using the OpenSSH utility
OpenSSH is a free version of the SSH protocol available for download on the Internet. To start an OpenSSH client in Linux, at the command prompt enter: ssh -l loginname ipaddress/dns name

Using CLP

HP has worked with key industry partners within Distributed Management Task Force, Inc. to define an industry-standard set of commands. The SMASH suite will standardize manageability interfaces for servers. The Lights-Out 100 remote management processor implements the command set defined in the Server Management Command Line Protocol Specification, 1.00 Draft. The CLP replaces the simple CLI that was released previously and is no longer supported. The management processor functionality accessible from the SMASH CLP is a low-bandwidth interface and provides similar functionality to the web interface. The CLP is designed for users who prefer a nongraphical interface. The CLP is accessible through the following methods:
Telnet SSH connection Physical serial port

Using LO100 20

LO100 CLP supports two simultaneous SSH connections, two SSH connections and one telnet connection, or one SSH connection and two telnet connections. You cannot have more than two simultaneous SSH connections and up to three (telnet and SSH) connections at a time.

/./-> help show

Usage: show [<target>][<options>][<properties>]

/./-> show -h

/./-> show -help

/./->

Help for targets Calling help for a target returns any information about the target and what it contains. You can call help for any target that is not contained in the current directory (help map1 can be called from system1).

/./-> system1 -h

Invalid command Invalid command
/./-> system1 -help /./-> help system1 /./-> help map1

Host System Directory

Management Service Processor Directory
/./-> cd system1 /./system1/-> help map1
Help for properties Calling help for a property or any other option for which there is no help information returns an Unsupported Command or Invalid command message. For example:
/./system1/-> show /./system1 Targets log1 led1 Properties

Using LO100 22

name=Hewlett-Packard enabledstate=enabled Verbs cd version exit show
reset start stop help /./system1/-> help name Unsupported Command
/./system1/-> help enabledstate Unsupported Command
/./system1/-> help properties Unsupported Command
Invalid command /./system1/->

/./system1/-> name -h

The exit command terminates the CLP session. The cd command sets the current default target. The context works similar to a directory path. The root context for the server and the starting point for a CLP system is /. (forward slash period). By changing the context, you can shorten commands. For example:
The cd command changes the directory. The cd. command moves up the tree one directory. The cd myfolder command moves to the myfolder folder if myfolder is in the current directory.
The show command displays values of a property or contents of a collection target. For example: /./> show /.

Targets map1

system1

Properties Verbs

Using LO100 23
version exit show help The first line of information returned by the show command is the current context. In the example, /. is the current context. Following the context is a list of subtargets (Targets) and properties (Properties) applicable to the current context. The verbs section (Verbs) shows which commands are available in this context. The show command can also be specified with an explicit or implicit context and a specific property. An explicit context is /map1/firmware and is not dependent on the current context. An implicit context assumes that the context specified is a child of the current context. If the current context is /map1, then a show firmware command displays the /map1/firmware data. If a property is not specified, then all properties are shown.

Absolute Mode causes the LO100 remote graphic console to send raw x and y coordinates to the server. Relative Mode sends the LO100 remote graphic console relative mouse position coordinates (+/previous mouse pointer position) to the server. This mode is the default for Linux and Windows.
The Keyboard tab enables you to set the language of the virtual keyboard and the type of connection you are using. English is the default language. To change the language of the virtual keyboard, select a language from the dropdown menu. The remote side server and local side server (the LO100 remote graphic console) must use the same language for the virtual keyboard to function properly. The following connection types are available:
VNC (port 5900)Supports Virtual KVM and LO100 Virtual Media. Port 5900 is the default setting. Unsecured keyboard (port 5902)Supports the keyboard. Unsecured keyboard (port 5903)Supports video, mouse, and LO100 Virtual Media. Secure keyboard (port 5904)Encrypts all keyboard data sent through this port. Port 5903 is a unsecured port that supports video, mouse, and LO100 Virtual Media.
The Logging tab enables you to view log messages in a Java console. Global Logging is disabled by default. If you enable this option, you can view log messages in a Java console. Do not run the console longer than 2 hours. The console uses all available memory and might cause the LO100 remote graphic console and the user web browser to crash. You should periodically clear the event log to prevent a slow connection or possible crash.

Using LO100 35

To record all log messages to the console from the Logging list, select Console. To check log messages in the Java console window, from the list on the Tools menu of Internet Explorer menu bar, select Sun Java Console. To record all log messages to a file, select Log File from the Logging list, enabling the Console Log File textbox. To select a file in which log messages will be stored, click the Browse button, or enter the fully qualified file name of the selected file in the textbox. To send log messages to both a file of your choice and to the Java console, select Console and Log File.

Mouse synchronization

To synchronize the local mouse pointer and the server mouse pointer, bring the local mouse to the top left corner to attract the server mouse pointer to the top left corner. Both pointers become synchronized when they overlap as one pointer. For mouse synchronization to work correctly, you must change the Enhance Mouse pointer and Hardware Acceleration options on the remote machine (server side) using the LO100 remote graphic console. For Windows operating systems, perform the following steps: To change the Enhance Mouse pointer option:

Select Start>Control Panel. Double-click Mouse. The Mouse Properties window appears. Select Pointer Options. In the Pointer Options window:
a. Set the Pointer speed bar in the middle. b. Be sure the Enhance pointer precision option is not selected.
To change the Hardware Acceleration option:

1. 2. 3. 4. 5. 6. 7.

Right-click the desktop screen Select Properties. The Display Properties window appears. Click Settings>Advanced. The video card and monitor properties window appears. Click Troubleshoot. Set hardware acceleration to None to disable cursor and bitmap accelerations (one scale or option below Full). Click Apply. Click OK to exit the Display Properties window.
For Linux operating systems, perform the following steps:

For SLES 9:

a. Determine which mouse device is the remote console mouse using the xsetpointer -l
command to list all mouse devices.
b. Determine which mouse to modify by cross-referencing the output of xsetpointer with the X
configuration (either /etc/X11/XF86Config or /etc/X11/xorg.conf.)
Select the remote console mouse as the mouse to modify. For example: xsetpointer Mouse[2]

Using LO100 36

d. Set the acceleration parameters. For example:

xset m 1/1 1

For Red Hat Enterprise Linux, set the acceleration parameters using: xset m 1/1 1
Using the system event log
LO100 captures and stores the IPMI event log for access through a browser, CLP, BIOS Setup Utility, and RBSU even when the server is not operational. The system event log displays a short description of each system event. Recorded events include abnormal temperature, fan events, system resets, and system power loss.
Accessing the system event log from a web browser
The System Event Log screen displays a brief description of the event, including event type, date, time, source, description, and direction.
To access the System Event Log from a web browser, on the main menu navigation bar, click System Event Log. To clear the system event log, click Clear Event Log.

To add a new virtual media device, click Add on the Virtual Media page. The Add Virtual Media window appears. This window has the following options:
The Look In list enables you to change your directory or drive. The Virtual Media Type list enables you to specify the file type that you want to share. You must declare a Virtual Media Type before LO100 recognizes they type of device it is sharing. The File Name textbox is the shared name of the image. Select a value from the Files of Type list to select the files you want to share.
Shared virtual media devices
You can share a virtual media device from the Storage Devices window. Only one device may be shared at a time.

Using LO100 40

To share a virtual media device, do the following:

1. 2. 3. 4. 5.

On the Virtual KVM menu, from the Control menu, select Virtual Media. The Virtual Media window appears. If the device you want to add is not in the list, click Remove. To add a device, see "Adding a virtual media device (on page 40)". Select the device and click Connect. A message box appears, indicating either the device has been successfully connected or a problem has occurred. Click OK to close the Virtual Media window.
To remove a shared virtual media device, do the following: Before removing a shared device, verify the device is safe to remove. If necessary, perform any required steps to ensure the safe removal of removable media devices on the server.
On the Virtual KVM menu, from the Control menu, select Virtual Media. The Virtual Media window appears, displaying all currently available added devices. Select the device you want to remove, and click Remove. A dialog box appears, indicating that the device has been successfully disconnected. Click OK to close the Virtual Media window.
Accessing the remote console through telnet
You can access the remote console through either the BIOS console text-redirection functionality or a Windows Server 2003 text-based console. You can open only one Remote Console window can be open at a time. To start a remote console session, press the Esc+Q keys. To end a remote console session and return to the CLP, press the Esc+( keys. NOTE: When entering any ESC key sequences, extra characters might be buffered, causing the remote side to receive function key presses incorrectly. To avoid this issue and perform function key or alternate key sequences, press and hold the ESC key, release it, and then press the other key sequence. To change the timeout settings for telnet and for the remote console, use Linux raw IPMI commands or an oemhp command through telnet. The following examples disable timeout:

After POST, in the remote console, the server prompts you with a login. Enter a valid login and use the server as you normally would. Use the ESC+Q keys to start remote console through the telnet and the ESC+( keys to exit the remote console in telnet.
Microsoft Windows EMS management
Microsoft Windows Server 2003 provides text-based console access. You can connect a notebook to LO100 to perform basic management tasks on the target system. The Windows EMS Console, if enabled, displays the processes that are running and enables administrators to halt processes. This capability is important when video, device drivers, or other operating system features have prevented normal operation and normal corrective actions. To enable Windows EMS management on the target system:
Press the F10 key during POST to enter the BIOS Setup Utility. Navigate to the Advanced>Console Redirection menu. Choose one of these options:
Press the down arrow () key to scroll down to the EMS Console option, and then press the Enter key.

Using LO100 46

On ML115 G5, DL165 G5, and DL185 G5 servers:
Verify the following settings:
Remote AccessEnabled EMS support(SPCR)Enabled Serial Port Mode115200 8,n,1 Flow ControlNone Console TypeVT100 Continue C.R. after POSTAlways

On ML160 G5 servers:

Using LO100 47

On ML180 G5 servers:

Remote AccessEnabled EMS support(SPCR)Enabled Serial Port Mode9600 8,n,1 Terminal TypeVT100 Flow ControlNone Redirection after BIOS POSTAlways
Press the Esc key to return to the previous screen, or press the F10 key to save the changes and exit setup.
After enabling Windows EMS management, you can view the Windows EMS management console remotely from a client PC through an established telnet session to the IP address of the target server by pressing the Esc+Q keys. You can end an EMS session by pressing the Esc+( keys. See your operating system documentation for instructions on establishing telnet sessions. NOTE: If you encounter problems logging in to the remote console, be aware that some telnet programs might require you to enable their send line feed at end of line option. If the remote console does not respond to the Enter key, try setting this option in your telnet program.

Using LO100 48

Hardware Inventory page
The Hardware Inventory page enables you to remotely identify the presence of processors on a target server. To access this page from a web browser on the main menu navigation bar, click Hardware Inventory.

User administration

The User Administration option on the main menu navigation bar enables you (if authorized) to edit the user name and password for existing users. You cannot create a new user. The user password is stored in nonvolatile memory and can be changed through a web browser ("Changing user settings through a web browser" on page 50) or through the CLP ("Changing user settings through the CLP" on page 50). When using CLP, if you do not have the correct privileges a warning message appears. If you receive a warning message, you must end the telnet connection and re-establish a connection. There are no restrictions when logged in as either OEM or administrator. User and operator accounts have the following access. Option

To change the group name enter, set group=<new group name>. Valid group settings are administrator, user, oemhp, and operator. For example: /./map1/accounts/user2/> set group=user

Network settings

You can view and modify network settings for LO100 using a web browser, CLP, or the BIOS Setup Utility. If you change the IP address, the connection to the server terminates. You must reconnect to the server using the new IP address.

Using LO100 51

Configuring network settings using a web browser
The Network Settings screen displays IP address, subnet mask, and other TCP/IP-related settings. From the Network Settings screen, you can enable or disable DHCP and configure a static IP address for servers not using DHCP. You can view and modify the network settings when logged in as either OEM or administrator (admin).
To modify the network settings, from the browser main menu navigation bar, click Network Settings, enter the new settings, and then click Apply. The Network Settings page now lists the following information:
MAC AddressDisplays the MAC address. IP AddressDisplays the current BMC IP address and enables you to set it to Static. Subnet MaskDisplays the LO100 IP network subnet mask. If you are using DHCP, the subnet mask is automatically supplied. If not, enter the network subnet mask. GatewayDisplays the IP address of the network gateway. If you are using DHCP, the network gateway IP address is automatically supplied. If not, enter the network gateway address. For the static IP to work, all network settings must be correct. DHCPEnables you to set the BMC IP to DHCP by selecting the Enabled box, or to Static by clearing the Enabled box. For the changes to take effect, click Apply. When setting the BMC IP to Static, to set a valid static IP, you must enter a static IP into the IP Address field before clicking Apply.
DNS Server IP AddressDisplays IP address of the DNS server. DNS Server Alternate IP AddressDisplays secondary DNS IP address. DNS Host NameDisplays the host name set by user, defaulted to lo100<serial number>. This name is the DNS name associated with the IP address. If DHCP and DNS are configured correctly, this name can be used to connect to the LO100 subsystem instead of the IP address.

Using LO100 52

DNS Current Domain NameDisplays the current name of the domain where the LO100 subsystem resides. DHCP assigns this name. This name would be what is currently registered, whether it was returned through option 6, or it was configured locally as al default. DNS Configured Domain NameDisplays the domain name set by user as default domain name. Register this Connection's Addresses in DNSEnables you to register these server addresses to the DNS Server on the network. DHCP option 81 is used to register the host name with the appropriate DNS suffix to the DNS server through the DHCP server. Use this connection's DNS suffix in the DNS RegistrationEnables you to register the DNS suffix with the DNS server. Enables you to set and use a default domain name if the DHCP server does not offer one through DHCP Option 6. Disabling this option can result in the connection using its primary DNS suffix, which is usually the DNS name of the active directory domain to which it is joined.

UID (unit identification) 6 uniform resource locator (URL) 16, 58 unit identification (UID) 6 update service 62 URL (uniform resource locator) 16, 58 user access 10, 49 user account, modifying 10, 49, 50 user settings 10, 49, 50 using, LO100 19
virtual devices 39 virtual network computing (VNC) 35 virtual power 28 VNC (virtual network computing) 35

website, HP 62

Index 69

457880-001 459736-001 457879-001 462980-001 459734-001 459737-001 459739-001 463719-001 459735-001 490523-001 498433-001 457881-001 457882-001 457626-001 460016-001 457871-001 N/A
Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Optional2 Mandatory1 Mandatory1 Mandatory1 Mandatory1
Illustrated parts catalog 21
System components with hot-plug HDD
Table 3 System components spare parts list Item
System fan Backplane two bays SAS/SATA hard drive Cable assy USB Cable SAS hard drive Cable IDE ODD Hot-plug SAS hard drive carrier Optical disk drive (ODD) SPS-DRV,9.5mm,DVD-ROM,RoHS SPS-DRV,9.5mm COMBO,RoHS
457873-001 452340-001 452338-001 457874-001 454356-001 373211-001
Mandatory1 Mandatory1 Mandatory1 Mandatory1 Mandatory1 Mandatory1 Mandatory1
Memory module DIMM,1GB PC2-5300 FBD,64Mx8, RoHS DIMM,512MB PC2-5300 FBD, 64MX8,RoHS 416471-001 416470-001
Illustrated parts catalog 22
Table 3 System components spare parts list Item Description
Quad-Core Intel(r) Xeon(r) processor X5472 (3.00GHz, 120W, 1600MHz FSB) Quad-Core Intel(r) Xeon(r) processor L5410 (2.33GHz, 50W, 1333MHz FSB) Quad-Core Intel(r) Xeon(r) processor X5460 (3.16GHz, 120W, 1333MHz FSB) Quad-Core Intel(r) Xeon(r) processor E5472 (3.00GHz, 80W, 1600MHz FSB) Quad-Core Intel(r) Xeon(r) processor E5462 (2.80GHz, 80W, 1600MHz FSB) Dual-Core Intel(r) Xeon(r) processor X5272 (3.40GHz, 80W, 1600MHz FSB) Dual-Core Intel(r) Xeon(r) processor L5240 (3.00GHz, 40W, 1333MHz FSB) Dual-Core Intel(r) Xeon(r) processor L5420 (2.50GHz, 50W, 1333MHz FSB) Dual-Core Intel(r) Xeon(r) processor L5430 (2.66GHz, 50W, 1333MHz FSB) Dual-Core Intel(r) Xeon(r) processor X5470 (3.33GHz, 120W, 1333MHz FSB) Dual-Core Intel(r) Xeon(r) processor X5482 (3.20GHz, 120W, 1600MHz FSB) 14 15
Processor heat sink System board 650-W power supply HL/HH PCIe x16 LP riser card FL/FH PCIe x16 riser card Chassis
Illustrated parts catalog 23
Illustrated parts catalog 24

HP Contact Information

For the name of the nearest HP authorized reseller:
In the United States, call 1-800-345-1518. In Canada, call 1-800-263-5868. In other locations, refer to the HP website at http://www.hp.com/. In North America:
For HP technical support:
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. information about Care Packs, refer to the HP website at http://www.hp.com/.
If you have purchased a Care Pack (service upgrade), call 1-800-633-3600. For more
Outside North America, call the nearest HP Technical Support Phone Center. For telephone numbers for worldwide Technical Support Centers, refer to the HP website at http://www.hp.com/.

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
Illustrated parts catalog 25
Applicable error messages Add-on boards or hardware model number and serial number Third-party hardware or software model number Operating system type and revision level
Illustrated parts catalog 26
Connectors, Switches, and LEDs
This chapter contains illustrations and tables identifying and describing the connectors, switches, buttons, and LED indicators located on the front panel, rear panel, system board and hard drives of the HP ProLiant DL160 G5 server.
Connectors and components

Front panel components

Figure 1 Front panel components
Thumbscrews for rack mounting Optical disk drive bay Serial number pull tab Two front USB 2.0 ports Unit identification (UID) LED button System health LED NIC1 LED NIC2 LED Power button with LED indicator (bicolor: green and amber) HDD LED Hard disk drive (HDD) bays 1, 2, 3, and 4 Connectors, Switches, and LEDs 27

Rear panel components

Figure 2 Rear panel components
Power supply cable socket PS/2 mouse port (green) GbE LAN port for NIC2 Captive thumbscrew for top cover Serial port (teal) Low profile/Half length expansion slot Full Height/Full length expansion slot T10/T15 wrench Thumbscrew for PCI cage UID LED button VGA port HP LO100i management LAN port Two rear USB 2.0 ports GbE LAN port for NIC1/Management PS/2 keyboard port (purple)

System board components

Figure 3 System board components

Designator

11 J19 J20 J15 J22 P10 SW4 J52 P13 J18 XBT1 J14
Top: PS/2 mouse port Bottom: PS/2 keyboard port Top: LAN port 2 Bottom: LAN port 1 Top: USB 2.0 port Bottom: USB 2.0 port Management port Top: Serial port Bottom: VGA port UID LED/button PCIe slot (PCIe-x16 link with x16 slot) NMI jumper PCIe slot (PCIe-x16 link with x16 slot) 3V CMOS battery USB 2.0 cable header Connectors, Switches, and LEDs 29
28 P141 P17 P24 SATA P14 P37 CPU 1 P18 CPU 0 P19 P21 P25 P23 P27 P26 P28 XMM
Power connector for backplane 18-pin front panel port 5-pin system fan 6 header SATA1,2,3,4 connector IDE channel Front USB 2.0 cable header Processor 1 socket 5-pin system fan 5 header Processor 0 socket 5-pin system fan 4 header 5-pin system fan 3 header 5-pin system fan 2 header 5-pin system fan1 header 8-pin power connector 24-pin power connector 4-pin power connector FBD slots

Jumpers Password and chassis ID
The system board password (P36) chassis ID0 (P38) and chassis ID1(P39) headers. Table 4 describes the jumper settings. Table 4 System configuration switch settings Jumper

Status

On (default) Off

P38 P39

Off (default) On (default)

System Switches

Clear CMOS Button (SW6)
The system board has a system configuration (CMOS) button (SW6). To clear system configuration, remove AC power and press the CMOS button for seconds.
Connectors, Switches, and LEDs 30

LED indicators

This section contains illustration and descriptions of internal and external status LED indicators located on the:
Front panel Rear panel System board
These LED indicators aid in problem diagnosis by indicating the status of system components and operations of the server.
Front panel LED indicators
The front panel LED indicators allow constant monitoring of basic system functions while the server is operating.
Optical drive activity LED indicator
The optical drive has an activity indicator that indicates when the drive is reading media.
Figure 4 Optical drive activity LED indicator
Activity states for the optical drive are as follows:
Flashing green Ongoing drive activity Off No drive activity

Power LED indicator

The power status of the server is indicated by the bicolor LED on the front panel.
Figure 5 Power LED Indicator location
Table 5 Power/system health LED indicator status Component
Power/system health LED indicator
Steady green Steady amber Off
The server is operating normally. The server is system off or in hibernation with A/C power. The server is system off without A/C power.
Hard drive activity LED indicator
The status of hard drives installed in the server is indicated by the drive activity LED indicator located on the front panel of the server.
Figure 6 Drive activity LED indicator
Table 6 Hard drive activity LED indicator status Item

LED indicator

Drive activity LED indicator
Forced off (override drive activity output)

Description The drive is not a member of any RAID
volumes; or the drive is configured but is in a replacement or failed state for at least one volume that it is a member of; or the drive is a spare drive that is inactive or has been activated but has not been rebuilt.
The drive is not rebuilding. The drive is not a member of a volume
undergoing capacity expansion or RAID migration.

Solid green

The drive is a member of a RAID volume. The drive is not an inactive spare drive. The drive is not in a replacement or failed
state for any volumes that it is a member of. I/O activity.
The drive is not currently performing any
Table 6 Hard drive activity LED indicator status Item LED indicator Status
Flashing green during a drive activity (if command is outstanding continually the indicator is forced to flash at 4 Hz 50% duty cycle instead of solid off)
Description The drive is currently performing an I/O

activity.

The drive is a member of a RAID volume. The drive is not in a replacement or failed
state for any volumes that it is a member of (drive is online).
Flashing green @ 1 Hz 50% duty cycle (override drive activity output)
The drive is rebuilding. The drive is a member of a volume
Drive Online/Error LED indicator
The drive is not in a failed state. The drive is not selected (unit

identification).

Solid blue
The drive is not in a failed state. The drive is selected (unit identification) The drive is in a failed state. The drive is not selected. The drive is in a predictive failure state. The drive is not in a failed state. The drive is not selected. The drive is in a failed or predictive failure

state.

Solid amber
Flashing amber @ 1 Hz 50% duty cycle
Flashing amber/blue @ 1 Hz 50% duty cycle

The drive is selected.

Rear panel LED indicators
The LAN port on the rear panel has two LED indicators that allow monitoring of network activity.
Figure 7 LAN/LED indicators location
Table 7 LAN/LED indicator states Item

Component

LAN activity status LED indicator

Flashing green Off

Ongoing network data activity. No network data activity or no connection. The LAN connection is using 10Mbps/100 Mbps link. The LAN connection is using a GbE link. No connection.
LAN network speed LED indicator
System board LED indicator

The system board contains one LED indicator for use during troubleshooting operations.
Figure 8 System board LED indicator
Table 8 System board LED indicator Item

System state show

Removal and replacement procedures
This chapter provides subassembly/module-level removal and replacement procedures for the HP ProLiant DL160 G5 server. Review the specifications of a new component before installing it to make sure it is compatible with the server. When you integrate new components into the system, record its model and serial number, and any other pertinent information for future reference. After completing any removal or replacement procedure, run the diagnostics program to verify that all components operate properly. NOTE: The figures used in this chapter to illustrate procedural steps are labeled numerically (i.e., 1, 2). When these figures are used in substep items, the alphabetically labeled instructions correspond to the numbered labels on the related figure (i.e., label 1 corresponds to step a, label 2 corresponds to step b, etc.). The procedures described in this section assume that the server is out of the rack and is positioned on a flat, stable surface.
Hardware configuration tools
You will need the following tools:
T-10/T-15 screwdrivers Flat-blade screwdriver HP ProLiant DL160 G5 Server Support CD IPMI Event Log Diagnostics Software
The following references and software tools will assist with the hardware configuration:
Hardware configuration information
Electrostatic discharge information
An electrostatic discharge (ESD) can damage static-sensitive devices or micro circuitry. Proper packaging and grounding techniques are necessary precautions to prevent damage. To prevent electrostatic damage, observe the following precautions:
Transport products in static-safe containers such as conductive tubes, bags, or boxes. Keep electrostatic-sensitive parts in their containers until they arrive at static-free stations. Cover workstations with approved static-dissipating material. Use a wrist strap connected to the work surface, and properly grounded (earthed) tools and equipment. Keep work area free of nonconductive materials, such as ordinary plastic assembly aids and foam packing. Make sure that you are always properly grounded (earthed) when touching a static-sensitive component or assembly. Avoid touching pins, leads, or circuitry. Always place drives with the Printed Circuit Board (PCB) assembly-side down. Use conductive field service tools.

Removal and replacement procedures 37
Pre-Installation procedure
Perform the steps below before you open the server or before you remove or replace any component. WARNING: Failure to properly turn off the server before you open the server or before your start installing/ removing components may cause serious damage as well as bodily harm.
Turn off the server and all the peripherals connected to it. Unplug all cables from the power outlets to avoid exposure to high energy levels that may cause burns when parts are short-circuited by metal objects such as tools or jewelry. If necessary, label each one to expedite reassembly. Disconnect telecommunication cables to avoid exposure to shock hazard from ringing voltages. If server is installed in a rack, remove server and place it on a flat surface. Remove the top cover according to the instructions described in the System covers section in this chapter. Remove the top middle cover according to the instructions described in the System covers section in this chapter. Follow the ESD precautions listed previously in this chapter when handling a server component.

3. 4. 5. 6. 7.

IMPORTANT: To streamline the configuration process, read through the entire installation/removal procedure first and make sure you understand them before you before you begin.
Post-installation instructions
Observe the following items after installing or removing a server component:

1. 2. 3. 4. 5. 6. 7.

Be sure all components are installed according to the described step-by-step instructions. Reinstall the rear cage, air baffle, peripherals, and system cables that you have removed. Reinstall the top cover. Reinstall the top middle cover. Reinstall server into rack. Connect all external cables and the AC power cord to the system. Press the power button on the front panel to turn on the server.
Server warnings and cautions
Before installing a server, be sure that you understand the following warnings and cautions. WARNING: To reduce the risk of electric shock or damage to the equipment: Do not disable the power cord grounding plug. The grounding plug is an important safety feature. Plug the power cord into a grounded (earthed) electrical outlet that is easily accessible at all times. Unplug the power cord from the power supply to disconnect power to the equipment. Do not route the power cord where it can be walked on or pinched by items placed against it. Pay particular attention to the plug, electrical outlet, and the point where the cord extends from the server.

weight1_kg weight1_lb

Removal and replacement procedures 39

Powering down the server

The server does not completely power down when the power button on the front panel is pressed. The button toggles between On and Standby. The standby position removes power from most electronics and the drives, but some internal circuitry remains active. To completely remove all power from the system, disconnect all power cords from the server. To power down the server:
Shut down server as directed by the operating system documentation. Press the power button to toggle to Standby. This places the server in standby mode changing the power LED indicator to amber. In this mode, the main power supply output is disabled. Standby does not completely disable or remove power from the system.

3. 4. 5.

Disconnect the AC power cord from the AC outlet and then from the server. Be sure that the power LED indicator is turned off and that the fan noise has stopped. Disconnect all external peripheral devices from the server.

System covers

The top cover and top middle cover are both detachable. You need to remove the top cover before you can remove or replace a server component. The middle cover needs to be removed to service the SAS/SATA backplane board and optical drive.

Top cover

To remove the top cover:

1. 2. 3.

Loosen the captive screw on the rear panel with a T-15 screwdriver. Slide the cover approximately 1.25 cm (0.5 in) toward the rear of the unit and then lift the cover to detach it from the chassis. Lift the top cover away from the chassis.
Figure 9 Removing the Top Cover
To reinstall the top cover:
Align the top cover to the chassis and then slide it towards the front panel to position it into place. Once the cover is attached to the chassis, tighten the captive screw on the rear panel with a T-15 screwdriver.
Figure 10 Reinstalling the Top Cover

Top middle cover

To remove the top middle cover:
Loosen the four screws (one on each side of the chassis and two on the top middle cover) that secure the top middle cover to the chassis. Lift the top middle cover away from the chassis.
Figure 11 Removing the Top Middle Cover

To reinstall the top middle cover:
Align the top middle cover to the chassis. Fasten the four screws (one on each side of the chassis and two on the top middle cover) to securing the top middle cover to the chassis.
Figure 12 Reinstalling the top middle cover

Drives

The server supports up to five drive bays four drive bays for 3.5-inch hard disks drive and one drive bay for optical disk drive.

Cable management

Always follow good cable management practices when working inside the computer.
Keep cables away from major heat sources like the heat sink. Do not jam cables on top of expansion cards or memory modules. Printed circuit cards are not designed to withstand excessive pressure. Keep cables clear of sliding or moveable parts to prevent cutting or crimping. When folding a flat ribbon cable, never fold to a sharp crease. Sharp creases may damage the wires. Some flat ribbon cables come pre-folded. Never change the folds on these cables. Do not sharply bend any cable. A sharp bend can break the internal wires. Never bend a SATA data cable tighter than a 30 mm (1.18 in) radius. Never crease a SATA data cable. Do not rely on components like the drive cage, power supply, or system cover to push cables down into the chassis. Squeeze on the top of the retaining latch attached to the cable end of the connector. Grasp the cable end of the connector and pull it straight up.
The next steps illustrate the removal of power cables from connectors P26, 27, and 28.
CAUTION: Always pull the connector - NEVER pull on the cable. Pulling on the cable could damage the cable and result in a failed power supply.
Figure 13 Unplugging power cables

Cable connections

The following table provides information about switching power supply cable connector labels. Table 9 Cable connections Cable
Switching Power Supply Switching Power Supply Switching Power Supply Switching Power Supply Switching Power Supply Switching Power Supply Switching Power Supply
System board 24-pin power connector System board 8-pin power connector System board 4-pin power connector Backplane Backplane Optical disk drive System board power supply management interface connector

Cable Designator

P1 P2 P3 P10 P11 P5 J55
The following table provides the system board designators that various cables plug into. For more detailed information about system board components, see System board components Table 10 Cable Connections Cable
18-Pin Front Panel Connector SATA 4 Connector SATA 3 Connector SATA 2 Connector SATA 1 Connector External HDD LED Connector Front USB 2.0 Cable Header Internal USB 2.0 Header for Tape Drive 24-pin Power Connector 8-pin Power Connector 4-pin Power Connector 5-pin System Fan 1 Connector 5-pin System Fan 2 Connector 5-pin System Fan 3 Connector 5-pin System Fan 4 Connector 5-pin System Fan 5 Connector 5-pin System Fan 6 Connector

Apply all the grease to the top of the processor in one of the following patterns to insure even distribution.
Figure 38 The bottom of the heat sink
CAUTION: Never touch the bottom of the processor; any contaminant could prevent the mounting pads from making contact with the socket. CAUTION: Applying too much grease creates a gap between the contact surfaces, significantly reducing the ability of the heat sink to draw out heat. Installing the heat sink with excessive grease can also cause the grease to spread over the processor pins or the system board base, which can cause electrical shorts that damage the system. To install the new processor:
Insert the processor into the socket, using the key on the processor.
CAUTION: With the load lever and the retention plate disengaged, hold the processor by its edges and align it over the empty processor socket. Make sure that you properly align the processor with the orientation notch on the socket.
Engage the retention plate. Engage the load lever.
Figure 39 Installing the processor
CAUTION: To prevent overheating or a possible system crash, use only a heat sink model specified for the HP ProLiant DL160 G5 server. To install the heat sink:
Properly align the heat sink mounting pins to the system board mounting holes. Tighten the mounting pins clockwise to secure the heat sink connection to the system board.
Figure 40 Installing the heat sink
To install the air baffle:
Gently place in the air baffle.
Figure 41 Installing the air baffle

Memory

HP ProLiant DL160 G5 server has eight DIMM slots that support up to 32 GB maximum system memory (4GB in each of the eight DIMM slots). You must adhere to the following guidelines when adding or replacing memory modules:
For 2P system, both physical processors must be of the same type and speed. Use 667 DDR2/4.0 GHz FBD (Fully Buffered DIMM) Supported DIMM capacity: 512 MB, 1 GB, 2 GB and 4 GB Supported configuration
Two DIMMs: Identical model in XMM1 & XMM3 Four DIMMs: Identical pair in XMM1/XMM3, and the other identical pair in XMM5/XMM7 Eight DIMMs: Identical pair in XMM1/3, XMM5/7, XMM2/4, XMM6/8

Figure 42 DIMM slots

NOTE: Before installing the memory, remove the air baffle first, for detailed procedure, refer to the Processor section in this chapter. To remove memory module:
Completely open the holding clips securing the module. Gently pull the memory module upward to remove it from the slot.

Figure 58 System battery location
WARNING: Note the following reminders when replacing the system battery: Replace the battery with the same type as the battery recommended by HP. Use of another battery may present a risk of fire or explosion. A risk of fire and chemical burn exists if the battery is not handled properly. Do not disassemble, crush, puncture, or short external contacts, or expose the battery to temperatures higher than 60C (140F). Do not dispose of used battery in water or fire. Dispose of used batteries according to
Removal and replacement procedures 70
manufacturer's instructions. CAUTION: Loss of BIOS settings occurs when the battery is removed. You must reconfigure BIOS settings whenever you replace the battery. NOTE: If the server no longer automatically displays the correct date and time, you may need to replace the system battery. Under normal usage, battery life is five to ten years. To replace the system battery:
To release the battery from its holder, squeeze the metal clamp that extends above one edge of the battery. When the battery pops up, lift it out. To insert the new battery, slide one edge of the replacement battery under the holders lip with the positive side up. Push the other edge down until the clamp snaps over the other edge of the battery.
Figure 59 Replacing the battery
System board removal and replacement procedure
To remove the system board:
Remove the top cover. Loosen the nine screws that secure the system board to the chassis. Slide the system board back, up and out of the chassis. Remove the system board from the chassis.
Removal and replacement procedures 71
Figure 60 Removing the system board
To replace the system board:
Align the system board I/O connectors to their openings and slide the system board into place. The nine screw holes on the chassis should align with the system board. Fasten the nine screws on the system board to secure the system board to the chassis.
Figure 61 Installing the system board

Power supply unit (PSU)

Located on the rear panel of the server power supply is a standard autoranging 650-watt non-hot-plug PSU or 1200-watt hot-plug PSU with PFC (power factor correction) function.
Figure 62 Non-hot-plug power supply unit
WARNING: Take note of the following reminders to reduce the risk of personal injury from electric shock hazards and/or damage to the equipment. Installation of power supply units should be referred to individuals who are qualified to service server systems and are trained to deal with equipment capable of generating hazardous energy levels. DO NOT open the power supply unit. There are no serviceable parts inside it. To remove the power supply:
Loosen the screws that secure the power supply to the chassis. Lift the power supply from the chassis.

601 05E

BMC not responding, you can load the optimal default value, or you must change the LO100 card. If user input incorrect password more than three times, then display this error information and continue to boot. There are two 'password checked failed'. 05E for setup password. BIOS could not write to the NVRAM block. This message appears when the FLASH part is malfunctioning.
Checking NVRAM Update Failed
Table 12 POST Error Messages Error-Code Error Message
Operating system not found
Operating system cannot be located on any of the boot drives. Verify that the priority boot drive has power and that the IDE cable is connected properly. Verify that the desired boot drive has power Verify that the IDE cable is securely plugged into the respective system board connectors. Verify that the boot device is enabled in the Setup Utility. Verify that the boot device has an operating system installed. If the problem persists, contact your Foxconn Customer Support provider You must enter BIOS SETUP UTILITY and then Clean the System Event Log BMC not responding, you can load the optimal default value, or you must change the LO100 card.
System Event Log full Error: BMC Not Responding Temperature Violation Detected! Waiting 5 minutes for system to cool. Press ESC Key to resume booting without waiting for the system to cool. Warning: Pressing ESC is NOT recommended as system may shutdown unexpectedly. Recheck Temperature in 300 second!
Waiting 5 minutes for system to cool. You can press ESC Key to resume booting without waiting for the system to cool. But it is not recommended as system may shutdown unexpectedly. Recheck Temperature in 300 second!

Unsupported Processor

System cant support this style CPU. You should change another CPU.
POST related troubleshooting
Perform the following procedures when POST fails to run, displays error messages. If the POST failure is during a routine boot up, check the following:
All external cables and power cables should be firmly plugged in. The power outlet to the server should be connected and works correctly. The server and monitor are both turned on. The bicolour status LED indicator on the front panel must be lit up green. The monitor's contrast and brightness settings are correct. All internal cables are properly connected and all boards firmly seated. The processor is fully seated in its socket on the system board. The cooler assembly is properly installed on top of the processor.
Diagnostic tools and setup utilities 92
All memory modules are properly installed. If you have installed a PCI accessory board, verify that the board is firmly seated and any switches or jumpers on the board are properly set. Refer to the documentation provided with the accessory board. All internal cabling and connections are in their proper order. If you have changed any switches on the system board, verify that each is properly set.

Physical and operating specifications
This chapter provides physical and operating specifications for the HP ProLiant DL160 G5 server. Specifications include:

System unit

Table 13 Hardware Specifications Item
Processor socket Processor support Chipset Hardware monitoring device Gigabit Ethernet controller SATA and IDE controllers Embedded video controller I/O subsystem

Components

Intel FC-LGA6 with 771 lands Series Inte Xeon processor 5100/5300 series, Harpertown and WolfdaleDP processors. Seaburg/ESB 2 Server Engines management controller BCM5722C GbE support ESB 2 Server Engines VGA core integrated into Pilot
One PCIe x16 links with x16 slot One PCIe x16 links with x16 slot
Eight 667 DDR2/4.0 GHz FBD,up to 32GB One-half height IDE CD-ROM drive, SATA hard drive
Memory Default media storage Optional media storage
One slim ODD drive bay for CD-ROM/DVD-ROM drive, four
non-hot-plug SATA hard drives or SAS devices.
Four bays hot-plug HDD cage for SAS or SATA drives
I/O ports PS2 keyboard port, PS2 mouse port, USB 2.0 ports (two frontmounted ports, two rear-mounted ports and one internal connector on the system board), video port, serial port and GbE port.
Status LED indicators Front panel
UID SW/LED Health LED Power SW/LED NIC #1 Activity NIC #2 Activity Hard Disk Activity
Non-Hot-Plug Power Supply unit Hot-Plug Power Supply unit Thermal solution
650W power supply 1200W power supply Six system fans Physical and operating specifications 94
Table 14 Physical Dimensions Item
System board platform System board dimension Server dimensions Rack Server weight 448W * 43H * 698.7D (mm) Basic Configuration ( excludes keyboard and monitor): 19 kg
ATX (Advanced Technology Extended) 12 x 13.5
Table 15 Environmental Specifications Item
Temperature: Operating Non-operating Storage Wet-bulb temperature Relative humidity: Operating Non-operating Storage Altitude: Operating Non-operating Thermal output (maximum operating) Acoustic emissions Normal configuration 0 to 3049 meters (0 to 10,000 ft) 0 to 9146 meters (0 to 30,000 ft) 392 W/hr c LWad: 6.7 Bels (operating at room temperature) LWad: 6.7 Bels (Idle at room temperature) 10% to 90% (non-condensing) 5% to 95% 5% to 95% +10 to +35 (+50 to +95F) -30 to 60 (-22 to 140F) -30 to 60 (-22 to 140F) 38.7 (101.7F)

module orientation, 63 removing, 62
non hot plug hard drive installing, 50
onboard controllers LAN, 93 storage controller, 93 optical carrier installing, 47 Optical carrier spare part number, 16 optical drive activity indicator, 31 removing, 47
PCI cage spare part number, 16 PCI cage removing, 64 PCI cage installing, 69 PCI card installing, 68 PCI riser card expansion slots, 63 PCIe riser card installing, 66 removing, 65 PCI-E/PCI-X board installing, 65 physical dimensions, 94 server, 94 system board, 94 power supply replacing, 74, 75 Power supply cage spare part number, 16 power supply unit. See PSU Power/system health LED indicator, 32 Power-On Self Test POST error indicators, 89 POST related troubleshooting, 91 recoverable POST errors, 89 processor Index 98
improper airflow caution, 38
LAN controller, 93 LED indicators Hard drive activity, 33 LAN, 34 optical drive activity, 31 Power/system health, 32 System board LED, 35
mechanical `parts illustrated, 16 Memory module spare part number, 20, 22 memory modules installing, 62
applying thermal grease, 58 installing, 59 removing, 57 Processor heat sink spare part number, 21, 23 processor socket specification, 93 Processors spare part number, 20, 22 PSU removing, 73, 74 replacement warnings, 73 type, 93
dimensions, 94 LED, 35 platform, 94 replacing, 72 System board spare part number, 21, 23 system covers top cover, 40 system fan removing, 76 replacing, 77 System fan spare part number, 20, 22 system LEDs. See status LEDs system parts illustrated, 22 illustrated, 20 system structure front panel, 27 rear panel, 28 system board, 29
rear panel components, 28 Removable hard drive dummy pare part number, 16
SAS/SATA hard drive spare part number, 20, 22 server dimensions rack, 94 server warnings and cautions, 38 Setup Utility menu bar advanced menu, 82 boot menu, 84 exit menu, 87 security menu, 85 slot cover removing, 67 specifications physical and operating, 93 storage controller, 93 symbols on equipment, 39 system battery replacing, 71 system board components, 29
thermal solution, 93 top cover reinstalling, 41 removing, 40 Top cover spare part number, 16 top middle cover reinstalling, 42 Top middle cover spare part number, 16
warnings battery replacement, 70 PSU replacement, 73 warranty, 5