Intel Computer Hardware SHG2 User Manual

Intel® Server Board SHG2  
Product Guide  
A Guide for Technically Qualified Assemblers of Intel® Identified  
Subassemblies/Products  
Order Number: A90327-002  
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Contents  
1 Description  
2 Server Board Installation  
Cable Routing Intel® SC5200 Base Chassis ........................................................... 36  
Getting Started with Intel® Server Management and Intel® SMaRT Tool (Optional) ... 40  
iii  
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3 Upgrading  
4 Configuration Software and Utilities  
iv  
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5 Solving Problems  
7 Technical Reference  
8 Regulatory and Integration Information  
Contents  
v
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9 Equipment Log Worksheet  
Figures  
vi  
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viii  
Intel Server Board SHG2 Product Guide  
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1 Description  
Server Board Features  
Table 1.  
Feature  
Server Board Features  
Description  
Up to two 1.8 GHz to 2.4 GHz Intel® Xeonprocessors with 512K cache  
Processor  
support packaged in a 603-pin micro Pin-Grid Array (PGA)  
System Bus Frequency  
Memory (DRAM)  
400 MHz Front Side Bus  
Six 72-bit sockets for 184-pin, 200 MHz, 2.5 V, DDR200 or DDR266 compliant,  
registered, ECC, SDRAM single-sided or double-sided memory  
modules (DIMM)  
Video Memory  
PCI bus  
8 MB SDRAM of video memory  
One PCI-X 133 MHz/64-bit 3.3 V full-length expansion slot for an add-in  
Two PCI-X 100 MHz/64-bit full-length expansion slots  
Three standard PCI 33 MHz/32-bit full-length expansion slots for add-in  
boards  
Graphics  
SCSI  
Integrated onboard ATI RageXL 32-bit SVGA controller  
AdaptecAIC-7899W dual channel Ultra160 SCSI, supporting onboard Ultra 2  
(LVD) wide, Ultra-wide, and Ultra160 SCSI interfaces  
Network  
Two integrated onboard Network Interface Controllers (NICs):  
An Intel® 82550PM single-chip PCI LAN controller for 10Base-T/100BaseTX  
Fast Ethernet networks  
An Intel® 82544GC single-chip Gigabit Ethernet Controller capable of  
providing 10/100/1000 Mbps data rates  
Two RJ-45 Ethernet connectors at the I/O back panel  
PS/2-compatible keyboard and mouse ports, 6 pin DIN  
IEEE 1284-compliant, 25-pin, bi-directional parallel port  
VGA video port, 15-pin  
System I/O  
Two serial ports, one 9-pin on the rear I/O and one through a 10-pin header  
on the baseboard  
Two RJ-45 Ethernet ports  
Four USB ports, three on the rear I/O and one through a 10-pin header on  
the baseboard  
Form Factor  
Server ATX form factor, ATX 2.03 compliant I/O SSI Entry E-Bay 3.0  
9
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Back Panel Connectors  
A
J
K
B
C
D
E
NIC2 NIC1  
(Gbit) (10/100)  
F
G
H
I
OM14358  
A
B
C
D
E
F
AC Power*  
USB 1, 2, 3  
Mouse  
G
H
I
Video  
NIC2 (Gbit)  
NIC1 (10/100)  
Keyboard  
Parallel Port  
J
ICMB/External SCSI Connector Knockout*  
Serial B Knockout*  
K
Serial A  
* Intel SC5200 Base chassis shown here. Item may be different on your chassis.  
Figure 1. Back Panel Connectors  
10  
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Server Board Connector and Component Locations  
II  
JJ  
KK LL  
HH  
GG  
A
B
FF  
C
D
E
F
H
J
EE  
DD  
CC  
BB  
AA  
G
I
K
L
M
N
P
Z
Y
O
Q
X
W
V
U
T
S R  
OM14357  
A
Primary Processor Socket (CPU1)  
CPU2 Fan  
T
LVD SCSI B  
Battery  
B
C
D
E
F
U
V
W
X
Y
Z
Secondary Processor Socket (CPU2)  
Front Panel USB  
Serial B  
LVD SCSI A  
Jumper block CN53  
Chassis Intrusion  
Jumper Block CN27  
System Fan 5  
PCI-X 64-bit/133 MHz  
PCI 32-bit/33 MHz  
G
H
I
Floppy disk drive connector  
Secondary IDE  
AA PCI-X 64-bit/100 MHz  
BB System Fan 1  
CC System Fan 2  
DD ICMB  
J
System Fan 6  
K
L
Primary IDE  
Front Panel connector  
IPMB  
EE NIC1 (10/100)  
FF NIC2 (Gbit)  
M
N
O
P
Q
R
S
Jumper Block CN43  
System Fan 3  
GG System I/O connectors  
HH DIMMs  
System Fan 4  
II  
Main Power  
HSBP B  
JJ Aux Sig  
HSBP A  
KK +12 V CPU Power  
LL CPU1 Fan  
HDD LED Connector  
Figure 2. Server Board Connector and Component Locations  
Description  
11  
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Processor  
The Intel® Server Board SHG2 supports one or two Intel Xeon processors from 1.8 GHz to  
2.4 GHz, with 512 KB of L2 advanced transfer cache packaged in a 603-pin micro-PGA (Pin-Grid  
Array).  
When two processors are installed, both processors must be identical. When only one processor is  
installed, the processor must be installed in the CPU1 socket, which is the socket closest to the  
corner of the server board.  
For a complete list of supported processors, see:  
http://support.intel.com/support/motherboards/server/SHG2  
Memory  
The Intel Server Board SHG2 contains six 184-pin DIMM sockets. Memory is partitioned as three  
banks. DIMMs must be populated in identical pairs.  
The SHG2 server board supports up to six 2.5 V, ECC, DDR 200 or 266-compliant, registered  
SDRAM 184-pin gold DIMMs. A wide range of DIMM sizes are supported, including 128 MB,  
256 MB, 512 MB, 1 GB, and 2 GB DIMMs. The minimum supported memory configuration is  
256 MB, using two identical 128 MB DIMMs. The maximum configurable memory size is 12 GB  
using six 2 GB DIMMs.  
The SDRAM interface runs at a frequency of 200 MHz; however 266 MHz memory can be used.  
The memory controller supports 2-way interleaved SDRAM, memory scrubbing, single-bit error  
correction and multiple-bit error detection with Chipkillcapability that allows the system to  
continue to run even in the event of a multi-bit SDRAM failure.  
Memory can be implemented with either single-sided (one row) or double-sided (two row) DIMMs.  
NOTE  
Use DIMMs that have been tested for compatibility with the server board.  
Contact your sales representative or dealer for a current list of approved  
memory modules. Check the Intel Customer Support website for the latest  
tested memory list:  
http://support.intel.com/support/motherboards/server/SHG2  
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Add-in Board Connectors  
The server board has the following add-in board connectors:  
Two 184-pin full-length, 3.3 V, PCI-X 64-bit/100 MHz connectors.  
Three 120-pin full-length, 5 V, standard PCI 32-bit/33 MHz connectors.  
One 184-pin full-length, 3.3 V, connector that is capable if PCI-X 64-bit/133 MHz operation.  
To enable PCI-X 64-bit/133 MHz operation, you must disable the onboard SCSI controller  
using BIOS Setup. See page 57 for more information on using BIOS Setup. The default  
operation of this connector (slot 6) is PCI 64-bit/66 MHz operation.  
Video  
The system has an integrated ATI Rage XL 32-bit high-performance SVGA subsystem that  
supports the following:  
BIOS compatibility with all standard VGA modes  
8 MB of video memory  
Pixel resolutions up to 1600 x 1200 pixels per inch (ppi) in 8/16/24/32 bpp modes under 2D  
and up to 1024 x 768 ppi in 8/16/24/32 bpp modes under 3D  
Both CRT and LCD monitors up to 100 Hz vertical refresh rate  
Table 2.  
Video Modes  
SHG2 2D Mode Video Support  
2D Mode  
640x480  
800x600  
1024x768  
Refresh Rate (Hz)  
8 bpp  
16 bpp  
24 bpp  
32 bpp  
60, 72, 75, 90, 100 Supported  
60, 70, 75, 90, 100 Supported  
60, 72, 75, 90, 100 Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
1280x1024 43, 60  
1280x1024 70, 72  
1600x1200 60, 66  
1600x1200 76, 85  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
3D Mode  
640x480  
800x600  
1024x768  
Refresh Rate (Hz) SHG2 3D Mode Video Support with Z Buffer Enabled  
60, 72, 75, 90, 100 Supported  
60, 70, 75, 90, 100 Supported  
60, 72, 75, 90, 100 Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
1280x1024 43, 60, 70, 72  
1600x1200 60, 66, 76, 85  
Supported  
Supported  
3D Mode  
640x480  
800x600  
1024x768  
Refresh Rate (Hz) SHG2 3D Mode Video Support with Z Buffer Disabled  
60, 72, 75, 90, 100 Supported  
60, 70, 75, 90, 100 Supported  
60, 72, 75, 90, 100 Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
Supported  
1280x1024 43, 60, 70, 72  
1600x1200 60, 66, 76, 85  
Supported  
Supported  
Description  
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SCSI Controller  
The embedded Adaptec AIC-7899W dual function SCSI controller provides Ultra160 (LVDS),  
(Ultra 2), and Ultra wide (SE) SCSI interfaces as two independent PCI functions.  
The Intel SHG2 baseboard provides active terminators, termination voltage, resetable fuse, and  
protection diode for both SCSI channels.  
Modular RAID Capable PCI-X Slot 6  
The SHG2 server board supports a modular RAID controller, such as the Intel® RAID Controller  
SRCMR, on PCI-X Slot 6. An add-in card installed in this slot leverages the onboard SCSI  
controller along with its own built-in intelligence to provide a complete RAID controller subsystem  
onboard. If a specified modular RAID card is installed, then SCSI interrupts are routed to the  
RAID card instead of the PCI-X interrupt controller effectively hiding the host-based I/O device  
from the system. The SHG2 Server Board uses an implementation commonly referred to as  
“RAIDIOS” to support this feature.  
For a complete list of qualified add-in cards, see:  
http://support.intel.com/support/motherboards/server/SHG2  
IDE Controller  
The system includes a dual-channel enhanced IDE 32-bit interface controller for intelligent disk  
drives with disk controller electronics onboard. The controller has two connectors, Primary and  
Secondary, located on the system board, each of which supports a master and a slave device.  
The device supports:  
PIO, ATA-100 Synchronous DMA, and bus master IDE transfer modes  
Ultra DMA 33/66/100 synchronous DMA transfers  
Master/slave IDE modes  
Up to four devices  
USB Interface  
The SHG2 Server Board provides three external USB connectors on the rear I/O panel. The  
external connectors are defined by the USB Specification, Revision 1.1. One additional USB  
connector is supported internally through a 10-pin header on the server board that can be cabled to  
a front panel board. All four ports function identically and with the same bandwidth.  
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Network Controllers  
The server board includes two integrated onboard Network Interface Controllers (NICs).  
One NIC is a 10BASE-T/100BASE-TX network solution based on the Intel 82550PM single-chip  
Fast Ethernet PCI Bus Controller. As a PCI bus master, the controller can burst data at up to  
132 MB/s. The controller contains two receive and transmit FIFO buffers that prevent data  
overruns or underruns while waiting for access to the PCI bus. The controller has the following:  
32-bit PCI bus master interface (direct drive of bus), compatible with PCI Bus Specification,  
Revision 2.2  
Chained memory structure with improved dynamic transmit chaining for enhanced  
performance  
Programmable transmit threshold for improved bus utilization  
Early receive interrupt for concurrent processing of receive data  
On-chip counters for network management  
Auto-detect and auto-switching for 10 or 100 Mbps network speeds  
Support for both 10 Mbps and 100 Mbps networks, capable of full or half duplex, with  
back-to-back transmit at 100 Mbps  
Low-power +3.3 V device  
Alert on LAN functionality  
The second NIC is an Intel 82544GC Gigabit Ethernet Controller capable of providing  
10/100/1000 Mbps data rates. It is a single-chip device containing both the MAC and PHY layer  
functions.  
The 82544GC utilizes a 64-bit/100 MHz direct interface to the PCI-X bus. It is compliant with the  
PCI Local Bus Specification, Revision 2.2. It also supports the PCI-X extension to the PCI Local  
Bus, Revision 1.0a.  
NOTE  
If you install a 32/64-bit, 33/66 MHz PCI card in Add-in card slots 1 or 2,  
you will slow the PCI-X bus to the speed of the card you install. This will  
also slow the 82455GCs interface to the PCI-X bus.  
Network Teaming Features  
The network controller provides several options for increasing throughput and fault tolerance when  
running Windows2000 or NetWare6.0 or newer:  
Adapter Fault Tolerance (AFT) - provides automatic redundancy for your adapter. If the  
primary adapter fails, the secondary takes over. AFT works with any hub or switch.  
Adaptive Load Balancing (ALB) - creates a team of 2 - 4 adapters to increase transmission  
throughput. Also includes AFT. Works with any 10Base-TX or 100Base-TX switch.  
Fast EtherChannel(FEC) - creates a team of 2, 3, or 4 adapters to increase transmission and  
reception throughput. Also includes AFT. Requires an FEC-enabled switch.  
Description  
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Adapter Fault Tolerance  
Adapter Fault Tolerance (AFT) is a simple, effective, and fail-safe approach to increase the  
reliability of server connections. AFT gives you the ability to set up link recovery to the server  
adapter in case of a cable, port, or network interface card failure. By assigning two server adapters  
as a team, AFT enables you to maintain uninterrupted network performance.  
AFT is implemented with two server adapters: a primary adapter and a backup, or secondary,  
adapter. During normal operation, the backup will have transmit disabled. If the link to the  
primary adapter fails, the link to the backup adapter automatically takes over.  
Preferred Primary Adapter  
With multiple adapters installed, you can specify one as the Preferred Primary adapter. For  
example if you have a server with an IntelPRO/100 Intelligent Server adapter as the primary  
adapter and an IntelPRO/1000 adapter as the secondary, you would want the PRO/100 Intelligent  
Server adapter to be the preferred primary. In this scenario, if the PRO/100 Intelligent Server  
adapter fails, the PRO/1000 will take over. Then when the PRO/100 Intelligent Server adapter is  
replaced, it will automatically revert to being the primary adapter in the team.  
If a Preferred Primary is not selected, the IntelPROSet II will attempt to select the best adapter  
based on adapter model and speed.  
Mixed Adapter Teaming  
AFT supports up to four PRO/1000 or PRO/100 adapters per team, in any mix.  
Adaptive Load Balancing  
Adaptive Load Balancing (ALB) is a simple and efficient way to increase your servers transmit  
throughput. With ALB you group server adapters in teams to provide an increased transmit rate (up  
to 400 Mbps) using a maximum of four adapters. The ALB software continuously analyzes  
transmit loading on each adapter and balances the rate across the adapters as needed. Adapter  
teams configured for ALB also provide the benefits of AFT. Receive rates remain at 100 Mbps.  
To use ALB, you must have two, three, or four server adapters installed in your server or  
workstation and linked to the same network switch.  
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Keyboard and Mouse  
The keyboard/mouse controller is PS/2-compatible. If specified through the System Setup Utility  
(SSU), the server may be locked automatically if there is no keyboard or mouse activity for a  
predefined length of time. Once the inactivity (lockout) timer has expired, the keyboard and mouse  
do not respond until the previously stored password is entered.  
ACPI  
The SHG2 supports the Advanced Configuration and Power Interface (ACPI) as defined by the  
ACPI 1.0b. An ACPI-aware operating system can put the system into a sleep state where the hard  
drives spin down, the system fans stop, and all processing is halted. However, the power supply  
will still be on and the processors will still be dissipating some power, so the power supply fan and  
processor fans will still run.  
The SHG2 supports sleep states s0, s1, s4, and s5.  
s0: Normal running state.  
s1: Processor sleep state: No context will be lost in this state and the processor caches will  
maintain coherency.  
s4: Hibernate or Save to Disk: The memory and machine state are saved to disk. Pressing the  
power button or other wakeup event will restore the system state from the disk and resume  
normal operation. This assumes that no hardware changes have been made to the system while  
it was off.  
s5: Soft off: Only the real time clock (RTC) section of the chipset and the Baseboard  
Management Controller (BMC) are running in this state.  
CAUTION  
The system is off only when the AC power is disconnected.  
Security  
To help prevent unauthorized entry or use of the server, Intel® Server Management software  
monitors the system intrusion switch.  
Security with Mechanical Locks and Monitoring  
If installed, you can activate the chassis intrusion alarm switch. When the side door is opened, the  
switch transmits an alarm signal to the server board, where BMC firmware and server management  
software process the signal. The system can be programmed to respond to an intrusion by locking  
the keyboard, for example.  
Description  
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Software Locks  
The BIOS Setup and the System Setup Utility (SSU) provide a number of security features to  
prevent unauthorized or accidental access to the system. Once the security measures are enabled,  
you can access the system only after you enter the correct password(s). For example:  
Enable the keyboard lockout timer so that the server requires a password to reactivate the  
keyboard and mouse after a specified time-out period - 1 to 120 minutes.  
Set and enable a supervisor password.  
Set and enable a user password.  
Set secure mode to prevent keyboard or mouse input and to prevent use of the front panel reset  
and power switches.  
Activate a hot-key combination to enter secure mode quickly.  
Disable writing to the diskette drive when secure mode is set.  
Disable access to the boot sector of the operating system hard disk drive.  
Using Passwords  
You can set either the user password, the supervisor password, or both passwords. If only the user  
password is set, you:  
Must enter the user password to enter BIOS Setup or the SSU.  
Must enter the user password to boot the server if Password on Boot is enabled in either the  
BIOS Setup or SSU.  
Must enter the user password to exit secure mode.  
If only the supervisor password is set, you:  
Must enter the supervisor password to enter BIOS Setup or the SSU.  
Must enter the supervisor password to boot the server if Password on Boot is enabled in either  
the BIOS Setup or SSU.  
Must enter the supervisor password to exit secure mode.  
If both passwords are set, you:  
May enter the user password to enter BIOS Setup or the SSU. However, you will not be able to  
change many of the options.  
Must enter the supervisor password if you want to enter BIOS Setup or the SSU and have  
access to all of the options.  
May enter either password to boot the server if Password on Boot is enabled in either the BIOS  
Setup or SSU.  
May enter either password to exit secure mode.  
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Secure Mode  
Configure and enable the secure boot mode by using the SSU. When secure mode is in effect:  
You can boot the server and the operating system will run, but you must enter the user  
password to use the keyboard or mouse.  
You cannot turn off system power or reset the server from the front panel switches.  
Secure mode has no effect on functions enabled via the Server Manager Module or power control  
via the real time clock.  
Taking the server out of secure mode does not change the state of system power. That is, if you  
press and release the power switch while secure mode is in effect, the system will not be powered  
off when secure mode is later removed. However, if the front panel power switch remains  
depressed when secure mode is removed, the server will be powered off.  
Summary of Software Security Features  
The table below lists the software security features and describes what protection each offers. In  
general, to enable or set the features listed here, you must run the SSU and go to the Security  
Subsystem Group, menu. The table also refers to other SSU menus and to the BIOS Setup utility.  
Table 3.  
Feature  
Software Security Features  
Description  
Secure mode  
How to enter secure mode:  
Setting and enabling passwords automatically places the system in secure  
mode.  
If you set a hot-key combination (through Setup), you can secure the  
system simply by pressing the key combination. This means you do not  
have to wait for the inactivity time-out period.  
When the system is in secure mode:  
The server can boot and run the operating system, but mouse and keyboard  
input is not accepted until the user password is entered.  
At boot time, if a CD is detected in the CD-ROM drive or a diskette in drive A,  
the system prompts for a password. When the password is entered, the  
server boots from CD or diskette and disables the secure mode.  
If there is no CD in the CD-ROM drive or diskette in drive A, the server boots  
from drive C and automatically goes into secure mode. All enabled secure  
mode features go into effect at boot time.  
To leave secure mode: Enter the correct password(s).  
Disable writing to diskette  
In secure mode, the server will not boot from or write to a diskette unless a  
password is entered.  
To write protect access to diskette whether the server is in secure mode or  
not, use the Setup main menu, Floppy Options, and specify Floppy Access as  
read only.  
continued  
Description  
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Table 3.  
Feature  
Software Security Features (continued)  
Description  
Set a time-out period so  
that keyboard and mouse  
input are not accepted  
Specify and enable an inactivity time-out period of from 1 to 120 minutes.  
If no keyboard or mouse action occurs for the specified period, attempted  
keyboard and mouse input will not be accepted.  
Also, screen can be  
blanked, and writes to  
diskette can be inhibited  
The monitor display will go blank, and the diskette drive will be write protected  
(if these security features are enabled through Setup).  
To resume activity: Enter the correct password(s).  
Control access to using  
the SSU: set supervisor  
password  
To control access to setting or changing the system configuration, set a  
supervisor password and enable it through Setup.  
If both the supervisor and user passwords are enabled, either can be used to  
boot the server or enable the keyboard and/or mouse, but only the supervisor  
password will allow Setup to be changed.  
To disable a password, change it to a blank entry or press CTRL-D in the  
Change Password menu of the Supervisor Password Option menu found in  
the Security Subsystem Group.  
To clear the password if you cannot access Setup, change the Clear  
Password jumper (see Chapter 7).  
Control access to the  
system other than SSU:  
set user password  
To control access to using the system, set a user password and enable it  
through Setup.  
To disable a password, change it to a blank entry or press CTRL-D in the  
Change Password menu of the User Password Option menu found in the  
Security Subsystem Group.  
To clear the password if you cannot access Setup, change the Clear  
Password jumper (see Chapter 7).  
Boot without keyboard  
The system can boot with or without a keyboard. During POST, before the  
system completes the boot sequence, the BIOS automatically detects and  
tests the keyboard if it is present and displays a message.  
Specify the boot sequence The sequence that you specify in Setup will determine the boot order. If  
secure mode is enabled (a user password is set), then you will be prompted  
for a password before the server fully boots. If secure mode is enabled and  
the Secure Boot Modeoption is also enabled, the server will fully boot but  
will require a password before accepting any keyboard or mouse input.  
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2 Server Board Installation  
Tools and Supplies Needed  
Phillips(cross head) screwdriver (#1 bit and #2 bit)  
Flat blade screwdriver  
Antistatic wrist strap and conductive foam pad (recommended)  
Before You Begin  
Emissions Disclaimer  
To ensure EMC compliance with your local regional rules and regulations, the final configuration  
of your end system product may require additional EMC compliance testing. For more  
information, please contact your local Intel Representative.  
See Regulatory and Integration Informationon page 91 for product Safety and EMC regulatory  
compliance information. This is an FCC Class A device. Integration of it into a Class B chassis  
does not result in a Class B device.  
Safety Cautions  
CAUTIONS  
Electrostatic discharge (ESD) & ESD protection: ESD can damage disk  
drives, boards, and other parts. We recommend that you perform all  
procedures in this chapter only at an ESD workstation. If one is not  
available, provide some ESD protection by wearing an antistatic wrist strap  
attached to chassis groundany unpainted metal surfaceon your server  
when handling parts.  
ESD and handling boards: Always handle boards carefully. They can be  
extremely sensitive to ESD. Hold boards only by their edges. After  
removing a board from its protective wrapper or from the server, place the  
board component side up on a grounded, static free surface. Use a  
conductive foam pad if available but not the board wrapper. Do not slide  
board over any surface.  
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Safety and Regulatory Compliance  
See Regulatory and Integration Informationon page 91 for product Safety and EMC regulatory  
compliance information.  
Intended uses: This product was evaluated for use in servers that will be installed in offices,  
computer rooms, and similar locations. Other uses require further evaluation.  
EMC testing: Before computer integration, make sure that the chassis, power supply, and other  
modules have passed EMC testing using a server board with a microprocessor from the same  
family (or higher) and operating at the same (or higher) speed as the microprocessor used on this  
server board.  
Server board diagram label provided: Place the label inside the chassis in an easy-to-see location,  
preferably oriented similarly to the server board.  
Minimum Hardware Requirements  
To avoid integration difficulties and possible board damage, your system must meet the following  
minimum requirements.  
For more information on supported processors and qualified memory and chassis components, see:  
http://support.intel.com/support/motherboards/server/SHG2  
Processor  
A minimum of one 1.8 GHz Intel Xeon processor with 512K cache support packaged in a 603-pin  
micro-PGA (Pin-Grid Array).  
Memory  
Minimum of two 128 MB ECC, DDR 200 or 266-compliant registered SDRAM 184-pin gold  
DIMMs. DIMMs must be populated in identical pairs.  
Power Supply  
Minimum of 450 W with 1.2 A +5 V standby current (in order to support Wake On LAN(WOL))  
and 12+ V CPU power support [ATX], which meets the SSI EPS 12 V specification. You must  
provide standby current, or the board will not boot.  
For more information on the SSI EPS 12 V specification, see:  
http://www.ssiforum.org  
22  
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Installation Notes  
Installation Process Quick Reference  
Step  
Where the information is located  
This guide  
Install the primary processor  
Install the secondary processor (optional)  
Install memory  
This guide  
This guide  
Remove the access cover  
Install the I/O shield  
Your chassis manual  
This guide  
Rearrange the standoffs  
Install the server board  
This guide  
This guide  
Connect cables to the server board  
Finish setting up your chassis  
This guide and your chassis manual  
Your chassis manual  
Installation Procedures  
Installing the I/O Gasket and Shield  
NOTE  
An ATX 2.03-compliant I/O shield is provided with the server board. The  
shield is required by Electromagnetic Interference (EMI) regulations to  
minimize EMI. If the shield does not fit the chassis, obtain a properly sized  
shield from the chassis supplier.  
The shield fits the rectangular opening in the back of a chassis. The shield has cutouts that match  
the I/O ports. Install the shield from inside the chassis.  
Server Board installation  
23  
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Attaching the Gasket to the I/O Shield  
1. Remove the two backing strips from the gasket.  
2. Press the gasket onto the inside face of the I/O shield as shown.  
OM14359  
Figure 3. Attaching the Gasket to the I/O Shield  
Attaching the Label to the I/O Shield  
1. Remove the backing from the label included with your server board.  
2. Press the label onto the outside face of the I/O shield.  
U
S
B
M
O
U
S
E
K
Y
B
D
P
A
R
A
L
L
E
L
N
IC  
it)  
(G  
2
b
N
/1  
IC  
(1  
1
)
0
0
0
OM14360  
Figure 4. Attaching the Label to the I/O Shield  
24  
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Installing the I/O Shield  
1. Position one edge so that the dotted groove is outside the chassis wall, and the lip of the shield  
rests on the inner chassis wall.  
2. Hold the shield in place, and push it into the opening until it is seated. Make sure the I/O shield  
snaps into place all the way around.  
OM14361  
Figure 5. Installing the I/O Shield  
Server Board installation  
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Installing Memory  
The SHG2 Server Board contains six 184-pin DIMM sockets. Memory is partitioned as three  
banks. DIMMs must be populated in identical pairs.  
3B  
3A  
2B  
2A  
1B  
1A  
OM14558  
Figure 6. DIMM Locations  
The SHG2 server board supports up to six 2.5 V, ECC, DDR 200 or 266-compliant, registered  
SDRAM 184-pin gold DIMMs. A wide range of DIMM sizes are supported, including 128 MB,  
256 MB, 512 MB, 1 GB, and 2 GB DIMMs. The minimum supported memory configuration is  
256 MB, using two identical 128 MB DIMMs. The maximum configurable memory size is 12 GB  
using six 2 GB DIMMs.  
The SDRAM interface runs at 200 MHz; however 266 MHz memory can be used. The memory  
controller supports 2-way interleaved SDRAM, memory scrubbing, single-bit error correction and  
multiple-bit error detection with Chipkill capability that allows the system to continue to run even  
in the event of a multi-bit SDRAM failure. Memory can be implemented with either single-sided  
(one row) or double-sided (two row) DIMMs.  
NOTE  
Use DIMMs that have been tested for compatibility with the server board.  
Contact your sales representative or dealer for a current list of approved  
memory modules. Check the Intel Customer Support website for the latest  
tested memory list:  
26  
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1. If the server board is not already installed in the chassis, remove the server board from its  
packaging and place it on a clean ESD protected work surface such as the antistatic plastic  
packaging in which the board was shipped.  
2. Open both DIMM socket levers.  
3. Insert DIMM making sure the connector edge of the DIMM aligns correctly with the slot.  
4. Check that socket levers are securely latched. DIMMs must be populated in identical pairs.  
2
1A  
3
1B  
Figure 7. Installing Memory  
1
OM13205  
Configuring Chassis Standoffs  
If your chassis does not have standoffs placed as shown below, you must rearrange them so they  
match the holes in the server board. Failure to properly rearrange the metal standoffs may cause the  
server board to malfunction and may permanently damage it. Your chassis may be different from  
the illustration.  
For the Intel SC5200 chassis:  
1. Install standoffs in positions 5, 18, S, 19 and in the eight positions marked P. Standoffs are  
included with your chassis. Standoff numbering in other chassis may be different.  
20  
23  
1
P
P
P
P
P
P
P
P
4
18  
19  
S
5
6
26  
OM14362  
Figure 8. Configuring Chassis Standoffs  
Server Board installation  
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Installing the Server Board  
1. Place the board into the chassis, making sure that the back panel I/O shield openings and  
chassis standoffs align correctly.  
2. Attach the board with the screws included with your chassis at the ten locations marked below.  
For the Intel SC5200 chassis, these screws are packaged in a bag labeled C.”  
2
1
OM14363  
Figure 9. Placing the Server Board in the Chassis  
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Installing the Processor(s)  
CAUTIONS  
If only one processor is to be used, it must be installed in the Processor  
Socket labeled CPU1, which is the socket closest to the corner of the  
server board.  
If you are adding a second processor to your system, you must verify that the  
second processor is identical in speed to the first processor.  
This server board has zero-insertion-forcesockets. If processor does not  
drop easily into socket holes, make sure the lever is in the full-upright  
position and the processor is oriented properly.  
1. Observe the safety and ESD precautions at the beginning of this chapter and the additional  
precautions given here.  
2. Install the retention brackets for the primary processor by inserting the retention brackets and  
tightening the four retention screws. The primary processor socket is located nearest to the  
corner of the server board. If installing a second processor, install the retention brackets for the  
secondary processor.  
A
OM14364  
A. Heat Sink Retention Bracket  
Figure 10. Installing the Retention Brackets  
Server Board installation  
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3. Lift the socket lever on the processor socket labeled CPU1. (If adding a second processor, lift  
the socket lever on the processor socket labeled CPU2.)  
4. Align the pins of the processor with the socket, and insert the processor into the socket. Lower  
the socket lever completely.  
NOTE  
When installing a second processor, note that the secondary processor socket  
is oriented so that the processor pins are rotated 180° relative to the primary  
processor socket.  
A
B
OM14365  
A. Alignment Triangle Mark  
B. Alignment Triangle Cutout  
Figure 11. Opening Socket Lever and Attaching Processor  
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5. Apply thermal grease to the processor as shown.  
OM14366  
Figure 12. Applying Thermal Grease  
6. Align the heat sink with the retention brackets and place heat sink on the processor.  
OM14367  
Figure 13. Aligning the Heat Sink  
Server Board installation  
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7. Position the retention clip over the plastic tab and engage the retention clip end-slot over the  
plastic tab (see 1 in Figure 14). Note that the slot in the clip provides room for side-to-side  
motion while engaging the retention clip slots located at each end.  
8. Press downward on the retention clip ends over the plastic tabs on the retention bracket (see  
9. Install two retention clips for each processor you install.  
2
1
2
OM14368  
Figure 14. Attaching the Heat Sink and Retention Clip  
Installing the Processor Wind Tunnel  
The following instructions apply to the Intel SC5200 Base Server Chassis and reference chassis  
installations. If you are installing your server board in the Intel SC5200 Hot-Swap, Redundant  
Power Server Chassis, DO NOT install the processor wind tunnel. The ducting in the Intel SC5200  
Hot-Swap, Redundant Power Server Chassis eliminates the need for a processor wind tunnel.  
Air flow for the processor wind tunnel should be directed toward the rear of the chassis as shown  
below.  
OM14375  
Figure 15. Processor Wind Tunnel Air Flow  
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1. Install processor wind tunnel center section over the heat sink / processor assembly. Note that  
plastic tabs on the wind tunnel center section engage the tabs on the retention clips.  
OM14369  
Figure 16. Attaching the Wind Tunnel Assembly  
2. Attach the processor wind tunnel fan to the wind tunnel air intake assembly as shown. The fan  
label must be pointing into the air intake assembly.  
Fan label  
OM14370  
Figure 17. Attaching the Heat Sink Fan to the Air Intake Assembly  
CAUTION  
To ensure proper system cooling, the heat sink fan must be installed as  
shown in Figure 18 and the air intake fan assembly must be attached to the  
side of the processor / wind tunnel assembly nearest to the front of the  
chassis.  
Server Board installation  
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3. Attach the air intake fan assembly to the side of the heat sink wind tunnel closest to the front of  
the chassis.  
a. Press both sides of the air intake section to bend tabs inward (see 1 in Figure 18).  
b. Insert tabs into slots on the wind tunnel center section (see 2 in Figure 18).  
c. Press the air intake section downward to engage the assembly (see 3 in Figure 18).  
1
2
3
1
OM14371  
Figure 18. Attaching the Wind Tunnel Intake and Exhaust  
4. Attach the air exhaust fan assembly to the heat sink wind tunnel.  
a. Press both sides of the air exhaust section to bend tabs inward (see 1 in Figure 19).  
b. Insert tabs into slots on the wind tunnel center section (see 2 in Figure 19).  
c. Press the air intake section downward to engage the assembly (see 3 in Figure 19).  
2
1
3
1
OM14374  
Figure 19. Attaching the Wind Tunnel Intake and Exhaust  
5. Attach CPU Fan cable(s). See the next section Making Connections to the Server Boardfor  
fan connector location information.  
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Making Connections to the Server Board  
II  
JJ  
KK LL  
HH  
GG  
A
B
FF  
C
D
E
F
H
J
EE  
DD  
CC  
BB  
AA  
G
I
K
L
M
N
P
Z
Y
O
Q
X
W
V
U
T
S R  
OM14357  
A. Primary Processor Socket (CPU1)  
B. CPU2 Fan  
T. LVD SCSI B  
U. Battery  
C. Secondary Processor Socket (CPU2)  
D. Front Panel USB  
E. Serial B  
F. Jumper Block CN27  
G. System Fan 5  
H. Floppy disk drive connector  
I. Secondary IDE  
J. System Fan 6  
V. LVD SCSI A  
W. Jumper block CN53  
X. Chassis Intrusion  
Y. PCI-X 64-bit/133 MHz  
Z. PCI 32-bit/33 MHz  
AA. PCI-X 64-bit/100 MHz  
BB. System Fan 1  
CC. System Fan 2  
DD. ICMB  
K. Primary IDE  
L. Front Panel connector  
M. IPMB  
EE. NIC1 (10/100)  
FF. NIC2 (Gbit)  
N. Jumper Block CN43  
O. System Fan 3  
GG. System I/O connectors  
HH. DIMMs  
P. System Fan 4  
II. Main Power  
Q. HSBP B  
JJ. Aux Sig  
R. HSBP A  
S. HDD LED  
KK. +12 V CPU Power  
LL. CPU1 Fan  
Figure 20. Making Connections to the Server Board  
Server Board installation  
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Intel® SC5200 Base Server Chassis Note  
Connect front system fans to the System Fan 3 and System Fan 4 connectors on the server board.  
Intel SC5200 Hot-Swap, Redundant Power Server Chassis Note  
Be sure to attach system fans to their correspondingly numbered connector on the server board.  
System fan numbers can be found on the system fan carrier and on the system fan cables.  
Cable Routing – Intel SC5200 Base Chassis  
To ensure proper air-flow within the chassis, follow the cable routing guidelines below.  
IDE or SCSI Cables  
Cables that connect to devices in the lower device bays should be routed around the epac system  
fan carrier as shown below.  
1. Route cables as shown.  
2. Replace the top half of the epac.  
OM14556  
Figure 21. Routing Cables  
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Floppy and Front Panel Cables  
Route the floppy drive and front panel cables as shown.  
A
B
OM14376  
A. Front Panel Cable  
B. Floppy Diskette Cable  
Figure 22. Routing the Floppy and Front Panel Cables  
Cable Routing – Intel SC5200 Hot-Swap, Redundant Power  
Chassis  
Route the floppy drive cable and the hot-swap drive bay ICMB cable between the chassis wall and  
the hot-swap fan holder as shown below at location A.  
A
OM14377  
A. Cable Routing Location  
Figure 23. Routing the Floppy and ICMB Cables  
Server Board installation  
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Installing the Serial B Cable  
For the Intel SC5200 chassis, you can connect the Serial B serial port cable to either the front (rack  
configuration only) or back panels. Connecting it to the back panel is illustrated below.  
1. Install the Serial B cable by inserting it into the chassis back panel cutout and attaching it as  
shown.  
2. Attach the other end to the Serial B connector located on your server baseboard. See Making  
Connections to the Server Boardon page 35 for the Serial B connector location.  
A
B
OM14557  
A. Chassis Back Panel Cutout  
B. Screw  
Figure 24. Installing the Serial B Cable  
38  
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Finishing Up  
WARNING  
An electrical shock hazard exists if the chassis cover is not replaced  
before connecting the chassis AC power.  
1. Install the chassis cover according to the instructions for your chassis.  
2. See your chassis documentation to complete rack or pedestal installation.  
3. Connect the keyboard, mouse and monitor cables to the back panel.  
4. Connect the power cable to the back panel and to an AC outlet.  
A
J
K
B
C
D
E
NIC2 NIC1  
(Gbit) (10/100)  
F
G
H
I
OM14358  
A
B
C
D
E
F
AC Power*  
USB 1,2, 3  
Mouse  
G
H
I
Video  
NIC2 (Gbit)  
NIC1 (10/100)  
Keyboard  
Parallel Port  
Serial A  
J
ICMB/External SCSI Connector Knockout*  
Serial B Knockout*  
K
* Intel SC5200 Base chassis shown here. Item may be different on your chassis.  
Figure 25. Making Back Panel Connections  
Server Board installation  
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Getting Started with Intel® Server Management and Intel® SMaRT  
Tool (Optional)  
Intel® Server Management and the hard drive Service Partition provide real-time monitoring and  
alerting for your SHG2 server hardware, emergency remote management, and remote server setup.  
Intel Server Management is implemented by installing it within client-server architecture.  
The Service Partition provides you with the ability to remotely access a local partition on the server  
and to identify and diagnose server health issues. Remote access is provided through either a  
modem or network connection.  
To get started with Intel Server Management, install the Service Partition first, then the systems  
operating system, and finally Intel Server Control. The information here describes installation on a  
system running a Microsoft Windows operating system.  
The Intel® Server Maintenance and Reference Training (SMaRT) Tool is an interactive software  
tool providing support information to assist with the maintenance and repair of Intel-based server  
systems and accessories. SMaRT Tool features visual, step-by-step instructions for replacing parts;  
a complete Field Replacement Unit (FRU) database containing part numbers and images; product  
spares lists, and worldwide Intel support information.  
Intel Server Management provides an interface to the Intel® SMaRT Tool, combining remote error  
detection and alerting with interactive maintenance and repair assistance. When Intel Server  
Management detects a hardware error and a part needs replacing, SMaRT Tool can be launched  
directly from Intel Server Management to locate the correct part information and corresponding  
"How to Replace" steps required to quickly get the server back up and running.  
To activate Intel Server Managements interface with the Intel SMaRT Tool, both software  
programs need to be installed. You can install the software on a server or on a workstation used to  
manage the server. The information here describes installation on a system running a Microsoft  
Windows operating system. For other operating systems, see the Installation Guide & User Guide  
located in the ISM/Docsfolder on the Intel Server Management CD-ROM. SMaRT Tool and  
ISM Console may only be installed on a system running a Microsoft Windows operating system.  
Note: Prior to installation, uninstall any previous version of Intel Server Control.  
Installing a Service Partition on the Server (Optional)  
The Service Partition provides advanced remote management and configuration functionality.  
Installing it on a server is optional.  
1. Power-on the server, insert the Intel Server Management CD into the CD-ROM drive, and boot  
to the CD.  
2. Select Utilities > Run Service Partition Administrator > Create Service Partition-first  
time.  
3. Select an available hard drive. The server will reboot to the CD.  
4. Select Format Service Partition and Install Software.  
5. Exit the menu. Remove the CD and reboot to install the server operating system. After  
installing the operating system, proceed to Installing Intel Server Management.  
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Installing your Operating System  
Install your operating system now.  
Installing Intel Server Management  
You can install Intel Server Management on a local server or on a remote workstation that is used  
to manage a LAN/WAN.  
1. Insert the Intel Server Management CD into the systems CD-ROM.  
2. Click Install Server Management.  
3. Complete the Registration form and click Submit.  
4. Select the applicable system option.  
5. Review the Intel Software License Agreement and click Accept.  
6. If installing to a local server, click Install Now. If this is a multiple system installation, click  
Add to compile a list of systems and then click Install Now.  
7. Select Reboot Now or Reboot Later.  
8. Remove the Intel Server Management CD.  
Server Board installation  
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Installing Intel SMaRT Tool  
Follow the instructions below to install the Intel Server Maintenance and Reference Training Tool  
(SMaRT Tool) on your system.  
NOTES  
SMaRT Tool may only be installed on a system running a Microsoft  
Windows operating system.  
To download the SHG2 SC5200 server system module for SMaRT Tool, you  
must have Internet access.  
1. Insert the Intel Server Board SHG2 Resource CD into the systems CD-ROM drive.  
2. Click on Intel SMaRT Tool in the menu on the left side of the screen.  
3. In the green Make a Selection drop-down menu, select SMaRT Tool Install Guide. Print the  
Guide, and keep it on hand for reference.  
4. Review the SMaRT Tool Install Guide prior to proceeding.  
5. In the Make a Selection drop-down menu, select Install SMaRT Tool.  
6. Click on the Run Installer icon to launch the SMaRT Tool Setup program.  
7. Follow the on-screen installation instructions. Review the Intel Software License Agreement  
and click Accept. When installation is complete, launch SMaRT Tool.  
8. In SMaRT Tools Welcome page, click on Systems.  
9. Select Select System > Servers > Xeon > SHG2 SC5200 and then follow the on-screen  
instructions to download the SHG2 SC5200 server system module. When download is  
complete, SMaRT Tool will restart.  
10. Select Systems > Select System > Servers > Xeon > SHG2 SC5200 to access information on  
your new server system.  
11. You can invoke SMaRT Tool directly from Intel Server Managements Platform  
Instrumentation Control application by clicking on the SMaRT Tool icon, or by selecting  
Launch SMaRT Tool from the SMaRT Tool menu. The interface between the two programs  
is context-sensitive. To find out more about the integration between Intel SMaRT Tool and  
Intel Server Management, please select SMaRT Tool and Server Management in the Make a  
Selection drop-down menu.  
42  
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3 Upgrading  
Tools and Supplies Needed  
Phillips (cross head) screwdriver (#1 bit and #2 bit)  
Antistatic wrist strap and conductive foam pad (recommended)  
Cautions  
These warnings and cautions apply throughout this chapter. Only a technically qualified person  
should configure the server board.  
CAUTIONS  
System power on/off: The power button DOES NOT turn off the system  
AC power. To remove power from system, you must unplug the AC power  
cord from the wall outlet. Make sure the AC power cord is unplugged before  
you open the chassis, add, or remove any components.  
Hazardous conditions, devices & cables: Hazardous electrical conditions  
may be present on power, telephone, and communication cables. Turn off  
the server and disconnect the power cord, telecommunications systems,  
networks, and modems attached to the server before opening it. Otherwise,  
personal injury or equipment damage can result.  
Electrostatic discharge (ESD) & ESD protection: ESD can damage disk  
drives, boards, and other parts. We recommend that you perform all  
procedures in this chapter only at an ESD workstation. If one is not  
available, provide some ESD protection by wearing an antistatic wrist strap  
attached to chassis groundany unpainted metal surfaceon your server  
when handling parts.  
ESD and handling boards: Always handle boards carefully. They can be  
extremely sensitive to ESD. Hold boards only by their edges. After  
removing a board from its protective wrapper or from the server, place the  
board component side up on a grounded, static free surface. Use a  
conductive foam pad if available but not the board wrapper. Do not slide  
board over any surface.  
43  
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Installing or removing jumpers: A jumper is a small plastic encased  
conductor that slips over two jumper pins. Some jumpers have a small tab on  
top that you can grip with your fingertips or with a pair of fine needle nosed  
pliers. If your jumpers do not have such a tab, take care when using needle  
nosed pliers to remove or install a jumper; grip the narrow sides of the  
jumper with the pliers, never the wide sides. Gripping the wide sides can  
damage the contacts inside the jumper, causing intermittent problems with  
the function controlled by that jumper. Take care to grip with, but not  
squeeze, the pliers or other tool you use to remove a jumper, or you may  
bend or break the stake pins on the board.  
Memory  
The SHG2 Server Board contains six 184-pin DIMM sockets. Memory is partitioned as three  
banks. DIMMs must be populated in identical pairs.  
The SHG2 server board supports up to six 2.5 V, ECC, DDR 200 or 266-compliant, registered  
SDRAM 184-pin gold DIMMs. A wide range of DIMM sizes are supported, including 128 MB,  
256 MB, 512 MB, 1 GB, and 2 GB DIMMs. The minimum supported memory configuration is  
256 MB, using two identical 128 MB DIMMs. The maximum configurable memory size is 12 GB  
using six 2 GB DIMMs.  
The SDRAM interface runs at 200 MHz; however 266 MHz memory can be used. The memory  
controller supports 2-way interleaved SDRAM, memory scrubbing, single-bit error correction and  
multiple-bit error detection with Chipkill capability that allows the system to continue to run even  
in the event of a multi-bit SDRAM failure. Memory can be implemented with either single-sided  
(one row) or double-sided (two row) DIMMs.  
NOTE  
Use DIMMs that have been tested for compatibility with the server board.  
Contact your sales representative or dealer for a current list of approved  
memory modules. Check the Intel Customer Support website for the latest  
tested memory list:  
44  
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1. Open both DIMM socket levers.  
2. Insert DIMM making sure the connector edge of the DIMM aligns correctly with the slot.  
3. Check that socket levers are securely latched. DIMMs must be populated in identical pairs.  
2
1A  
3
1B  
Figure 26. Installing Memory  
1
OM13205  
Processors  
WARNING  
If the server has been running, any installed processor and heat sink on  
the processor board(s) will be hot. To avoid the possibility of a burn, be  
careful when removing or installing server board components that are  
located near processors.  
CAUTIONS  
Adding a second processor: If you are adding a second processor to your  
system, you must verify that the second processor is identical to the first  
processor.  
Processor upgrades must be appropriate: You may damage the server if  
you install a processor that is inappropriate for your server. Make sure your  
server can handle a newer, faster processor (thermal and power  
considerations). For exact information about processor interchangeability,  
contact your customer service representative or visit the Intel Customer  
Support website:  
http://support.intel.com/support/motherboards/server/SHG2  
ESD and handling processors: Reduce the risk of electrostatic discharge  
(ESD) damage to the processor by doing the following: (1) Touch the metal  
chassis before touching the processor or server board. Keep part of your  
body in contact with the metal chassis to dissipate the static charge while  
handling the processor. (2) Avoid moving around unnecessarily.  
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Adding or Replacing a Processor  
If you are adding a second processor to your system, the second processor must be identical in  
speed with the first processor.  
1. Observe the safety and ESD precautions at the beginning of this chapter and the additional  
cautions given here.  
2. Remove power from your system by unplugging the AC power cord.  
3. Remove the side cover (see your system or chassis documentation for instructions).  
4. Install the retention brackets for the primary processor by inserting the retention brackets (A)  
and tightening the four retention screws. The primary processor socket is located nearest to the  
corner of the server board. If installing a second processor, install the retention brackets for the  
secondary processor.  
A
OM14364  
Figure 27. Installing the Retention Brackets  
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5. Lift the socket lever on the processor socket labeled CPU1. (If adding a second processor, lift  
the socket lever on the processor socket labeled CPU2.)  
6. Align the pins of the processor with the socket, and insert the processor into the socket. Lower  
the socket lever completely.  
NOTE  
When installing a second processor, note that the secondary processor socket  
is oriented so that the processor pins are rotated 180° relative to the primary  
processor socket.  
A
B
OM14365  
C. Alignment Triangle Mark  
D. Alignment Triangle Cutout  
Figure 28. Opening Socket Lever and Attaching Processor  
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7. Apply thermal grease to the processor as shown.  
OM14366  
Figure 29. Applying Thermal Grease  
8. Align the heat sink with the retention brackets and place heat sink on the processor.  
OM14367  
Figure 30. Aligning the Heat Sink  
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9. Position the retention clip over the plastic tab and engage the retention clip end-slot over the  
plastic tab (see 1 in Figure 31). Note that the slot in the clip provides room for side-to-side  
motion while engaging the retention clip slots located at each end.  
10. Press downward on the retention clip ends over the plastic tabs on the retention bracket (see 2  
11. Install two retention clips on each processor you install.  
2
1
2
OM14368  
Figure 31. Attaching the Heat Sink and Retention Clip  
Installing the Processor Wind Tunnel  
The following instructions apply to the Intel SC5200 Base Server Chassis and reference chassis  
installations. If you are installing your server board in the Intel SC5200 Hot-Swap, Redundant  
Power Server Chassis, DO NOT install the processor wind tunnel. The ducting in the Intel SC5200  
Hot-Swap, Redundant Power Server Chassis eliminates the need for a processor wind tunnel.  
1. Install processor wind tunnel center section over the heat sink / processor assembly. Note that  
plastic tabs engage the tabs on the retention clips.  
OM14369  
Figure 32. Attaching the Wind Tunnel Assembly  
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2. Attach the processor wind tunnel fan to the wind tunnel air intake assembly as shown. The fan  
label must be pointing into the air intake assembly.  
Fan label  
OM14370  
Figure 33. Attaching the Heat Sink Fan to the Air Intake Assembly  
CAUTION  
To ensure proper system cooling, the heat sink fan must be installed as  
shown in Figure 34 and the air intake fan assembly must be attached to the  
side of the processor / wind tunnel assembly nearest to the front of the  
chassis.  
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3. Attach the air intake fan assembly to the side of the heat sink wind tunnel closest to the front of  
the chassis.  
a. Press both sides of the air intake section to bend tabs inward (see 1 in Figure 34).  
b. Insert tabs into slots on the wind tunnel center section (see 2 in Figure 34).  
c. Press the air intake section downward to engage the assembly (see 3 in Figure 34).  
1
2
3
1
OM14371  
Figure 34. Attaching the Wind Tunnel Intake and Exhaust  
4. Attach the air exhaust fan assembly to the heat sink wind tunnel.  
a. Press both sides of the air exhaust section to bend tabs inward (see 1 in Figure 35).  
b. Insert tabs into slots on the wind tunnel center section (see 2 in Figure 35).  
c. Press the air intake section downward to engage the assembly (see 3 in Figure 35).  
2
1
3
1
OM14374  
Figure 35. Attaching the Wind Tunnel Intake and Exhaust  
5. Attach CPU Fan cable(s). See Making Connections to the Server Boardon page 35 for fan  
connector location information.  
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Removing a Processor  
1. Observe the safety and ESD precautions at the beginning of this chapter and the additional  
cautions given here.  
2. Unplug the heat sink fan.  
3. Detach the processor wind tunnel, if attached to the heat sink.  
4. Detach the heat sink clip from the processor socket. See the documentation that shipped with  
your processor for more detail.  
5. Remove the heat sink from the processor.  
6. Raise the locking bar on the socket.  
7. Remove the processor from the socket.  
Replacing the Backup Battery  
The lithium battery on the server board powers the RTC for up to 10 years in the absence of power.  
When the battery starts to weaken, it loses voltage, and the server settings stored in CMOS RAM in  
the RTC (for example, the date and time) may be wrong. Contact your customer service  
representative or dealer for a list of approved devices.  
WARNING  
Danger of explosion if battery is incorrectly replaced. Replace only with  
the same or equivalent type recommended by the equipment  
manufacturer. Discard used batteries according to manufacturer’s  
instructions.  
ADVARSEL!  
Lithiumbatteri - Eksplosionsfare ved fejlagtig håndtering. Udskiftning  
må kun ske med batteri af samme fabrikat og type. Levér det brugte  
batteri tilbage til leverandøren.  
ADVARSEL  
Lithiumbatteri - Eksplosjonsfare. Ved utskifting benyttes kun batteri  
som anbefalt av apparatfabrikanten. Brukt batteri returneres  
apparatleverandøren.  
VARNING  
Explosionsfara vid felaktigt batteribyte. Använd samma batterityp eller  
en ekvivalent typ som rekommenderas av apparattillverkaren. Kassera  
använt batteri enligt fabrikantens instruktion.  
VAROITUS  
Paristo voi räjähtää, jos se on virheellisesti asennettu. Vaihda paristo  
ainoastaan laitevalmistajan suosittelemaan tyyppiin. Hävitä käytetty  
paristo valmistajan ohjeiden mukaisesti.  
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1. Observe the safety and ESD precautions at the beginning of this chapter.  
2. Open the chassis.  
3. Insert the tip of a small flat-blade screwdriver, or equivalent, under the tab in the plastic  
retainer. Gently push down on the screwdriver to lift the battery.  
4. Remove the battery from its socket.  
5. Dispose of the battery according to local ordinance.  
6. Remove the new lithium battery from its package, and, being careful to observe the correct  
polarity, insert it in the battery socket.  
7. Close the chassis.  
8. Run BIOS Setup to restore the configuration settings to the RTC.  
OM14372  
Figure 36. Replacing the Back up Battery  
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4 Configuration Software and Utilities  
This chapter describes the Power-On Self-Test (POST) and server configuration utilities. The table  
below briefly describes the utilities.  
Table 4.  
Utility  
Configuration Utilities  
Description  
Page  
BIOS Setup  
Used for modifying server board set features, including setting time,  
date, and system passwords; setting the boot device priority;  
configuring the diskette drive and serial ports; and enabling the SCSI  
BIOS and system management features.  
System Setup Utility  
(SSU)  
Used for viewing and clearing the system event log, viewing the  
system management FRU information, or viewing the system  
management SDR repository.  
FRUSDR Load Utility  
Used for updating the Field Replacement Unit (FRU), Sensor Data  
Record (SDR), and SM BIOS (SMB) flash components.  
BIOS Upgrade Utility  
Firmware Update Utility  
Adaptec SCSI Utility  
Used to upgrade the BIOS.  
Used to update the Firmware.  
Used to configure or view the settings of the SCSI host adapters and  
onboard SCSI devices in the server.  
Hot Keys  
Use the keyboards numeric pad to enter numbers and symbols.  
Table 5.  
Hot Keys  
To do this:  
Press these keys  
Clear memory and reload the operating  
system - this is a system reset.  
<Ctrl+Alt+Del>  
Secure your system immediately.  
<Ctrl+Alt>+hot key (Set your hot key combination with Setup.)  
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Power-On Self-Test (POST)  
Each time you turn on the system, POST starts running. POST checks the server board, processor,  
memory, keyboard, and most installed peripheral devices. During the memory test, POST displays  
the amount of memory that it is able to access and test. The length of time needed to test memory  
depends on the amount of memory installed. POST is stored in flash memory.  
1. Turn on your video monitor and server. After a few seconds POST begins to run.  
2. After the memory test, these screen prompts and messages appear:  
Press <F2> to enter SETUP  
3. If you do not press <F2> and do NOT have a device with an operating system loaded, the  
above message remains for a few seconds while the boot process continues, and the system  
beeps once. Then this message appears:  
Operating system not found  
If you do not press <F2> and DO have an operating system loaded, the boot process continues,  
and this message appears:  
Press <Ctrl><A> to enter SCSI Utility  
4. Press <Ctrl+A> if there are SCSI devices installed. When the utility opens, follow the  
displayed instructions to configure the onboard SCSI host adapter settings and to run the  
SCSI utilities. Also see Using the Adaptec SCSI Utilityon page 78. If you do not enter the  
SCSI utility, the boot process continues.  
5. Press <Esc> during POST to pop up a boot menu when POST finishes. From this menu you  
can choose the boot device or enter BIOS Setup.  
After POST completes, the system beeps once.  
What appears on the screen after this depends on whether you have an operating system loaded and  
if so, which one.  
If the system halts before POST completes running, it emits a beep code indicating a fatal system  
error that requires immediate attention. If POST can display a message on the video display screen,  
it causes the speaker to beep twice as the message appears.  
Note the screen display and write down the beep code you hear; this information is useful for your  
service representative. For a listing of beep codes and error messages that POST can generate, see  
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Using BIOS Setup  
This section describes the BIOS Setup options. Use Setup to change the server configuration  
defaults. You can run Setup with or without an operating system being present. Setup stores most  
of the configuration values in battery backed CMOS; the rest of the values are stored in flash  
memory. The values take effect when you boot the server. POST uses these values to configure  
the hardware; if the values and the actual hardware do not agree, POST generates an error message.  
You must then run Setup to specify the correct configuration.  
Record Your Setup Settings  
Record your setup settings on a worksheet. If the default values ever need to be restored (after a  
CMOS clear, for example), you must run Setup again. Referring to the worksheet could make your  
task easier.  
If You Cannot Access Setup  
If the diskette drive is misconfigured so that you cannot access it to run a utility from a diskette,  
you may need to clear CMOS memory. You will need to open the server, change a jumper setting,  
use Setup to check and set diskette drive options, and change the jumper back. For a step-by-step  
procedure, see Chapter 5, under the heading, CMOS Jumper.”  
Starting Setup  
You can enter and start Setup under several conditions:  
When you turn on the server, after POST completes the memory test  
When you reboot the server by pressing <Ctrl+Alt+Del> while at the DOS operating system  
prompt  
When you have moved the CMOS jumper on the server board to the Clear CMOSposition  
(enabled); for the procedure, see Server Board Jumperson Page 89.  
In the three conditions listed above, after rebooting, you will see this prompt:  
Press <F2> to enter SETUP  
NOTE  
If the BIOS setup option POST Diagnostic Screenis enabled (Default),  
you will not see the message Press <F2> to enter SETUP.This message is  
hidden by the Manufacturers Splash screen. To see the message, press the  
<ESC> key while the splash screen is displayed. This will temporarily  
disable the splash screen allowing you to see the message.  
In a fourth condition, when CMOS/NVRAM has been corrupted, you will see other prompts but not  
the <F2> prompt:  
Warning: cmos checksum invalid  
Warning: cmos time and date not set  
In this condition, the BIOS will load default values for CMOS and attempt to boot.  
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Using the System Setup Utility  
The System Setup Utility (SSU) is located on the Intel Server Board SHG2 Resource CD-ROM  
shipped with the server.  
Run the System Setup Utility to:  
Set boot device priority  
Set passwords and security options  
View system events  
View FRU information  
View sensor data records  
Update system firmware and BIOS  
Save and restore the system configuration  
Set up the server to send alerts for platform events  
Set up the server for remote management  
You can specify the boot device sequence and set up system passwords and security options using  
either the System Setup Utility or BIOS Setup (page 57). Both utilities access the same stored  
configuration data for these items, and the result of making a change to these settings using either  
utility is identical.  
The SSU consists of a collection of task-oriented modules plugged into a common framework  
called the Application Framework (AF). The Application Framework provides a launching point  
for individual tasks and a location for setting customization information.  
Creating SSU Diskettes  
You can run the SSU directly from the Utilities menu of the System Resource CD-ROM, from a set  
of DOS diskettes, or from the service partition of the hard disk.  
If you choose to run the SSU from a set of DOS diskettes, you must create the SSU diskettes from  
the Resource CD-ROM as follows:  
1. Boot to the System Resource CD-ROM.  
2. Choose Create Diskettes > Create Diskettes by Device/Function > System Setup Utility.  
3. Follow the instructions displayed.  
Alternatively, if you have a workstation with the Microsoft Windows operating system, you can  
insert the CD into that system and create the diskettes on that system.  
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Running the SSU  
When the SSU starts in the default local execution mode, the SSU accepts input from the keyboard  
or mouse. The SSU presents a VGA-based GUI on the primary monitor.  
If you run the SSU from read-only media, such as the CD-ROM, you cannot save user preference  
settings (such as screen colors).  
The SSU supports ROM-DOS version 6.22. The SSU will not operate from a DOS boxrunning  
under an operating system such as Windows.  
To start the SSU:  
1. Start the SSU using one of the following methods:  
From diskettes: Insert the first SSU diskette in drive A and boot the server from the  
diskette. You are prompted to insert the second diskette. After loading completes the SSU  
starts automatically.  
From the System Resource or ISM CD-ROM: Boot the server to the System Resource  
CD and start the SSU from the Utilities menu.  
From the Service Partition: Boot the server to the Service Partition and execute the  
following DOS commands:  
C:\> cd ssu  
C:\SSU> ssu.bat  
2. The mouse driver loads if it is available; press Enter to continue.  
3. When the SSU title appears on the screen, press Enter to continue.  
Working with the GUI  
You can access features of the GUI using the mouse or keyboard:  
MouseClick once to choose menu items and buttons or to select items in a list, such as the  
Available Tasks list. To run a list item, such as one of from the Available Tasks list, select the  
item and click OK or double-click the item.  
KeyboardUse the tab and arrow keys to highlight buttons and press the spacebar or <Enter>  
to execute. You can also execute a menu or button by using the <Alt> key in combination with  
the underlined letter in the name of the menu or button.  
You can have more than one task open at the same time, although some tasks might require  
complete control to avoid possible conflicts. The tasks achieve complete control by keeping the  
task as the center of operation until you close the task window.  
The SSU has a build-in help system, which you access by clicking a Help button or choosing the  
Help menu.  
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Customizing the SSU Interface  
The SSU lets you customize your interface using the Preferences section of the main window. The  
SSU sets these preferences and saves them in the AF.INI file so that they take effect the next time  
you start the SSU. There are four user customizable settings:  
Color - lets you change the default colors associated with different items on the screen using  
predefined color combinations. The color changes take effect immediately.  
Mode - lets you set the desired expertise level: novice, intermediate, or expert.  
The expertise level determines which tasks are visible in the Available Tasks section and which  
actions each task performs. For a new mode setting to take effect, you must exit the SSU and  
restart it.  
Language - lets you change the text in the SSU to the appropriate language. For a new  
language setting to take effect, you must exit the SSU and restart it.  
Other - lets you show or hide the status bar at the bottom of the SSU main window. The  
change takes effect immediately.  
NOTE  
If you run the SSU from read-only media (CD-ROM, for example), these  
preferences are lost when you exit the SSU.  
Exiting the SSU  
Exiting the SSU closes all SSU windows.  
Setting Boot Device Priority  
To change the boot priority of a device:  
1. From the SSU Main window, choose Boot Devices.  
2. In the Multiboot Options Add-in window, select a device.  
3. Click the Move Up button to move it up in the list. Click the Move Down button to move it  
down.  
Setting Passwords and Security Options  
You can set a user password and an admin password. On some systems, you must set an admin  
password before you can set a user password. On other systems, the passwords are independent.  
You can set the same passwords and security options by using BIOS Setup (page 57).  
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Setting the Admin Password  
The Admin Password button lets you set or change the admin password used by both the SSU and  
the system BIOS. This option is not available if both an admin and a user password are set and you  
entered only the user password when you started the SSU. All changes to the admin password take  
effect immediately.  
To change or clear the administrator password:  
1. From the SSU Main window, choose Security.  
2. Click the Admin Password button.  
3. If you are changing passwords, enter the old password.  
4. Enter the new password (or leave blank to clear).  
5. Confirm the password by entering it again (or leave blank to clear).  
6. Click OK to save the password and return to the Security window.  
Setting the User Password  
The User Password button lets you set or change the user password used by both the SSU and the  
system BIOS. All changes to the user password take effect immediately.  
To change or clear the user password:  
1. From the SSU Main window, choose Security.  
2. Click the User Password button.  
3. If you are changing passwords, enter the old password in the first box.  
4. Enter the new password (or leave blank to clear).  
5. Confirm the password by entering it again (or leave blank to clear).  
6. Click OK to save the password and return to the Security window.  
Setting Security Options  
For a description of security features, see page 19.  
To set the security options:  
1. In the Security window, click the Options button.  
2. For each option, select the desired setting from the list. The options are:  
Security Hot Key: The key combination that can be used to put the server into secure  
mode.  
Secure Mode Timer: If no keyboard or mouse activity occurs during the chosen time  
interval, the server enters secure mode.  
Secure Mode Boot: Enable forces the server to boot directly into secure mode.  
Video Blanking: Enable turns off the video when the server is in secure mode.  
Floppy Write: Enable prevents writing to the diskette drive while the server is in secure  
mode.  
Power Switch Inhibit: Enable prevents the power and reset buttons from functioning  
when the server is in secure mode. Disable allows the power and reset buttons to function  
normally when the server is in secure mode.  
3. Click Save to save the settings and return to the Security window.  
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Viewing the System Event Log  
To view the System Event Log (SEL):  
1. From the SSU Main window, choose SEL Manager.  
When you start the SEL Manager, it automatically loads the current list of events from  
non-volatile memory.  
2. Use the <F4> and <F5> keys to scroll the window contents to the left and right to view all of  
the columns.  
3. Use the File and SEL menu items to work with the SEL information:  
Open: Views data from a previously saved SEL file.  
Save As: Saves the currently loaded SEL data to a file.  
Properties: Displays information about the SEL.  
Clear SEL: Clears the SEL data from the nonvolatile storage area.  
Reload: Refreshes the display by reading the current SEL entries from the server.  
Sort By: Sorts the displayed events by event number, time stamp, sensor type and number,  
event description, or event generator ID.  
Viewing FRU Information  
To view the Field Replaceable Unit (FRU) information:  
1. From the SSU Main window, choose FRU Manager.  
When you start the FRU Manager, it automatically loads the current list of events from  
non-volatile memory.  
The FRU Manager window has a navigation pane on the left that displays, in a tree format,  
the inventory of components in the server. The tree has three categories: Chassis, Board,  
and Product. Clicking on a category expands or collapses a list of components for that  
category. Clicking on an individual component displays the FRU information for that  
component in the presentation pane in the upper right. The description pane in the lower  
right displays a description of the currently selected FRU area.  
2. Use the <F4> and <F5> keys to scroll the window contents to the left and right to view all of  
the columns.  
3. Use the File and FRU menu items to work with the FRU information:  
Open: Views data from a previously saved FRU file.  
Save As: Saves the currently loaded FRU data to a file.  
Properties: Displays the number of FRU devices in the system and the number being  
displayed. Only FRU devices with valid FRU areas are displayed.  
Reload: Refreshes the display by reading the current FRU entries from the server.  
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Viewing Sensor Data Records  
To view the Sensor Data Records (SDR):  
1. From the SSU Main window, choose SDR Manager.  
When you start the SDR Manager, it automatically loads the SDR entries from non-volatile  
memory.  
The SDR Manager window has a navigation pane on the left that displays, in a tree format,  
the sensor data records. The tree has categories for each type of record. Clicking on a  
category expands or collapses a list of SDRs for that category. Clicking on an individual  
SDR displays the information for that SDR in the presentation pane in the upper right. The  
description pane in the lower right displays a description of the currently selected  
SDR type.  
2. Use the <F4> and <F5> keys to scroll the window contents to the left and right to view all of  
the columns.  
3. Use the File and SDR menu items to work with the SDR information:  
Open: Views data from a previously saved SDR file.  
Save As: Saves the currently loaded SDR data to a file.  
Properties: Displays information about the SDR, including IPMI version, number of SDR  
entries, time stamps for changes to the SDR information, and free space remaining.  
Reload: Refreshes the display by reading the SDR data from the server.  
Updating System Firmware and BIOS  
Using the SSU, you can update the BIOS, update the firmware, and verify the firmware.  
Procedures for each are given below. You can also update the BIOS and firmware without using  
the SSU (see page 74). You can download the updates from the Intel support website:  
http://support.intel.com/support/motherboards/server/SHG2  
Updating the BIOS  
To update the BIOS:  
1. Download the update from the Intel support website.  
2. From the SSU Main window, choose System Update. (System Update is available only in  
Expert mode.)  
When you start System Update, it automatically displays the current revision information for  
the system firmware and BIOS.  
3. From the File menu, choose Load and choose a .uif or .bio file to use for the update.  
4. Click the Update button to update the BIOS.  
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Updating the Firmware  
To update the system firmware:  
1. Download the update from the Intel support website.  
2. From the SSU Main window, choose System Update. (System Update is available only in  
Expert mode.)  
3. When you start System Update, it automatically displays the current revision information for  
the system firmware and BIOS.  
4. From the File menu, choose Load and choose a .uif or .hex file to use for the update.  
5. Click the Update button to perform the update.  
Verifying the Firmware  
To compare the system firmware in nonvolatile memory with a firmware file:  
1. Download the update from the Intel support website.  
2. From the SSU Main window, choose System Update. (System Update is available only in  
Expert mode.)  
When you start System Update, it automatically displays the current revision information for  
the system firmware and BIOS.  
3. From the File menu, choose Load and choose a .hex file to use for the update.  
4. Click the Verify button to compare the firmware code in nonvolatile storage with the  
selected file.  
Saving and Restoring the System Configuration  
Using the SSU, you can save the following configuration information to a file:  
Platform type, BIOS revision, and firmware revision  
CMOS settings  
Extended system configuration data (ESCD)  
Settings for the emergency management port (EMP), platform event paging (PEP), and BMC  
LAN alerts  
Data is saved from all sources. There is no way to choose only certain pieces of configuration data  
to save. You can also restore the information from a saved configuration file.  
NOTE  
BIOS passwords are stored in the file. Restoring a configuration can change  
passwords on a server. EMP and LAN passwords are not stored in the file.  
Saving a Configuration  
To save the system configuration:  
1. From the SSU Main window, choose Config Save/Restore. (Configuration Save/Restore is  
available only in Expert mode.)  
2. Click Save To File and specify a filename and location.  
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Restoring a Configuration  
To restore the system configuration from a file:  
1. From the SSU Main window, choose Config Save/Restore. (Configuration Save/Restore is  
available only in Expert mode.)  
2. Click Restore from File and specify a filename and location.  
The CSR reads the platform type, BIOS revision, and firmware revision from the file and compares  
that information with the same information retrieved from the server. If the two do not match, an  
error message is displayed and the restore operation aborts. If they do match, the CSR restores the  
configuration data to the server. It prompts you to reboot the server for the new settings to  
take effect.  
Alerting for Platform Events  
You can set up the server to alert you when various events occur. Alerts can be delivered either as  
telephone pages, over the LAN, or by email.  
Setting Up Email Alerts  
You can receive email alerts for any of the same events supported by LAN alert or Platform Events  
Paging. Unlike LAN Alert and Platform Events Paging that can be configured using the SSU, you  
must use the Intel Server Management Platform Interface Control (PIC) software to configure an  
email address to receive alerts.  
For more information on installing Intel Server Management (ISM) software, see page 40. For  
more information on configuring email alerts using the PIC, see the Installation & User Guide  
located on the ISM CD-ROM.  
Setting Up Paging Alerts  
To set up the server to send alerts as telephone pages:  
1. Install an external modem on the Emergency Management Port (COM2).  
2. From the SSU Main window, choose Platform Event Manager (PEM).  
3. In the PEM window, click Configure EMP.  
4. In the corresponding boxes, enter the following command strings for the modem attached to the  
EMP port:  
ESC Sequence: the escape sequence. This string is sent to the modem before sending  
command strings. The maximum string length is five characters; longer strings are  
truncated.  
Hangup String: hang up or drop the connection. The EMP automatically sends an  
<ENTER> character following this string. The maximum string length is eight characters;  
longer strings are truncated.  
Modem Dial Command: the command to dial a phone number. This string is sent to the  
modem before sending the paging string.  
Modem Init String: the initialization string for the modem. This string is sent every time  
the EMP initializes. The maximum length for the string is determined at run-time from  
firmware. You will be notified if the string is truncated. Following a save, the actual string  
saved is displayed in the edit box.  
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5. Click Save to save the changes.  
6. Click Close to return to the PEM window.  
7. In the PEM window, click Configure PEP.  
8. Select the Enable PEP check box.  
9. In the Blackout Period box, enter the minimum time, in minutes, between successive pages.  
The valid range is [0 - 255] where 0 disables the blackout period. Setting a blackout period can  
save you from being flooded with repeat pages. After you receive a PEP page, no additional  
pages are sent by PEP for the duration of the blackout period.  
10. In the Paging String box, enter the phone number to dial for the page and the message you  
want sent with the page. The maximum length for the paging string is determined at run-time  
from firmware. You will be notified if the string is truncated. Following a save, the actual  
string saved is displayed in the edit box.  
11. From the Options menu, choose Configure Event Actions.  
12. In the Platform Event Paging Actions window, move the events that you want to generate an  
alert to the Enabled column and move all other events to the disabled column using the  
following buttons:  
>>: Moves all events from the enabled list to the disabled list.  
>: Moves the selected event from the enabled list to the disabled list.  
<: Moves the selected event from the disabled list to enabled the list.  
<<: Moves all events from the disabled list to the enabled list.  
13. Click Save to save the changes.  
14. Click Close to return to the PEP Configuration window.  
15. To send a test page to verify that you have correctly configured PEP, from the Options menu,  
choose Send Alert.  
16. Click Save to save the configuration.  
17. Click Close to return to the Platform Event Manager window.  
Setting Up LAN Alerts  
To set up the server to send alerts over the LAN:  
1. Configure the remote system to receive alerts. For more information, see the documentation  
for Intel Server Management software.  
2. From the SSU Main window, choose Platform Event Manager (PEM).  
3. In the PEM window, click Configure LAN.  
4. Select the Enable LAN Alerts check box.  
5. (Optional) In the SNMP Community String box, enter a string for the community field in the  
Header section of the SNMP trap sent for an alert. The string must be from 5 to 16 characters.  
The default string is public.  
6. In the IP Setup box, choose either:  
DHCP: the IP address for the server is automatically assigned by the DHCP (dynamic host  
control protocol) server on the network. The Host, Gateway, and Subnet Mask boxes in the  
dialog are ignored.  
Static: assign the IP address for the server using the Host, Gateway, and Subnet Mask  
boxes in the dialog.  
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7. If you chose Static IP Setup in the previous step, fill in the IP addressing boxes:  
Host IP Address: the IP address of this server.  
Gateway IP Address: the IP address of the router for this server.  
Subnet Mask: the IP address for the servers subnet. The server uses this to decide if the  
alert destination is on the same subnet.  
8. In the Alert IP Address box, fill in the IP address of the system you want to receive alerts from  
this server. If you want the alert to be broadcast to an entire subnet, enter the IP address for the  
subnet.  
9. From the Options menu, choose Configure Event Actions.  
10. In the BMC LAN Alerting Actions window, move the events that you want to generate an alert  
to the Enabled column and move all other events to the disabled column using the following  
buttons:  
>>: Moves all events from the enabled list to the disabled list.  
>: Moves the selected event from the enabled list to the disabled list.  
<: Moves the selected event from the disabled list to enabled the list.  
<<: Moves all events from the disabled list to the enabled list.  
11. Click Save to save the changes.  
12. Click Close to return to the BMC LAN Configuration window.  
13. To send a test alert to verify that you have correctly configured BMC LAN alerts, from the  
Options menu, choose Send Alert.  
14. Click Save to save the changes.  
15. Click Close to return to the PEM window.  
Managing the Server Remotely  
You can set up the server to so that you can connect to it from a remote client system to perform  
management tasks. You can make the connection over a LAN or by using a modem or direct serial  
cable to the Emergency Management Port (EMP). Instructions for setting up the server for remote  
LAN and serial/modem access are given below.  
Setting Up Remote LAN Access  
To configure remote LAN access:  
1. From the SSU Main window, choose Platform Event Manager (PEM).  
2. In the PEM window, click Configure LAN.  
3. If you want to require a password for remote access, enter the password in the Enter New  
Password box and in the Verify New Password box. Passwords can be from 1 to 16  
characters long, using any ASCII character in the range [32-126]. To clear the passwords,  
leave both boxes blank. (You can also clear the password by choose the menu Options > Clear  
LAN Password.)  
4. From the LAN Access Mode list, select the remote access mode:  
Full Access: a remote system can initiate a LAN connection regardless of the state or  
health of the server.  
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Restricted: a remote system can initiate a LAN connection, but cannot perform control  
operations such as power down, reset, or front panel NMI.  
Disabled: remote systems are not allowed to initiate LAN connections.  
5. In the IP Setup box, choose either:  
DHCP: the IP address for the server is automatically assigned by the DHCP (dynamic host  
control protocol) server on the network. The Host, Gateway, and Subnet Mask boxes in the  
dialog are ignored.  
Static: assign the IP address for the server using the Host, Gateway, and Subnet Mask  
boxes in the dialog.  
6. If you chose Static IP Setup in the previous step, fill in the IP addressing boxes:  
Host IP Address: the IP address of this server.  
Gateway IP Address: the IP address of the router for this server.  
Subnet Mask: the IP address for the servers subnet. The server uses this to decide if the  
alert destination is on the same subnet.  
7. Click Save to save the changes.  
8. Click Close to return to the PEM window.  
Setting Up Remote Modem or Serial Access  
To configure remote modem or serial access:  
1. From the SSU Main window, choose Platform Event Manager (PEM).  
2. In the PEM window, click Configure EMP.  
3. If you want to require a password for remote access, enter the password in the Enter New  
Password box and in the Verify New Password box. Passwords can be from 1 to 16  
characters long, using any ASCII character in the range [32-126]. To clear the passwords,  
leave both boxes blank. (You can also clear the password by choose the menu Options > Clear  
LAN Password.)  
4. In the Modem Ring Time box, enter the number of 500ms intervals that the BMC should wait  
before taking control of the COM2 port and answering an incoming call. A value greater than  
zero gives the BIOS time to answer before the BMC takes control. A value of zero causes the  
BMC to answer immediately. The maximum value, 63, tells the BMC to ignore the call.  
Modem Ring Time applies only to Preboot access mode and is ignored for other access modes.  
5. In the System Phone Number box, enter the number for the phone line connected to the  
modem on the EMP.  
6. From the Access Mode list, choose the remote access mode:  
Always Active: the EMP is available at any time.  
Preboot: the EMP is available only when the server is powered down or is in the running  
POST during startup.  
Disabled: remote systems are not allowed to initiate connections.  
7. From the Restricted Mode list, choose either:  
Enabled: a remote system can initiate a connection, but cannot perform control operations  
such as power down, reset, or front panel NMI.  
Disabled: the remote system has full control of the server.  
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8. From the Connection Mode list, choose either:  
Direct Connect: the COM2 port on the server is connected by a serial cable to the remote  
system.  
Modem Connect: the COM2 port on the server is connected to a modem.  
9. Click Save to save the changes.  
10. Click Close to return to the PEM window.  
FRUSDR Load Utility  
The Field Replacement Unit (FRU) and Sensor Data Record (SDR) Load Utility is a DOS-based  
program used to update the server management subsystems product level FRU, SDR, and the  
SM BIOS (SMB) nonvolatile storage components (EEPROMs). The load utility  
Discovers the product configuration based on instructions in a master configuration file  
Displays the FRU information  
Updates the nonvolatile storage device (EEPROM) associated with the Baseboard Management  
Controller (BMC) that holds the SDR and FRU area  
Updates the SMB area located in the BIOS nonvolatile storage device  
Generically handles FRU devices that may not be associated with the BMC  
When to Run the FRUSDR Load Utility  
You should run the FRUSDR Load Utility each time you upgrade or replace the hardware in your  
server, excluding add-in boards, hard drives, and RAM. For example, if you replace an array of  
fans, you need to run the utility. It programs the sensors that need to be monitored for server  
management.  
Because the firmware must reload to properly initialize the sensors after programming, turn the  
server off and remove the AC power cords from the server. Wait approximately 30 seconds, and  
reconnect the power cords.  
What You Need to Do  
The FRUSDR Load Utility may be run directly from the Configuration Software CD or from a  
diskette you create from the CD. It can be extracted from the CD by booting to the CD and  
selecting Make Diskettesor by inserting the CD into a PC running Windows 95 or later and  
selecting the Utilitiessection.  
NOTE  
If your diskette drive is disabled, or improperly configured, you must use  
BIOS Setup to enable it. If necessary, you can disable the drive after you are  
done with the FRUSDR utility.  
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How You Use the FRUSDR Load Utility  
This utility is compatible with ROM-DOS Ver. 6.22, MS-DOSVer. 6.22, and later versions. The  
utility accepts CFG, SDR and FRU load files. The executable file for the utility is frusdr.exe. The  
utility requires the following supporting files:  
One or more .fru files describing the systems field replaceable units  
A .cfg file describing the system configuration  
A .sdr file describing the sensors in the system  
Command Line Format  
The basic command line format is  
frusdr [/?] [/h] [/d {smb, fru, sdr}] [/cfg filename.cfg] /p  
Command  
frusdr  
Description  
Is the name of the utility  
Displays usage information  
Only displays requested area  
Uses custom CFG file  
Pause between blocks of data  
/? or /h  
/d {smb, fru, sdr}  
/cfg filename.cfg  
/p  
Parsing the Command Line  
The FRUSDR Load Utility allows only one command line function at a time. A command line  
function may consist of two parameters; for example, cfg filename.cfg. Any invalid parameters  
result in displaying an error message and exiting the program. You can use either a slash (/) or a  
minus sign (-) to specify command line options. The /p flag may be used in conjunction with any  
of the other options.  
Displaying Usage Information  
When the utility is run with the /? or /h command line flags, the following message is displayed:  
FRU & SDR Load Utility Version X.XX  
Usage: frusdr  
/? Or /h  
Is the name of the utility.  
Displays usage information.  
Only displays requested area.  
Uses custom CFG file.  
/d {smb,fru,sdr}  
/cfg filename.cfg  
/p  
Pause between blocks of data.  
Displaying a Given Area  
When the utility is run with the /d SMB, /d FRU, or /d SDR command line flag, the indicated area  
is displayed. Each area represents a sensor; one sensor for each instrumented device in the server.  
If the given display function fails because of an inability to parse the data present or a hardware  
failure, the utility displays an error message and exits.  
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Displaying SM BIOS Area  
The SM BIOS area is displayed in ASCII format when the field is ASCII or as a number when the  
field is a number. Each SM BIOS area displayed is headed with the SM BIOS area designated  
name. Each field has a field name header followed by the field in ASCII or as a number.  
Displaying FRU Area  
The FRU area is displayed in ASCII format when the field is ASCII or as a number when the field  
is a number. Each FRU area displayed is headed with the FRU area designated name. Each field  
has a field name header followed by the field in ASCII or as a number. The Board, Chassis, and  
Product FRU areas end with an END OF FIELDS CODE that indicates there is no more data in this  
area. The Internal Use area is displayed in hex format, 16 bytes per line.  
Displaying SDR Area  
The SDR nonvolatile storage area is displayed in the following hex format. The data is separated  
by a Sensor Record Number X header, where X is the number of that sensor record in the  
SDR area. The next line after the header is the sensor record data in hex format delineated by  
spaces. Each line holds up to 16 bytes. The data on each line is followed by the same data in  
ASCII format; nonprintable characters are substituted by a period (.).  
Using Specified CFG File  
The utility can be run with the command line parameter of -cfg filename.cfg. The filename can be  
any DOS accepted, eight-character filename string. The utility loads the specified CFG file and  
uses the entries in the configuration file to probe the hardware and to select the proper SDRs to load  
into nonvolatile storage.  
Displaying Utility Title and Version  
The utility displays its title:  
FRU & SDR Load Utility, Version X.XX  
Where X.XX is the revision number for the utility.  
Configuration File  
The configuration file is in ASCII text. The utility executes commands formed by the strings  
present in the configuration file. These commands cause the utility to perform various tasks needed  
to ultimately load the proper SDRs into the nonvolatile storage of the BMC and possibly generic  
FRU devices. Some of the commands may be interactive and require you to make a choice.  
Prompting for Product Level FRU Information  
Through the use of a Configuration File, the utility may prompt you for FRU information.  
Filtering Sensor Data Record From the SDR File  
The MASTER.SDR file has all the possible SDRs for the system. These records may need to be  
filtered based on the current product configuration. The configuration file directs the filtering of  
the SDRs.  
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Updating the SDR Nonvolatile Storage Area  
After the utility validates the header area of the supplied SDR file, it updates the SDR repository  
area. Before programming, the utility clears the SDR repository area. The SDR file is loaded via  
the .cfg File. Then the utility filters all tagged SDRs depending on the product configuration set in  
the Configuration File. Nontagged SDRs are automatically programmed. The utility also copies all  
written SDRs to the SDR.TMP file. It contains an image of what was loaded, and the TMP file is  
also useful for debugging the server.  
Updating FRU Nonvolatile Storage Area  
After the configuration is determined, the utility updates the FRU nonvolatile storage area. First it  
verifies the Common Header area and checksum from the specified FRU file. The Internal Use  
Area is read out of the specified .FRU file and is programmed into the nonvolatile storage. The  
Chassis, Board, Product and MultiRecord areas are read out of the specified .FRU file, if they exist,  
then those areas are programmed into the FRU nonvolatile storage. All the areas are also written to  
the FRU.TMP file, which is useful for debugging the server.  
Updating SMB FRU Nonvolatile Storage Area  
After programming the BMC FRU area, the corresponding SMB fields are automatically updated  
when the server is re-booted.  
Cleaning Up and Exiting  
If an update was successfully performed, the utility displays an appropriate message and then exits  
with a DOS exit code of zero.  
If the utility fails, it immediately exits with an error message and a non-zero DOS exit code.  
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Upgrading the BIOS  
Preparing for the Upgrade  
Before you upgrade the BIOS, prepare for the upgrade by recording the current BIOS settings,  
obtaining the upgrade utility, and making a copy of the current BIOS.  
Recording the Current BIOS Settings  
1. Boot the computer and press <F2> when you see the message:  
Press <F2> to enter SETUP  
2. Write down the current settings in the BIOS Setup program.  
NOTE  
Do not skip step 2. You will need these settings to configure your computer  
at the end of the procedure.  
Obtaining the Upgrade Utility  
You can upgrade to a new version of the BIOS using the new BIOS files and the BIOS upgrade  
utility, iFLASH.EXE. You can obtain the BIOS upgrade file and the iFLASH.EXE utility through  
your computer supplier or from the Intel Customer Support website:  
http://support.intel.com/support/motherboards/server/SHG2  
NOTE  
Please review the instructions distributed with the upgrade utility before  
attempting a BIOS upgrade.  
This upgrade utility allows you to:  
Upgrade the BIOS in flash memory  
Update the language section of the BIOS  
The following steps explain how to upgrade the BIOS.  
Creating a Bootable Diskette  
1. Use a DOS system to create the diskette or boot the server to the System Resource CD and  
Quit to DOS.  
2. Insert a diskette in diskette drive A.  
3. At the C:\ prompt, for an unformatted diskette, type:  
format a:/s  
or, for a formatted diskette, type:  
sys a:  
4. Press <Enter>  
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Creating the BIOS Upgrade Diskette  
The BIOS upgrade file is a compressed self-extracting archive that contains the files you need to  
upgrade the BIOS.  
1. Insert the bootable diskette into the diskette drive.  
2. Extract the contents of the BIOS.EXE file onto the bootable diskette. To do this, read the  
instructions distributed with the BIOS package.  
Upgrading the BIOS  
1. Place the bootable diskette containing the BIOS update files into the diskette drive of your  
system. Boot the system with the diskette is in the drive.  
2. At this point you have a choice of two options. Press 1 and ENTER to automatically update  
the system BIOS. This will update the system BIOS and reset the system. Press 2 and ENTER  
to update the User Binary and reset the system.  
3. Wait while the BIOS files are updated. Do not power down the system during the BIOS update  
process! The system will reset automatically when the BIOS update process is completed.  
Remove the diskette from the diskette drive.  
4. Check to make sure the BIOS version displayed during POST is the new version as the system  
reboots.  
5. Enter Setup by pressing the F2 key during boot. Once in Setup, press F9 and ENTER to set  
the parameters back to default values.  
6. Re-enter the values you wrote down at the beginning of this process. Press F10 and ENTER to  
exit BIOS Setup and Save Changes.  
7. If you do not set the CMOS values back to defaults using the F9 key, the system may function  
erratically.  
NOTE  
You may encounter a CMOS Checksum error or other problem after reboot.  
Try shutting down the system and booting up again. CMOS checksum errors  
require that you enter Setup, check your settings, save your settings, and exit  
Setup.  
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Recovering the BIOS  
It is unlikely that anything will interrupt the BIOS upgrade; however, if an interruption occurs, the  
BIOS could be damaged. The following steps explain how to recover the BIOS if an upgrade fails.  
In the event of BIOS corruption, the following procedure may be used to perform a BIOS  
recovery boot.  
1. Prepare a bootable floppy diskette containing the BIOS recovery files for the SHG2 server  
board obtained from Intels web sites.  
2. Power off the system, unplug the power cord, and remove the chassis cover.  
3. Add a jumper on CN43 pins 9-10 (BIOS recovery).  
4. Insert the BIOS Recovery floppy diskette into the disk drive.  
5. Reinstall the chassiscover, plug in the power cord(s), and power on the system.  
6. The screen will remain blank while the BIOS Recovery is performed. At the end of the BIOS  
Recovery, two high-pitched beeps will sound and the floppy drive access light will turn off.  
The BIOS Recovery may take several minutes to complete. When the BIOS Recovery is  
complete, it is safe to power off the system.  
7. Power off the system, unplug the power cord(s), and remove the chassis cover.  
8. Remove the BIOS Recovery jumper from CN43 pins 9-10.  
9. Replace the chassiscover, plug in the power cord(s), and power on the system.  
Changing the BIOS Language  
You can use the BIOS upgrade utility to change the language the BIOS uses for messages and the  
Setup program. Use a bootable diskette containing the Intel flash utility and language files.  
1. Boot the computer with the bootable diskette in drive A. The BIOS upgrade utility screen  
appears.  
2. Select Update Flash Memory From a File.  
3. Select Update Language Set. Press <Enter>.  
4. Select drive A and use the arrow keys to select the correct .lngfile. Press <Enter>.  
5. When the utility asks for confirmation that you want to flash the new language into memory,  
select Continue with Programming. Press <Enter>.  
6. When the utility displays the message upgrade is complete, remove the diskette. Press  
<Enter>.  
7. The computer will reboot and the changes will take effect.  
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Using the Firmware Update Utility  
The Firmware Update Utility is a DOS-based program used to update the Baseboard Management  
Controllers firmware code. You only need to run the Firmware Update Utility if new firmware  
code becomes necessary or the firmware becomes corrupted. It is highly recommended that you  
also update the FRU/SDR files at the same time that you update the BMC Firmware.  
You can obtain the latest version of the firmware update file from the Intel Customer Support  
website:  
http://support.intel.com/support/motherboards/server/SHG2  
Making a BMC Firmware Update Diskette  
1. Place a formatted diskette into the diskette drive.  
2. Extract the contents of the SHG2 firmware file onto the diskette.  
Making the Update Diskette Bootable  
1. Use a DOS system to create the diskette or boot the server to the System Resource CD and  
Quit to DOS.  
2. Insert the update diskette into diskette drive A.  
At the C:\ prompt, type:  
sys a:  
3. Press <Enter>  
Updating the BMC Firmware  
In the event of a release of an updated BMC Firmware, the following procedure may be used to  
update the firmware.  
NOTE  
These instructions for BMC Update are a general guideline. Please follow  
the specific instructions described in the release notes.  
1. Prepare a bootable floppy diskette containing the updated BMC firmware files for the  
SHG2 Server Board obtained from:  
http://support.intel.com/support/motherboards/server/SHG2  
2. Insert the BMC Firmware floppy diskette into the disk drive.  
3. Reboot the system. BMC Firmware update occurs automatically and may take several minutes  
to complete. When the BMC Firmware update is complete, it is safe to power off the system.  
4. Power off the system and remove the power cord for 30 seconds.  
5. Connect the power cord and power on the system.  
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Recovering the BMC Firmware  
In the event of BMC Firmware corruption, the following procedure may be used to perform a  
BMC Firmware recovery boot.  
1. Prepare a bootable floppy diskette containing the updated BMC firmware files for the  
SHG2 Server Board obtained from Intels Customer Support web site.  
2. Power off the system, unplug the power cord, and remove the chassis cover.  
3. Add a jumper on CN47 pins 1-2 (BMC Force Update).  
4. Insert the BMC Firmware floppy diskette into the disk drive.  
5. Reinstall the chassiscover, plug in the power cord(s), and power on the system.  
BMC Firmware update occurs automatically and may take several minutes to complete. When  
the BMC Firmware update is complete, it is safe to power off the system.  
6. Power off the system, unplug the power cord(s), and remove the chassiscover.  
7. Remove the BMC Force Update jumper from CN47 pins 1-2. Place it on pins 11-12 of jumper  
CN 43 for future use.  
8. Replace the chassiscover and plug in the power cord(s).  
9. Wait 30 seconds after connecting the power cord in order to allow the BMC firmware to load.  
10. Power on the system.  
Updating the FRU/SDR Files  
You can obtain the latest version of the FRU/SDR update files from the Intel Customer Support  
website:  
http://support.intel.com/support/motherboards/server/SHG2  
Making a FRU/SDR File Update Diskette  
1. Place a formatted diskette in the diskette drive.  
2. Extract the contents of the SHG2 FRU/SDR file onto the diskette.  
Making the Update Diskette Bootable  
1. Use a DOS or Windows 95 system to create the bootable diskette.  
2. Insert a diskette in diskette drive A.  
At the C:\ prompt, type:  
sys a:  
3. Press <Enter>  
Updating the FRU/SDR Files  
1. Place the diskette containing the FRU/SDR update files into the diskette drive of your system.  
Boot the system while the diskette is in the drive.  
2. Follow the instructions that appear on the screen.  
Configuration Software and Utilities  
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Using the Adaptec SCSI Utility  
The Adaptec SCSI utility detects the SCSI host adapters on the server board. The utility runs out of  
BIOS and is used to:  
Change default values  
Check and/or change SCSI device settings that may conflict with those of other devices in the  
server  
Running the SCSI Utility  
1. When this message appears on the video monitor:  
Press Ctrl-A to run SCSI Utility...  
2. Press <Ctrl+A> to run this utility. When it appears, choose the host adapter that you want to  
configure.  
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5 Solving Problems  
This chapter helps you identify and solve problems that might occur while you are using the  
system.  
Resetting the System  
To do this:  
Press:  
Soft boot reset, which clears system memory and reloads the operating system.  
Clear system memory, restart POST, and reload the operating system.  
<Ctrl+Alt+Del>  
Reset button  
Power off/on  
Cold boot reset. Turn the system power off and then on. This clears system memory,  
restarts POST, reloads the operating system, and halts power to all peripherals.  
Initial System Startup  
Problems that occur at initial system startup are usually caused by incorrect installation or  
configuration. Hardware failure is a less frequent cause.  
Checklist  
q Are the power supplies turned on? Check the switches on the back of the chassis.  
q Are all cables correctly connected and secured?  
q Are the processors fully seated in their slots on the server board?  
q Are all add-in PCI boards fully seated in their slots on the server board?  
q Are all jumper settings on the server board correct?  
q Are all jumper and switch settings on add-in boards and peripheral devices correct? To check  
these settings, refer to the manufacturers documentation that comes with them. If applicable,  
ensure that there are no conflictsfor example, two add-in boards sharing the same interrupt.  
q Are all DIMMs installed correctly?  
q Are all peripheral devices installed correctly?  
q If the system has a hard disk drive, is it properly formatted or configured?  
q Are all device drivers properly installed?  
q Are the configuration settings made in BIOS Setup correct?  
q Is the operating system properly loaded? Refer to the operating system documentation.  
q Did you press the system power on/off switch on the front panel to turn the server on (power on  
light should be lit)?  
q Is the system power cord properly connected to the system and plugged into a  
NEMA 5-15R outlet for 100-120 Vor a NEMA 6-15R outlet for 200-240 V?  
q Is AC power available at the wall outlet?  
q Are all integrated components from the tested components lists? Check the tested memory, and  
chassis lists, as well as the supported hardware and operating system list on the Intel Customer  
Support website.  
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Running New Application Software  
Problems that occur when you run new application software are usually related to the software.  
Faulty equipment is much less likely, especially if other software runs correctly.  
Checklist  
q Does the system meet the minimum hardware requirements for the software? See the software  
documentation.  
q Is the software an authorized copy? If not, get one; unauthorized copies often do not work.  
q If you are running the software from a diskette, is it a good copy?  
q If you are running the software from a CD-ROM disk, is the disk scratched or dirty?  
q If you are running the software from a hard disk drive, is the software correctly installed? Were  
all necessary procedures followed and files installed?  
q Are the correct device drivers installed?  
q Is the software correctly configured for the system?  
q Are you using the software correctly?  
If the problems persist, contact the software vendors customer service representative.  
After the System Has Been Running Correctly  
Problems that occur after the system hardware and software have been running correctly may  
indicate equipment failure. Many situations that are easy to correct, however, can also cause such  
problems.  
Checklist  
q If you are running the software from a diskette, try a new copy of the software.  
q If you are running the software from a CD-ROM disk, try a different disk to see if the problem  
occurs on all disks.  
q If you are running the software from a hard disk drive, try running it from a diskette. If the  
software runs correctly, there may be a problem with the copy on the hard disk drive. Reinstall  
the software on the hard disk, and try running it again. Make sure all necessary files are  
installed.  
q If the problems are intermittent, there may be a loose cable, dirt in the keyboard (if keyboard  
input is incorrect), a marginal power supply, or other random component failures.  
q If you suspect that a transient voltage spike, power outage, or brownout might have occurred,  
reload the software and try running it again. (Symptoms of voltage spikes include a flickering  
video display, unexpected system reboots, and the system not responding to user commands.)  
NOTE  
Random errors in data files: If you are getting random errors in your data  
files, they may be getting corrupted by voltage spikes on your power line. If  
you are experiencing any of the above symptoms that might indicate voltage  
spikes on the power line, you may want to install a surge suppressor between  
the power outlet and the system power cord.  
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More Problem Solving Procedures  
This section provides a more detailed approach to identifying a problem and locating its source.  
Preparing the System for Diagnostic Testing  
CAUTION  
Turn off devices before disconnecting cables: Before disconnecting any  
peripheral cables from the system, turn off the system and any external  
peripheral devices. Failure to do so can cause permanent damage to the  
system and/or the peripheral devices.  
1. Turn off the system and all external peripheral devices. Disconnect all of them from the  
system, except the keyboard and video monitor.  
2. Make sure the system power cord is plugged into a properly grounded AC outlet.  
3. Make sure your video display monitor and keyboard are correctly connected to the system.  
Turn on the video monitor. Set its brightness and contrast controls to at least two thirds of their  
maximum ranges (see the documentation supplied with your video display monitor).  
4. If the operating system normally loads from the hard disk drive, make sure there is no diskette  
in drive A. Otherwise, place a diskette containing the operating system files in drive A.  
5. Turn on the system. If the power LED does not light, see Power Light Does Not Lighton  
Monitoring POST  
The server may start to beep while booting. These beeps identify system events. The following  
gives a description of possible beep codes.  
Table 6.  
Beep Code  
1
Beep Codes  
Description  
One short beep before boot (this is normal, not an error)  
Search for option ROMs. One long, two short beeps on checksum failure  
BIOS ROM checksum  
1-2  
1-2-2-3  
1-3-1-1  
1-3-1-3  
1-3-3-1  
Test DRAM refresh  
Test 8742 Keyboard Controller  
Auto size DRAM, system BIOS stops execution here if the BIOS does not detect any usable  
memory DIMMs  
1-3-4-1  
2-1-2-3  
2-2-3-1  
Base RAM failure; BIOS stops execution here if entire memory is bad  
Check ROM copyright notice  
Test for unexpected interrupts  
For additional information regarding monitoring POST, see Chapter 4.  
Solving Problems  
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Verifying Proper Operation of Key System Lights  
As POST determines the system configuration, it tests for the presence of each mass storage device  
installed in the system. As each device is checked, its activity light should turn on briefly. Check  
for the following:  
q Does the diskette drive activity light turn on briefly? If not, see Diskette Drive Activity Light  
q If a second diskette drive is installed, does its activity light turn on briefly? If not, see Diskette  
Confirming Loading of the Operating System  
Once the system boots up, the operating system prompt appears on the screen. The prompt varies  
according to the operating system. If the operating system prompt does not appear, see Initial  
Specific Problems and Corrective Actions  
This section provides possible solutions for these specific problems:  
Power light does not light  
There is no beep or an incorrect beep pattern  
No characters appear on screen  
Characters on the screen appear distorted or incorrect  
System cooling fans do not rotate  
Diskette drive activity light does not light  
CD-ROM drive activity light does not light  
There are problems with application software  
The bootable CD-ROM is not detected  
Try the solutions in the order given. If you cannot correct the problem, contact your service  
representative or authorized dealer for help.  
Power Light Does Not Light  
Check the following:  
q Is the system operating normally? If so, the power LED may be defective or the cable from the  
front panel to the server board is loose.  
q Are there other problems with the system? If so, check the items listed under System Cooling  
Fans Do Not Rotate Properly.  
If all items are correct and problems persist, contact your service representative or authorized dealer  
for help.  
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No Characters Appear on Screen  
Check the following:  
q Is the keyboard functioning? Check to see that the Num Locklight is functioning.  
q Is the video monitor plugged in and turned on?  
q Are the brightness and contrast controls on the video monitor properly adjusted?  
q Are the video monitor switch settings correct?  
q Is the video monitor signal cable properly installed?  
q Is the onboard video controller enabled?  
If you are using an add-in video controller board, do the following:  
1. Verify that the video controller board is fully seated in the server board connector.  
2. Reboot the system for changes to take effect.  
3. If there are still no characters on the screen after you reboot the system and POST emits a beep  
code, write down the beep code you hear. This information is useful for your service  
representative.  
4. If you do not receive a beep code and characters do not appear, the video display monitor or  
video controller may have failed. Contact your service representative or authorized dealer  
for help.  
Characters Are Distorted or Incorrect  
Check the following:  
q Are the brightness and contrast controls properly adjusted on the video monitor? See the  
manufacturers documentation.  
q Are the video monitor signal and power cables properly installed?  
If the problem persists, the video monitor may be faulty or it may be the incorrect type. Contact  
your service representative or authorized dealer for help.  
Solving Problems  
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System Cooling Fans Do Not Rotate Properly  
If the system cooling fans are not operating properly, system components could be damaged.  
Check the following:  
q Is AC power available at the wall outlet?  
q Is the system power cord properly connected to the system and the wall outlet?  
q Did you press the power button?  
q Is the power on light lit?  
q Have any of the fan motors stopped (use the server management subsystem to check the fan  
status)?  
q Are the fan power connectors properly connected to the server board?  
q Is the cable from the front panel board connected to the server board?  
q Are the power supply cables properly connected to the server board?  
q Are there any shorted wires caused by pinched cables or power connector plugs forced into  
power connector sockets the wrong way?  
If the switches and connections are correct and AC power is available at the wall outlet, contact  
your service representative or authorized dealer for help.  
Diskette Drive Activity Light Does Not Light  
Check the following:  
q Are the diskette drives power and signal cables properly installed?  
q Are all relevant switches and jumpers on the diskette drive set correctly?  
q Is the diskette drive properly configured?  
q Is the diskette drive activity light always on? If so, the signal cable may be plugged in  
incorrectly.  
If you are using the onboard diskette controller, use the Setup Utility to make sure that Onboard  
Floppyis set to Enabled. If you are using an add-in diskette controller, make sure that  
Onboard Floppyis set to Disabled.  
If the problem persists, there may be a problem with the diskette drive, server board, or drive signal  
cable. Contact your service representative or authorized dealer for help.  
Hard Disk Drive Activity Light Does Not Light  
The hard disk drive activity light is not connected to the SHG2 server board.  
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CD-ROM Drive Activity Light Does Not Light  
Check the following:  
q Are the CD-ROM drives power and signal cables properly installed?  
q Are all relevant switches and jumpers on the drive set correctly?  
q Is the drive properly configured?  
q Is the onboard IDE controller enabled?  
Cannot Connect to a Server  
q Make sure you are using the drivers that are shipped on the system Configuration Software CD  
for the onboard network controller.  
q Make sure the driver is loaded and the protocols are bound.  
q Make sure the network cable is securely attached to the connector at the system back panel. If  
the cable is attached but the problem persists, try a different cable.  
q Make sure the hub port is configured for the same duplex mode as the network controller.  
q Check with your LAN administrator about the correct networking software that needs to be  
installed.  
q If you are directly connecting two servers (no hub), you will need a crossover cable (see your  
hub documentation for more information on crossover cables).  
q Check the network controller LEDs that are visible through an opening at the system  
back panel.  
Problems with Network  
The server hangs when the drivers are loaded.  
q Change the PCI BIOS interrupt settings. Try the PCI Installation Tipsbelow.  
Diagnostics pass, but the connection fails.  
q Make sure the network cable is securely attached.  
q Make sure you specify the correct frame type in your NET.CFG file.  
The controller stopped working when an add-in adapter was installed.  
q Make sure the cable is connected to the port from the onboard network controller.  
q Make sure your PCI BIOS is current. Try the PCI Installation Tipsbelow.  
q Make sure the other adapter supports shared interrupts. Also, make sure your operating system  
supports shared interrupts.  
q Try reseating the add in adapter.  
The add-in adapter stopped working without apparent cause.  
q Try reseating the adapter first; then try a different slot if necessary.  
q The network driver files may be corrupt or deleted. Delete and then reinstall the drivers.  
q Run the diagnostics.  
Solving Problems  
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PCI Installation Tips  
Some common PCI tips are listed here.  
q Certain drivers may require interrupts that are not shared with other PCI drivers. The SSU can  
be used to adjust the interrupt numbers for PCI devices. For certain drivers, it may be  
necessary to alter settings so that interrupts are not shared.  
Problems with Application Software  
If you have problems with application software, do the following:  
q Verify that the software is properly configured for the system. See the software installation and  
operation documentation for instructions on setting up and using the software.  
q Try a different copy of the software to see if the problem is with the copy you are using.  
q Make sure all cables are installed correctly.  
q Verify that the server board jumpers are set correctly. See Chapter 5.  
q If other software runs correctly on the system, contact your vendor about the failing software.  
If the problem persists, contact the software vendors customer service representative for help.  
Bootable CD-ROM Is Not Detected  
Check the following:  
q Is the BIOS set to allow the CD-ROM to be the first bootable device?  
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6 Getting Help  
World Wide Web  
http://support.intel.com/support/motherboards/server/SHG2  
Telephone  
All calls are billed US $25.00 per incident, levied in local currency at the applicable credit card  
exchange rate plus applicable taxes.  
In U.S. and Canada  
In Europe  
1-800-404-2284  
UK  
France  
Germany 069 9509 6099  
Italy  
0870 6072439  
01 41 918529  
Finland  
Denmark  
Norway  
Sweden  
Holland  
9 693 79297  
38 487077  
23 1620 50  
08 445 1251  
020 487 4562  
02 696 33276  
91 377 8166  
Spain  
In Asia-Pacific region  
Australia 1800 649931  
Hong Kong 852 2 844 4456  
Indonesian  
Malaysia  
001-803 65 7249  
1-800 80 1390  
Korea  
PRC  
822 767 2595  
800 820 1100  
New Zealand 0800 444 365  
Pakistan  
Philippines  
Thailand  
Vietnam  
632 6368415  
Singapore 65 831-1311  
Taiwan  
India  
1-800 1 651 0117  
001-800 6310003  
632 6368416  
2 2718 9915  
0006517-2-830 3634  
In Japan  
0120-868686 (Domestic)  
81-298-47-0800 (outside country)  
In Latin America  
Brazil  
Mexico  
0021-0811-408-5540  
001-800-628-8686  
Ecuador  
999-119, 800-628-8686 (via AT&T)  
Guatemala 99-99-190, 800-628-8686 (via AT&T)  
Venezuela 800-11-120, 800-628-8686 (via AT&T)  
Argentina  
Paraguay  
Peru  
Colombia 980-9-122-118  
Costa Rica 0-800-011-0395  
Panama  
Chile  
001-800-222-1001, 800-628-8686 (via AT&T)  
008-11, 800-628-8686 (via AT&T)  
0-800-50000, 800-628-8686 (via AT&T)  
000-410, 800-628-8686 (via AT&T)  
001-800-628-8686  
800-532-992  
1-800-621-8423  
Miami  
Uruguay  
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7 Technical Reference  
Server Board Jumpers  
1
3
2
4
CN27  
11 9 7 5 3  
1
4
3
2
1
CN43  
12 10 8 6 4 2  
CN53  
OM14373  
Figure 37. Jumper Locations  
Configuration Jumper (CN43)  
Table 7.  
Jumper Name  
Pins  
What it does at system reset  
CMOS clear  
1-2  
If these pins are jumpered, the CMOS settings will be cleared on the next  
reset. These pins should not be jumpered for normal operation.  
Password Clear  
3-4  
If these pins are jumpered, the password will be cleared on the next reset.  
These pins should not be jumpered for normal operation.  
Reserved  
5-6  
Reserved. These pins should not be jumpered for normal operation.  
Reserved. These pins should not be jumpered for normal operation.  
Reserved  
7-8  
BIOS Recovery  
9-10  
If these pins are jumpered, the BIOS will attempt a recovery boot, loading  
BIOS code from a floppy diskette into the Flash device. This is typically  
used when the BIOS code has been corrupted. These pins should not be  
jumpered for normal operation.  
SPARE  
11-12 SPARE jumper.  
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Table 8.  
Configuration Jumper (CN27)  
Jumper Name  
Pins  
What it does at system reset  
BIOS Write Protect  
1-2  
If these pins are jumpered, write protect is disabled allowing the BIOS boot  
block to be updated. This feature is used in the rare case that a BIOS  
update requires a BIOS boot block update as well. These pins should not  
be jumpered for normal operation.  
BMC Write Protect  
3-4  
If these pins are jumpered, write protect is disabled allowing the BMC boot  
block to be updated. This feature is used in the rare case that a BIOS  
update requires a BMC boot block update as well. These pins should not  
be jumpered for normal operation.  
Table 9.  
Configuration Jumper (CN53)  
Jumper Name  
Pins  
What it does at system reset  
PCIX1 DIS  
1-2  
Placing a jumper on pins 1-2 disables the 133 MHz PCI-X mode for the  
CIOBX2 primary channel and forces the bus to run 66 MHz PCI. The  
primary channel consists of Slot 1, Slot 2 and Gbit.  
In the default configuration, pins 1-2 are not jumpered therefore the  
primary channel is configured for 133 MHz PCI-X.  
PCIX2 DIS  
3-4  
Placing a jumper on pins 3-4 disables the PCI-X mode for the CIOBX2  
secondary channel and forces the bus to run 66 MHz PCI. The secondary  
channel consists of Slot 6 and the on-board SCSI.  
In the default configuration, pins 3-4 are jumpered therefore the secondary  
channel is configured for 66 MHz PCI and on-board SCSI is enabled.  
Enabling PCI-X on Slot 6 and Disabling On-board SCSI  
NOTE  
Enabling the 133 MHz PCI-X on Slot 6 disables the on-board SCSI.  
To enable the 133 MHz PCI-X on Slot 6, follow these instructions:  
1. Enter BIOS setup.  
2. While in BIOS setup, remove the jumper from CN53 pins 3-4.  
3. In BIOS setup disable the on-board SCSI.  
4. Select Save & Exit BIOS setup.  
5. While the system is posting, shutdown the system by pushing the front panel power button.  
6. While the system in off, plug a PCI-X card into Slot 6.  
7. Push the front panel power button to power up the system.  
8. Slot 6 is now 133 MHz PCI-X capable.  
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8 Regulatory and Integration Information  
Product Regulatory Compliance  
Product Safety Compliance  
The SHG2 complies with the following safety requirements:  
UL 1950 - CSA 950 (US/Canada)  
EN 60 950 (European Union)  
IEC60 950 (International)  
CE Low Voltage Directive (73/23/EEC) (European Union)  
EMKO-TSE (74-SEC) 207/94 (Nordics)  
GOST R 50377-92 (Russia)  
Product EMC Compliance  
The SHG2 has been has been tested and verified to comply with the following electromagnetic  
compatibility (EMC) regulations when installed a compatible Intel host system. For information on  
compatible host system(s) refer to Intels Server Builder website or contact your local Intel  
representative.  
FCC (Class A Verification) Radiated & Conducted Emissions (USA)  
ICES-003 (Class A) Radiated & Conducted Emissions (Canada)  
CISPR 22, 3rd Edition (Class A) Radiated & Conducted Emissions (International)  
EN55022 (Class A) Radiated & Conducted Emissions (European Union)  
EN55024 (Immunity) (European Union)  
CE EMC Directive (89/336/EEC) (European Union)  
VCCI (Class A) Radiated & Conducted Emissions (Japan)  
AS/NZS 3548 (Class A) Radiated & Conducted Emissions (Australia / New Zealand)  
RRL (Class A) Radiated & Conducted Emissions (Korea)  
BSMI (Class A) Radiated & Conducted Emissions (Taiwan)  
GOST R 29216-91 (Class A) Radiated & Conducted Emissions (Russia)  
GOST R 50628-95 (Immunity) (Russia)  
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Product Regulatory Compliance Markings  
This product is marked with the following Product Certification Markings:  
UL Recognition Mark  
CE Mark  
Russian GOST Mark  
Australian C-Tick Mark  
BSMI DOC Marking  
BSMI EMC Warning  
RRL MIC Mark  
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Electromagnetic Compatibility Notices  
FCC (USA)  
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 related to the EMC performance of this product, contact:  
Intel Corporation  
5200 N.E. Elam Young Parkway  
Hillsboro, OR 97124  
1-800-628-8686  
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 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 the receiver.  
Connect the equipment to an outlet on a circuit other than the one to which the receiver is  
connected.  
Consult the dealer or an experienced radio/TV technician for help.  
Any changes or modifications not expressly approved by the grantee of this device could void the  
users authority to operate the equipment. The customer is responsible for ensuring compliance of  
the modified product.  
Only peripherals (computer input/output devices, terminals, printers, etc.) that comply with  
FCC Class A or B limits may be attached to this computer product. Operation with noncompliant  
peripherals is likely to result in interference to radio and TV reception.  
All cables used to connect to peripherals must be shielded and grounded. Operation with cables,  
connected to peripherals, that are not shielded and grounded may result in interference to radio and  
TV reception.  
Regulatory and Integration Information  
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INDUSTRY CANADA (ICES-003)  
This digital apparatus does not exceed the Class A limits for radio noise emissions from digital  
apparatus set out in the interference-causing equipment standard entitled: Digital Apparatus,”  
ICES-003 of the Canadian Department of Communications.  
Cet appareil numérique respecte les limites bruits radioélectriques applicables aux appareils  
numériques de Classe A prescrites dans la norme sur le material brouilleur: Apparelis  
Numériques, NMB-003 édictee par le Ministre Canadian des Communications.  
Europe (CE Declaration of Conformity)  
This product has been tested in accordance too, and complies with the Low Voltage Directive  
(73/23/EEC) and EMC Directive (89/336/EEC). The product has been marked with the CE Mark  
to illustrate its compliance.  
Taiwan Declaration of Conformity  
This product has been tested and complies with CNS13438. The product has been marked with the  
BSMI DOC mark to illustrate compliance.  
Korean RRL Compliance  
This product has been tested and complies with MIC Notices No. 1997-41 and 1997-42. The  
product has been marked with the MIC logo to illustrate compliance.  
The English translation for the above is as follows:  
1. Type of Equipment (Model Name): SHG2  
2. Certification No.: Contact Intel Representative  
3. Name of Certification Recipient: Intel  
4. Date of Manufacturer: Marked on Product  
5. Manufacturer / Nation : Intel  
Australia / New Zealand  
This product has been tested and complies with AS/NZS 3548. The product has been marked with  
the C-Tick mark to illustrate compliance.  
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9 Equipment Log Worksheet  
Equipment Log  
Use the blank equipment log provided here to record information about your system. You will  
need some of this information when you run the SSU.  
Manufacturer Name and  
Item  
Model Number  
Serial Number  
Date Installed  
System  
Server Board  
Primary Processor Speed  
and Cache  
Secondary Processor Speed  
and Cache  
Video Display  
Keyboard  
Mouse  
Diskette Drive A  
Diskette Drive B  
Tape Drive  
CD-ROM Drive  
Hard Disk Drive 1  
Hard Disk Drive 2  
Hard Disk Drive 3  
Hard Disk Drive 4  
Hard Disk Drive 5  
continued  
95  
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Equipment Log (continued)  
Manufacturer Name and  
Model Number  
Item  
Serial Number  
Date Installed  
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Index  
CMOS  
clear to reconfigure diskette drive, 57  
saving and restoring, 64  
CN42 pins, 75  
A
Adapter Fault Tolerance, 15, 16  
Adaptive Load Balancing, 15, 16  
Add-in boards  
configuration, limiting access to system with  
administrative password, 20  
add-in board connectors, 13  
PCI-X, 13  
configuring server board jumpers  
location on server board, 87, 89  
configuring system  
SCU, 55  
administrative password, 18  
limiting access to SCU, 20  
AFT. See Adapter Fault Tolerance  
ALB. See Adaptive Load Balancing  
audible beep error codes, 56  
Setup, 55  
Connector, USB, 14  
controller  
keyboard/mouse, 17  
network, 9, 15  
SCSI, 14  
B
Back Panel Connectors, 10  
video, 9  
battery  
IDE, 14  
Memory, 12, 26, 44, 45  
disposing of safely, 52  
installing, 53  
removing, 52  
beep codes, 56  
D
BIOS  
diagnostics, preparing system for testing, 81  
changing the language, 75  
recovering, 75  
updates, 63  
DIMM, 12, 26, 44, 45  
diskette  
enabling/disabling floppy writes, 19  
no booting in secure mode without  
password, 19  
upgrading, 73  
boot sequence  
booting without keyboard, 20  
setting in Setup, 20  
bootable media, required by POST, 56  
booting cold, 79  
reconfiguring if cannot enter Setup, 57  
running SCU from, 56  
E
booting the server, boot device priority, 60  
email alerts, 65  
emergency management port, 65, 68  
equipment log, 95  
C
Caution  
ESD  
avoid damaging jumpers when changing,  
44  
avoid touching processor pins, 45, 52  
selecting correct processor, 45, 52  
add-in boards, 21, 43  
avoiding damage to product, 21, 43  
do not touch processor pins, 45, 52  
controller, video, 13  
Index  
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modem remote access, 68  
Modular RAID, 14  
mouse  
F
fan, heat sink, disconnecting, 46, 52  
Fast EtherChannel, 15  
feature summary  
compatibility, 17  
inactivity timer, 17  
network, controller, 9, 15  
Network Teaming, 15  
back panel connectors, 10  
board, 9  
FEC. See Fast EtherChannel  
field replaceable units, viewing, 62  
Firmware Update Utility, 76  
firmware updates, 63  
P
password, 18, 60  
administrative, 18  
administrator, 18  
entering to unblank screen, 20  
user, 18  
form factor, 9  
FRUSDR load utility, 55, 69  
when to run, 69  
using to reactivate keyboard/mouse, 20  
using to reactivate keyboard/mouse, 17  
PCI  
G-J  
GUI, working with, 59  
heat sink, fan, 46, 52  
embedded devices, 9  
expansion slots, 9  
hot key option, quick reference, 55  
I/O  
platform event management, 65, 67  
platform event paging, 65  
POST  
PCI expansion slots, 9  
ports provided, 9  
IDE, feature summary, 13  
IDE controller, 14  
bootable media required, 56  
memory, amount tested, 56  
intrusion detection, 17  
jumpers, do not damage when changing, 44  
problems  
after running new application software, 80  
after system has been running correctly,  
80  
application software, 86  
bootable CD-ROM not detected, 86  
cannot connect to network server, 84  
CD-ROM drive activity light, 84  
confirm OS loading, 81  
diskette drive light, 84  
hard drive light, 84  
initial system startup, 79  
network, 85  
K-L  
keyboard  
compatibility, 17  
lockout timer, seting in SCU, 17  
LAN alerts, 66  
LAN remote access, 67  
language, changing in BIOS, 75  
lithium backup battery  
disposing of safely, 52  
installing, 53  
no characters on screen, 82  
PCI installation tips, 85  
power light, 82  
preparing system for diagnostic testing, 81  
random error in data files, 80  
screen characters incorrect, 83  
system cooling fans do not rotate, 83  
system lights, 81  
removing, 52  
M-N  
memory  
amount tested, POST, 56  
capacity, 9  
DIMM requirements, 12, 15, 26, 30, 44,  
45, 47, 52  
video amount, 9  
what type to install, 9  
98  
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processor, 52  
adding, 46  
Setup  
cannot enter, need to reconfigure diskette,  
57  
removing, 46, 52  
changing configuration, 55  
description, 57  
selecting the correct processor, 45, 52  
wind tunnel installation, 49  
recording settings, 57  
soft boot, 79  
R
software updates, 63  
SSU  
RAIDIOS, 14  
real time clock, running SCU to configure  
settings, 53  
Configuration Save/Restore, 64  
creating diskettes, 58  
customizing the interface, 60  
FRU Manager, 62  
Multiboot Options, 60  
Passwords, 60  
remote access, 67, 68  
reset system, 55, 79  
S
SCSI controller, 14  
Platform Event Manager, 65, 67  
running, 59  
SCU  
SDR Manager, 63  
SEL Manager, 62  
administrative password limits access to,  
20  
changing configuration, 55  
inactivity (lockout) timer, 17  
software locking feature, 18  
System Update, 63  
switches,  
alarm, 17  
secure mode, 19  
DC power, 79  
affects boot sequence, 20  
enter by setting passwords, 19  
no booting from diskette without  
password, 19  
reset, 79  
System Configuration Utility. See SCU  
system event log, viewing, 62  
using hot keys to enter, 55  
T-U  
timer  
security, 17, 19  
alarm switches, 17  
keyboard or mouse inactive, 17  
lockout (inactivity), setting in SCU, 17  
upgrade Flash utility, 73  
user password, 18  
boot sequence, 20  
enabling/disabling floppy writes, 19  
locking mouse, keyboard with timer, 17,  
20  
limit access to using system, 20  
utilities  
password, 20  
secure mode, 19  
Firmware update, 76  
FRUSDR load, 55  
SCSI, 55  
secure mode, setting in SCU, 19  
software lock, SCU, 18  
unattended start, 20  
SCU, 55  
Setup, 55, 57  
using hot key combination, 55  
video blanking, 20  
Utilities, FRUSDR load utility, 69  
security options, setting, 61  
sensor data records, viewing, 63  
serial remote access, 68  
server board  
component locations, figure, 11  
configurations, 87, 89  
server management, intrusion detection, 17  
Index  
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Warning  
components may be hot, 45, 52  
dispose of lithium battery safely, 52  
ESD can damage product, 21, 43  
write to diskette, disabling, 19  
V-W  
video  
blanking for security, 20  
memory, 9  
video controller, 9, 13  
100  
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