®
SUPER
H8QM3-2
H8QMi-2
USER’S MANUAL
Revision 1.0c
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Preface
Preface
About This Manual
This manual is written for system integrators, PC technicians and
knowledgeable PC users. It provides information for the installation and use of the
H8QM3-2/H8QMi-2 serverboard. The H8QM3-2/H8QMi-2 is based on the nVidia®
MCP55 Pro and IO55 chipset and supports two or four AMD Opteron Socket F type
8000 series processors and up to 128 GB of DDR2-667 registered ECC SDRAM.
Please refer to the serverboard specifications pages on our web site for updates on
supported processors (http://www.supermicro.com/aplus/). This product is intended
to be professionally installed.
Manual Organization
Chapter 1 includes a checklist of what should be included in your serverboard
box, describes the features, specifications and performance of the serverboard and
provides detailed information about the chipset.
Chapter 2 begins with instructions on handling static-sensitive devices. Read this
chapter when installing the processor(s) and memory modules and when installing
the serverboard in a chassis. Also refer to this chapter to connect the floppy and
hard disk drives, the parallel and serial ports, the mouse and keyboard and the
twisted wires for the power and reset buttons and the system LEDs.
If you encounter any problems, see Chapter 3, which describes troubleshooting
procedures for the video, the memory and the setup configuration stored in CMOS.
For quick reference, a general FAQ (Frequently Asked Questions) section is pro-
vided. Instructions are also included for contacting technical support. In addition,
you can visit our web site for more detailed information.
Chapter 4 includes an introduction to BIOS and provides detailed information on
running the CMOS Setup utility.
Appendix A provides BIOS POST Checkpoint Codes.
Appendix B lists BIOS Error Beep Code Messages.
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H8QM3-2/H8QMi-2 User’s Manual
Table of Contents
Chapter 1: Introduction
1-1 Overview ......................................................................................................... 1-1
Checklist.................................................................................................... 1-1
Contacting Supermicro ............................................................................. 1-2
H8QM3-2 Image ....................................................................................... 1-3
H8QM3-2/H8QMi-2 Serverboard Layout................................................... 1-4
H8QM3-2/H8QMi-2 Quick Reference........................................................ 1-5
Serverboard Features .............................................................................. 1-6
Chipset: System Block Diagram ............................................................... 1-8
1-2 Chipset Overview ........................................................................................... 1-9
1-3 PC Health Monitoring ................................................................................... 1-10
1-4 Power Configuration Settings ....................................................................... 1-10
1-5 Power Supply ............................................................................................... 1-12
1-6 Super I/O ........................................................................................................ 1-12
Chapter 2: Installation
2-1 Static-Sensitive Devices ................................................................................. 2-1
2-2 Processor and Heatsink Installation ............................................................... 2-2
2-3 Mounting the Serverboard into a Chassis ...................................................... 2-4
2-4 Installing Memory ........................................................................................... 2-4
2-5 I/O Port and Control Panel Connections ........................................................ 2-6
2-6 Connector Definitions ..................................................................................... 2-7
ATX Power Connector ............................................................................. 2-7
Processor Power Connectors .................................................................. 2-7
NMI Button ............................................................................................... 2-7
Power LED ............................................................................................... 2-7
HDD LED ................................................................................................ 2-8
NIC1 LED ................................................................................................. 2-8
NIC2 LED ................................................................................................. 2-8
Overheat/Fan Fail LED ............................................................................ 2-8
Power Fail LED ........................................................................................ 2-8
Reset Button ............................................................................................ 2-9
Power Button ............................................................................................ 2-9
Universal Serial Bus Ports ....................................................................... 2-9
USB Headers ........................................................................................... 2-9
Serial Ports ............................................................................................. 2-10
Fan Headers .......................................................................................... 2-10
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Table of Contents
Overheat LED ........................................................................................ 2-10
Power LED/Speaker ............................................................................... 2-10
JLAN1/2 (Ethernet Ports) ....................................................................... 2-11
ATX PS/2 Keyboard/Mouse Ports .......................................................... 2-11
Chassis Intrusion .................................................................................... 2-11
Wake-On-LAN ........................................................................................ 2-11
I2C Header .............................................................................................. 2-11
Wake-On-Ring ........................................................................................ 2-12
Compact Flash Power Headers ............................................................. 2-12
3-SGPIO1/3-SGPIO2 ............................................................................. 2-12
T-SGPIO1/T-SGPIO2 ............................................................................. 2-12
2-7 Jumper Settings ............................................................................................ 2-13
Explanation of Jumpers ......................................................................... 2-13
CMOS Clear ........................................................................................... 2-13
VGA Enable/Disable ............................................................................... 2-14
JLAN Enable/Disable ............................................................................. 2-14
I2C to PCI-X Slots .................................................................................. 2-14
I2C to PCI-E Slots .................................................................................. 2-14
Compact Flash Master/Slave ................................................................. 2-14
Watch Dog Enable/Disable ..................................................................... 2-15
PCI-X Slot Speed ................................................................................... 2-15
SAS RAID Select ................................................................................... 2-16
2-8 Onboard Indicators ....................................................................................... 2-16
JLAN1/JLAN2 LEDs ............................................................................... 2-16
Onboard Power LED .............................................................................. 2-16
2-9 Floppy, IDE SATA and SAS Drive Connections ........................................... 2-17
Floppy Connector ................................................................................... 2-17
IDE Connector ........................................................................................ 2-18
SATA Ports ............................................................................................. 2-18
SAS Ports ............................................................................................... 2-19
SIMLC (IPMI) Slot .................................................................................. 2-19
2-10 Enabling SATA RAID .................................................................................... 2-20
2-11 Installing Software Drivers ............................................................................ 2-23
Chapter 3: Troubleshooting
3-1 Troubleshooting Procedures ........................................................................... 3-1
Before Power On ..................................................................................... 3-1
No Power ................................................................................................. 3-1
No Video .................................................................................................. 3-1
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H8QM3-2/H8QMi-2 User’s Manual
Memory Errors ......................................................................................... 3-2
Losing the System’s Setup Configuration ................................................ 3-2
3-2 Technical Support Procedures ....................................................................... 3-2
3-3 Frequently Asked Questions .......................................................................... 3-3
3-4 Returning Merchandise for Service ................................................................ 3-4
Chapter 4: BIOS
4-1 Introduction ..................................................................................................... 4-1
4-2 Main Menu ...................................................................................................... 4-2
4-3 Advanced Settings Menu ............................................................................... 4-2
4-4 Boot Menu .................................................................................................... 4-16
4-5 Security Menu ............................................................................................... 4-17
4-6 Exit Menu ...................................................................................................... 4-18
Appendices:
Appendix A: BIOS Error Beep Codes
Appendix B: BIOS POST Checkpoint Codes
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Chapter 1: Introduction
Chapter 1
Introduction
1-1 Overview
Checklist
Congratulations on purchasing your computer serverboard from an acknowledged
leader in the industry. Our boards are designed with the utmost attention to detail
to provide you with the highest standards in quality and performance.
Please check that the following items have all been included with your serverboard.
If anything listed here is damaged or missing, contact your retailer.
Included with retail box only
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
One (1) H8QM3-2/H8QMi-2 serverboard
One (1) IDE cable (CBL-036L-03)
One (1) floppy cable (CBL-022L)
One (1) COM port cable (CBL-010L)
Eight (8) SATA cables (CBL-044L): H8QM3-2 only
Six (6) SATA cables (CBL-044L): H8QMi-2 only
One (1) I/O shield (CSE-PT55L)
One (1) CD containing drivers and utilities
1-1
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H8QM3-2/H8QMi-2 User’s Manual
Contacting Supermicro
Headquarters
Address:
Super Micro Computer, Inc.
980 Rock Ave.
San Jose, CA 95131 U.S.A.
+1 (408) 503-8000
Tel:
Fax:
Email:
+1 (408) 503-8008
[email protected] (General Information)
Web Site:
Europe
Address:
Super Micro Computer B.V.
Het Sterrenbeeld 28, 5215 ML
's-Hertogenbosch, The Netherlands
+31 (0) 73-6400390
Tel:
Fax:
Email:
+31 (0) 73-6416525
[email protected] (General Information)
[email protected] (Customer Support)
Asia-Pacific
Address:
Super Micro, Taiwan
4F, No. 232-1, Liancheng Rd.
Chung-Ho 235, Taipei, Taiwan, R.O.C.
+886-(2) 8226-3990
Tel:
Fax:
+886-(2) 8226-3991
Web Site:
Technical Support:
Email:
Tel:
886-2-8228-1366, ext.132 or 139
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Chapter 1: Introduction
Figure 1-1. H8QM3-2 Image
Note: the H8QMi-2 has the same layout but does not include SAS ports or compo-
nents.
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H8QM3-2/H8QMi-2 User’s Manual
Figure 1-2. Serverboard Layout
(not drawn to scale)
JD1
DIMMB 1B
DIMMB 1A
DIMMB 2B
DIMMB 2A
JOH1
JF1
SUPER H8QM3-2
CPU 4
CPU2 DIMMs
FAN1
DIMMB 3B
DIMMB 3A
DIMMB 4B
DIMMB 4A
FAN7/
CPU4
DIMMC 4A
DIMMC 4B
DIMMC 3A
DIMMC 3B
Speaker
FAN2
Kybd/
Mouse
CPU4 DIMMs
CPU 2
DIMMC 2A
DIMMC 2B
DIMMC 1A
USB0/1
FAN3/
CPU2
DIMMC 1B
DIMMD 1B
DIMMD 1A
DIMMD 2B
FAN4/
CPU1
DIMMD 2A
DIMMD 3B
DIMMD 3A
DIMMD 4B
DIMMD 4A
CPU3 DIMMs
CPU 1
FAN5
JLAN1
JLAN2
DIMMA 4A
DIMMA 4B
DIMMA 3A
DIMMA 3B
FAN6
FAN8/
CPU3
FAN9
CPU 3
CPU1 DIMMs
DIMMA 2A
DIMMA 2B
DIMMA 1A
DIMMA 1B
Slot #5: PCI-Express x16
JPL1
Slot #4: PCI-Express x4
nVidia
IO55
JWOR
JPS1
nVidia
MCP55 Pro
Battery
T-SGPIO1
T-SGPIO2
Slot #3: PCI-Express x8
BIOS
JBT1
ATI
ES 1000
Slot #2: PCI-Express x16
JL1
LSI
1068E
JI2C3
JI2C2
I Button
JPG1
JI2C4
JI2C1
JWD
NEC
uPD720404
JCF1
JWF1
Slot #1: PCI-X 133/100 MHz
JPX2A
JPI2C
SIMLC
COM2
JPX1A
USB2/3 3-SGPIO2 3-SGPIO1
JWOL
Notes:
Jumpers not indicated are for test purposes only.
The H8QMi-2 has the same layout as the H8QM3-2 but does not include SAS ports
or components.
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Chapter 1: Introduction
H8QM3-2/H8QMi-2 Quick Reference
Jumpers
JBT1
JCF1
Description
CMOS Clear
Default Setting
(See Section 2-7)
Closed (Master)
Compact Flash Card Master/Slave
SAS RAID Select
PCI-X Slot Speed Select
PCI-X Slot Speed Select
I2C to PCI-X
JPS1*
Closed (SR RAID)
Pins 2-3 (133 MHz)
Open (Disabled)
Pins 2-3 (Disabled)
Pins 2-3 (Disabled)
Pins 1-2 (Enabled)
Pins 1-2 (Enabled)
Pins 1-2 (Reset)
JPX1A
JPX2A
JI2C1/JI2C2
JI2C3/JI2C4
JPG1
I2C to PCI-E
VGA Enable/Disable
JLAN Enable/Disable
Watch Dog
JPL1
JWD
Connectors
Description
3-SGPIO1/3-SGPIO2*
COM1/COM2
FAN 1-9
Floppy
I Button*
IDE
J1B1
JD1
JF1
SGPIO Headers (used with SAS)
COM1 Serial Port/Header
Chassis/CPU Fan Headers
Floppy Disk Drive Connector
I Button (for RAID 5 support)
IDE Drive/Compact Flash Card Connector
24-Pin ATX Power Connector
Onboard Speaker/Power LED
Front Panel Connector
JL1
Chassis Intrusion Header
JLAN1/2
JOH1
JPI2C
Gigabit Ethernet (RJ45) Ports
Overheat Warning Header
I2C Header
JPW1/JPW2
JWF1
JWOL
8-Pin Processor Power Connectors
Compact Flash Card Power Connector
Wake-On-LAN Header
JWOR
Wake-On-Ring Header
SAS0 ~ SAS7*
SATA0 ~ 5
T-SGPIO1/T-SGPIO2
SIMLC
USB0/1
USB2/3
Serial Attached SCSI (SAS) Ports
Serial ATA (SATA) Ports
SGPIO Headers (used with SATA)
IPMI 2.0 (with virtual media over LAN) Slot
Universal Serial Bus (USB) Ports
USB Headers
*H8QM3-2 only
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H8QM3-2/H8QMi-2 User’s Manual
Serverboard Features
CPU
• Two (dual) or four (quad) AMD Opteron 8000 series Socket F type processors
Memory
• Thirty-two dual-channel DIMM slots supporting up to 128 GB of registered ECC
DDR2-667/533/400 SDRAM
Note: Refer to Section 2-4 before installing.
Chipset
• nVidia MCP55 Pro
• IO55
Expansion Slots
• Two (2) PCI-Express x16 slots
• One (1) PCI-Express x8 slot
• One (1) PCI-Express x4 slot (x8 slot using x4 signal)
• One (1) PCI-X 133/100 MHz slot
• One (1) SIMLC slot (for IPMI card)
BIOS
• 8 Mb AMIBIOS® LPC Flash ROM
• DMI 2.3, PCI 2.2, ACPI 2.0, SMBIOS 2.3, Plug and Play (PnP)
PC Health Monitoring
• Onboard voltage monitors for four CPU cores, Hyper Transport (1.2V), memory
banks (1.8V), chipset (1.5V)
• Fan status monitor with firmware/software on/off and speed control
• Watch Dog
• Environmental temperature monitoring via BIOS
• Power-up mode control for recovery from AC power loss
• System resource alert (via included utility program)
• Auto-switching voltage regulator for the CPU core
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Chapter 1: Introduction
ACPI Features
• Slow blinking LED for suspend state indicator
• BIOS support for USB keyboard
• Main switch override mechanism
• Internal/external modem ring-on
Onboard I/O
• On-chip SATA controller supporting six (6) 3 Gb/s SATA ports (RAID 0, 1, 0+1,
5 and JBOD)
• LSI 1068E SAS controller supporting eight (8) SAS ports (RAID 0, 1, 10 and
JBOD, optional RAID 5 support with iButton installed) (H8QM3-2 only)
• One (1) UltraDMA (ATA) 133/100 IDE port
• One (1) floppy port interface
• Two (2) Fast UART 16550 compatible serial ports
• On-chip (Intel 82546) Ethernet controller supports two Gb Ethernet ports
• PS/2 mouse and PS/2 keyboard ports
• Four (4) USB (Universal Serial Bus) 2.0 ports/headers
• ATI ES1000 graphics chip
Other
• Wake-on-Ring (JWOR)
• Wake-on-LAN (JWOL)
• Chassis intrusion detection
Dimensions
• Extended ATX form factor, 16.4" x 13" (417 x 330 mm)
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H8QM3-2/H8QMi-2 User’s Manual
DDR2-667/533/400
DIMMs 1A ~ 4B
DDR2-667/533/400
AMD Socket F Type
Processor (CPU3)
AMD Socket F Type
Processor (CPU4)
DIMMs1A ~ 4B
16 x 16 HT link(1GHz)
DDR2-667/533/400
DIMMs 1A ~4B
DDR2-667/533/400
DIMMs1A ~ 4B
AMD Socket F Type
Processor (CPU2)
AMD Socket F Type
Processor (CPU1)
16 x 16 HT link(1 GHz)
LAN Ports (2)
PCI-E x8
PCI-E x4
SAS Ports (8)
PCI 32
ATI
NEC uPD720404
Slot #1: PCI-X 133
Slot #2: PCI-E x16
Slot #3: PCI-E x8
Slot #4: PCI-E x4
ES 1000
PCI-E
Slot #5: PCI-E x16
SATA Ports (6)
IDE(ATA133)
PCI-E x16
nVidia
MCP55
Pro
nVidia
IO55
SIMLC
SATA
UDMA133
USB 2.0
USB Ports(4)
LPC
S I/O
BIOS
Kybd/
Mouse
Serial Ports
(2)
Floppy
Figure 1-3. nVidia MCP55 Pro/IO55 Chipset:
System Block Diagram
Note: This is a general block diagram and may not exactly represent
the features on your serverboard. See the previous pages for the
actual specifications of your serverboard.
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Chapter 1: Introduction
1-2 Chipset Overview
The H8QM3-2/H8QMi-2 serverboard is based on the nVidia MCP55 Pro and IO55
chipset. The MCP55 Pro functions as Media and Communications Processor (MCP)
and the IO55 as a PCI-E Tunnel. An NEC uPD720404 chip is also included as a
bridge for the GB LAN ports and the PCI-X slot. Note that the controllers for the
system memory are integrated directly into the AMD CPUs.
MCP55 Pro Media and Communications Processor
The MCP55 Pro is a single-chip, high-performance HyperTransport peripheral con-
troller. It includes a 28-lane PCI Express interface, an AMD Opteron 16-bit Hyper
Transport interface link, a six-port (3 Gb/s) Serial ATA interface, an ATA133 bus
master interface and a USB 2.0 interface. This hub connects directly to CPU1.
IO55
This hub connects directly to CPU2 via a 16 x 16 1 GHz Hyper Transport link. The
IO55 includes an interface for the PCI-Express slots.
NEC uPD720404
This I/O bridge chip provides one PCI-Express x4 upstream port and two PCI-X
domains. Each bridge supports PCI masters that include clock, request and grant
signals. This hub links the MCP55 with the PCI-X slot (slot #1) and the Gb LAN
ports.
HyperTransport Technology
HyperTransport technology is a high-speed, low latency point to point link that was
designed to increase the communication speed by a factor of up to 48x between
integrated circuits. This is done partly by reducing the number of buses in the
chipset to reduce bottlenecks and by enabling a more efficient use of memory in
multi-processor systems. The end result is a significant increase in bandwidth
within the chipset.
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H8QM3-2/H8QMi-2 User’s Manual
1-3 PC Health Monitoring
This section describes the PC health monitoring features of the H8QM3-2/H8QMi-
2. The serverboard has an onboard System Hardware Monitor chip that supports
PC health monitoring.
Onboard Voltage Monitors for four CPU cores, Hyper Transport
(1.2V), memory (1.8V), chipset (1.5V)
The onboard voltage monitor will scan these voltages continuously. Once a voltage
becomes unstable, it will give a warning or send an error message to the screen.
Users can adjust the voltage thresholds to define the sensitivity of the voltage moni-
tor. Real time readings of these voltage levels are all displayed in BIOS.
Fan Status Monitor with Firmware/Software Speed Control
The PC health monitor can check the RPM status of the cooling fans. The onboard
fans are controlled by thermal management via BIOS.
CPU Overheat/Fan Fail LED and Control
This feature is available when the user enables the CPU overheat/Fan Fail warning
function in the BIOS. This allows the user to define an overheat temperature. When
this temperature is exceeded or when a fan failure occurs, then, the Overheat/Fan
Fail warning LED is triggered.
Auto-Switching Voltage Regulator for the CPU Core
The 5-phase-switching voltage regulator for the CPU core can support up to 100A
and auto-sense voltage IDs. This will allow the regulator to run cooler and thus
make the system more stable.
1-4 Power Configuration Settings
This section describes the features of your serverboard that deal with power and
power settings.
Microsoft OnNow
The OnNow design initiative is a comprehensive, system-wide approach to system
and device power control. OnNow is a term for a PC that is always on but appears
to be off and responds immediately to user or other requests.
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Chapter 1: Introduction
Slow Blinking LED for Suspend-State Indicator
When the CPU goes into a suspend state, the chassis power LED will start blinking
to indicate that the CPU is in suspend mode. When the user presses any key, the
CPU will wake-up and the LED will automatically stop blinking and remain on.
BIOS Support for USB Keyboard
If a USB keyboard is the only keyboard in the system, it will function like a normal
keyboard during system boot-up.
Main Switch Override Mechanism
When an ATX power supply is used, the power button can function as a system
suspend button. When the user depresses the power button, the system will enter
a SoftOff state. The monitor will be suspended and the hard drive will spin down.
Depressing the power button again will cause the whole system to wake-up. Dur-
ing the SoftOff state, the ATX power supply provides power to keep the required
circuitry in the system alive. In case the system malfunctions and you want to turn
off the power, just depress and hold the power button for 4 seconds. The power
will turn off and no power will be provided to the serverboard.
Wake-On-LAN
Wake-On-LAN is defined as the ability of a management application to remotely
power up a computer that is powered off. Remote PC setup, up-dates and access
tracking can occur after hours and on weekends so that daily LAN traffic is kept
to a minimum and users are not interrupted. The serverboard has a 3-pin header
(JWOL) to connect to the 3-pin header on a Network Interface Card (NIC) that has
WOL capability. Wake-On-LAN must be enabled in BIOS. Note that Wake-On-LAN
can only be used with an ATX 2.01 (or above) compliant power supply.
Wake-On-Ring Header
Wake-up events can be triggered by a device such as the external modem ringing
when the system is in the SoftOff state. Note that external modem ring-on can only
be used with an ATX 2.01 (or above) compliant power supply.
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H8QM3-2/H8QMi-2 User’s Manual
1-5 Power Supply
As with all computer products, a stable power source is necessary for proper and
reliable operation. It is even more important for processors that have high CPU
clock rates.
The H8QM3-2/H8QMi-2 accommodates 12V ATX power supplies. Although most
power supplies generally meet the specifications required by the CPU, some
are inadequate. A 2 amp current supply on a 5V Standby rail is strongly recom-
mended.
It is strongly recommended that you use a high quality power supply that meets
12V ATX power supply Specification 1.1 or above. Additionally, in areas where
noisy power transmission is present, you may choose to install a line filter to shield
the computer from noise. It is recommended that you also install a power surge
protector to help avoid problems caused by power surges.
Warning: To prevent the possibility of explosion, do not use the wrong type of
onboard CMOS battery or install it upside down.
1-6 Super I/O
The disk drive adapter functions of the Super I/O chip include a floppy disk drive
controller that is compatible with industry standard 82077/765, a data separator,
write pre-compensation circuitry, decode logic, data rate selection, a clock genera-
tor, drive interface control logic and interrupt and DMA logic. The wide range of
functions integrated onto the Super I/O greatly reduces the number of components
required for interfacing with floppy disk drives. The Super I/O supports two 360
K, 720 K, 1.2 M, 1.44 M or 2.88 M disk drives and data transfer rates of 250 Kb/s,
500 Kb/s or 1 Mb/s.
It also provides two high-speed, 16550 compatible serial communication ports
(UARTs), one of which supports serial infrared communication. Each UART in-
cludes a 16-byte send/receive FIFO, a programmable baud rate generator, complete
modem control capability and a processor interrupt system. Both UARTs provide
legacy speed with baud rate of up to 115.2 Kbps as well as an advanced speed
with baud rates of 250 K, 500 K, or 1 Mb/s, which support higher speed modems.
The Super I/O provides functions that comply with ACPI (Advanced Configuration
and Power Interface), which includes support of legacy and ACPI power manage-
ment through a SMI or SCI function pin. It also features auto power management
to reduce power consumption.
The IRQs, DMAs and I/O space resources of the Super I/O can be flexibly adjusted
to meet ISA PnP requirements, which support ACPI and APM (Advanced Power
Management).
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Chapter 2: Installation
Chapter 2
Installation
2-1 Static-Sensitive Devices
Electrostatic Discharge (ESD) can damage electronic components. To prevent dam-
age to your system board, it is important to handle it very carefully. The following
measures are generally sufficient to protect your equipment from ESD.
Precautions
• Use a grounded wrist strap designed to prevent static discharge.
• Touch a grounded metal object before removing the board from the antistatic
bag.
• Handle the board by its edges only; do not touch its components, peripheral
chips, memory modules or gold contacts.
• When handling chips or modules, avoid touching their pins.
• Put the serverboard and peripherals back into their antistatic bags when not in
use.
• For grounding purposes, make sure your computer chassis provides excellent
conductivity between the power supply, the case, the mounting fasteners and
the serverboard.
• Use only the correct type of CMOS onboard battery as specified by the manufac-
turer. Do not install the CMOS onboard battery upside down, which may result
in a possible explosion.
Unpacking
The serverboard is shipped in antistatic packaging to avoid static damage. When
unpacking the board, make sure the person handling it is static protected.
Installation Procedures
Follow the procedures as listed below to install the serverboard into a chassis:
1. Install the processor(s) and the heatsink(s).
2. Install the serverboard in the chassis.
3. Install the memory and add-on cards.
4. Finally, connect the cables and install the drivers.
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H8QM3-2/H8QMi-2 User's Manual
2-2 Processor and Heatsink Installation
Exercise extreme caution when handling and installing the proces-
sor. Always connect the power cord last and always remove it be-
fore adding, removing or changing any hardware components.
!
CPU Backplates
Four CPU backplates (BKT-0011L) have been preinstalled to the serverboard to
prevent the CPU area of the serverboard from bending and to provide a base for
attaching the heatsink retention modules.
Single, dual or quad-CPU configurations only are supported. For a single-CPU
configuration, install to the CPU1 socket. For a dual-CPU configuration, install to
the CPU1 and CPU2 sockets.
Installing Processors
1. Begin by removing the cover plate
that protects the CPU. Lift the lever on
the CPU socket until it points straight
up. With the lever raised, lift open the
silver CPU retention plate.
Triangles
2. Use your thumb and your index
finger to hold the CPU. Locate and
align pin 1 of the CPU socket with pin
1 of the CPU. Both are marked with
a triangle.
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Chapter 2: Installation
3. Align pin 1 of the CPU with pin 1
of the socket. Once aligned, carefully
place the CPU into the socket. Do not
drop the CPU on the socket, move the
CPU horizontally or vertically or rub the
CPU against the socket or against any
pins of the socket, which may damage
the CPU and/or the socket.
4. With the CPU inserted into the
socket, inspect the four corners of the
CPU to make sure that it is properly in-
stalled and flush with the socket. Then,
gently lower the silver CPU retention
plate into place.
5. Carefully press the CPU socket le-
ver down until it locks into its retention
tab. For a dual-CPU system, repeat
these steps to install another CPU into
the CPU#2 socket (and into CPU#2,
#3 and #4 sockets for a quad-CPU
configuration).
Note: in single and dual-CPU con-
figurations, memory must be installed
in the DIMM slots associated with the
installed CPU(s) and is limited to a
maximum of 64 and 32 GB, respec-
tively.
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H8QM3-2/H8QMi-2 User's Manual
2-3 Mounting the Serverboard into a Chassis
All serverboards have standard mounting holes to fit different types of chassis.
Make sure that the locations of all the mounting holes for both the serverboard
and the chassis match. Although a chassis may have both plastic and metal
mounting fasteners, metal ones are highly recommended because they ground
the serverboard to the chassis. Make sure that the metal standoffs click in or are
screwed in tightly.
1. Check the compatibility of the serverboard ports and the I/O shield
The H8QM3-2/H8QMi-2 serverboard requires a chassis that can support extended
ATX boards of 16" x 13" in size. Make sure that the I/O ports on the serverboard
align with their respective holes in the I/O shield at the rear of the chassis.
2. Mounting the serverboard onto the mainboard tray in the chassis
Carefully mount the serverboard onto the mainboard tray by aligning the serverboard
mounting holes with the raised metal standoffs in the tray. Insert screws into all
the mounting holes in the serverboard that line up with the standoffs. Then use a
screwdriver to secure the serverboard to the mainboard tray - tighten until just snug
(if too tight you might strip the threads). Metal screws provide an electrical contact
to the serverboard ground to provide a continuous ground for the system.
2-4 Installing Memory
CAUTION
Exercise extreme care when installing or removing memory modules
to prevent any possible damage.
1. Insert each memory module vertically into its slot, paying attention to the notch
along the bottom of the module to prevent inserting the module incorrectly (see
Figure 2-2). Insert first into the 1B slot(s), then the 1A slot(s), etc. See support
information below.
2. Gently press down on the memory module until it snaps into place.
Note: Each processor has its own built-in memory controller, consequently each
CPU has an eight-slot memory bank associated with it. (Memory installed into a
bank with no CPU present cannot be accessed.) 256 MB, 512 MB, 1 GB, 2 GB and
4 GB memory modules are supported. It is highly recommended that you remove
the power cord from the system before installing or changing DIMMs.
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Chapter 2: Installation
Support
The H8QM3-2/H8QMi-2 supports single or dual-channel, registered ECC DDR2-
667/533/400 SDRAM.
Both interleaved and non-interleaved memory are supported, so you may populate
any number of DIMM slots (see note on previous page). Populating two adjacent
slots at a time with memory modules of the same size and type will result in inter-
leaved (128-bit) memory, which is faster than non-interleaved (64-bit) memory.
Optimizing memory performance
It is better to spread pairs of DIMMs across all memory banks with a CPU installed
than to fill up one CPU memory bank while leaving another empty. For example,
if you were to install eight DIMMs in a quad-CPU configuration, you should install
two in the CPU1 DIMM slots (slots 1A and 1B) , two in the CPU2 DIMM slots, two
in the CPU3 DIMM slots and two in the CPU4 DIMM slots rather than four in any
two CPU DIMM slots. If you install four more, install two in the remaining CPU1
DIMM slots and two in the the remaining CPU2 DIMM slots, etc. This balances the
load over all CPUs to optimize performance. In a single or dual-CPU configuration,
memory can only be installed in the banks associated with CPU#1 or CPU#1 and
CPU#2, respectively.
Maximum memory: 128 GB of DDR2-667/533/400. (Dual-CPU configuration: 64
GB maximum, single-CPU configuration: 32 GB maximum.)
Figure 2-2. Side and Top Views of DDR Installation
Notch
Notch
To Install:
Insert module vertically
and press down until it
snaps into place. The
release tabs should
close - if they do not
you should close them
yourself.
Release
Tab
Release
Tab
Note: Notch
should align
with its
receptive point
on the slot
Note the notch in the slot and on the bottom of the DIMM.
These prevent the DIMM from being installed incorrectly.
To Remove:
Use your thumbs to
gently push each re-
lease tab outward to
release the DIMM from
the slot.
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H8QM3-2/H8QMi-2 User's Manual
2-5 I/O Port and Control Panel Connections
The I/O ports are color coded in conformance with the PC99 specification to make
setting up your system easier. See Figure 2-3 below for the colors and locations
of the various I/O ports.
Figure 2-3. I/O Port Locations and Definitions
Front Control Panel
JF1 contains header pins for various front control panel connectors. See Figure 2-4
for the pin definitions of the various connectors. Refer to Section 2-6 for details.
Figure 2-4. JF1: Front Control Panel Header (JF1)
20 19
Ground
x (key)
NMI
x (key)
Vcc
Power LED
HDD LED
NIC1
Vcc
Vcc
NIC2
Vcc
OH/Fan Fail LED
Power Fail LED
Ground
Vcc
Vcc
Reset Button
Power Button
Ground
2
1
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Chapter 2: Installation
2-6 Connector Definitions
ATX Power 24-pin Connector
Pin Definitions (J1B1)
Pin# Definition
Pin #
1
Definition
ATX Power Connector
13
14
15
16
17
18
19
20
21
22
23
24
+3.3V
-12V
+3.3V
+3.3V
COM
+5V
The primary ATX power supply con-
nector (J1B1) meets the SSI (Super-
set ATX) 24-pin specification. Refer to
the table on the right for the pin defini-
tions of the ATX 24-pin power connec-
tor. This connection supplies power to
the chipset, fans and memory.
2
COM
PS_ON
COM
COM
COM
Res (NC)
+5V
3
4
5
COM
+5V
6
7
COM
PWR_OK
5VSB
+12V
+12V
+3.3V
8
Note: You must also connect the 8-pin
JPW1 and JPW2 power connectors to
your power supply (see below).
9
+5V
10
11
12
+5V
COM
Processor Power
Connectors
Processor Power
Connector 1
Pin Definitions (JPW1, JPW2)
In addition to the primary ATX power
connector (above), the 8-pin proces-
sor power connectors at JPW1 and
JPW2 must also be connected to your
power supply. See the table on the
right for pin definitions.
Pins
Definition
Ground
+12V
1 through 4
5 through 8
Required Connections
NMI Button
NMI Button
Pin Definitions (JF1)
Pin# Definition
The non-maskable interrupt button
header is located on pins 19 and 20
of JF1. Refer to the table on the right
for pin definitions.
19
20
Control
Ground
Power LED
Power LED
Pin Definitions (JF1)
Pin# Definition
The Power LED connection is located
on pins 15 and 16 of JF1. Refer to the
table on the right for pin definitions.
15
16
Vcc
Control
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H8QM3-2/H8QMi-2 User's Manual
HDD LED
HDD LED
The HDD (IDE Hard Disk Drive) LED
connection is located on pins 13 and
14 of JF1. Attach the IDE hard drive
LED cable to display disk activity.
Refer to the table on the right for pin
definitions.
Pin Definitions (JF1)
Pin# Definition
13
14
Vcc
HD Active
NIC1 LED
NIC1 LED
The NIC1 (Network Interface Control-
ler) LED connection is located on pins
11 and 12 of JF1. Attach the NIC1
LED cable to display network activity.
Refer to the table on the right for pin
definitions.
Pin Definitions (JF1)
Pin# Definition
11
12
Vcc
NIC1 Active
NIC2 LED
NIC2 LED
The NIC2 (Network Interface Control-
ler) LED connection is located on pins
9 and 10 of JF1. Attach the NIC2
LED cable to display network activity.
Refer to the table on the right for pin
definitions.
Pin Definitions (JF1)
Pin# Definition
9
Vcc
10
NIC2 Active
Overheat/Fan Fail LED
OH/Fan Fail LED
Pin Definitions (JF1)
OH/Fan Fail
LED Status
Pin# Definition
State Indication
Connect an LED to the OH connection
on pins 7 and 8 of JF1 to provide ad-
vanced warning of chassis overheat-
ing. Refer to the table on the right for
pin definitions and status indicators.
7
8
Vcc
Solid
Overheat
Fan fail
Control
Blinking
Power Fail LED
Power Fail LED
The Power Fail LED connection is
located on pins 5 and 6 of JF1. Refer
to the table on the right for pin defini-
tions. (Feature is only available with
redundant power supply systems.)
Pin Definitions (JF1)
Pin# Definition
5
6
Vcc
Control
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Chapter 2: Installation
Reset Button
Reset Button
Pin Definitions (JF1)
The Reset Button connection is lo-
cated on pins 3 and 4 of JF1. Attach
it to the hardware reset switch on the
computer case. Refer to the table on
the right for pin definitions.
Pin# Definition
3
4
Reset
Ground
Power Button
The Power Button connection is
located on pins 1 and 2 of JF1. Mo-
mentarily contacting both pins will
power on/off the system. This button
can also be configured to function
as a suspend button (see the Power
Button Mode setting in BIOS). To turn
off the power when set to suspend
mode, depress the button for at least
4 seconds. Refer to the table on the
right for pin definitions.
Power Button
Pin Definitions (JF1)
Pin# Definition
1
2
PW_ON
Ground
Universal Serial Bus Ports
Pin Definitions (USB0/1)
Universal Serial Bus Ports
(USB0/1)
USB0
Pin # Definition
USB1
Pin # Definition
Two Universal Serial Bus ports
(USB2.0) are located beside the key-
board/mouse ports. See the table on
the right for pin definitions.
1
2
3
4
+5V
1
+5V
PO-
2
3
4
PO-
PO+
PO+
Ground
Ground
USB Headers
Universal Serial Bus Headers
Pin Definitions (USB2/3)
Two additional USB2.0 head-
ers (USB2/3) are included on the
serverboard. These may be con-
nected to provide front side access.
A USB cable (not included) is needed
for the connection. See the table on
the right for pin definitions.
USB2
USB3
Pin # Definition
Pin #
Definition
1
2
3
4
5
+5V
1
2
3
4
5
+5V
PO-
PO-
PO+
Ground
Key
PO+
Ground
No connection
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H8QM3-2/H8QMi-2 User's Manual
Serial Ports
Serial Port Pin Definitions
(COM1, COM2)
The COM1 serial port is located beside
the USB ports on the I/O backplane.
COM2 is a header located near the
SIMLC slot. Refer to the table on the
right for pin definitions.
Pin #
Definition
DCD
Pin #
Definition
DSR
1
2
3
4
5
6
7
8
9
RXD
RTS
CTS
RI
TXD
DTR
Ground
10
NC
Note: NC indicates no connection.
Fan Headers
Fan Header
Pin Definitions
(FAN1-9)
The serverboard has nine fan head-
ers, which are designated FAN1
through FAN9. Fans speed may be
set to full or variable speed with a
BIOS setting. See the table on the
right for pin definitions.
Pin# Definition
1
2
3
Ground (Black)
+12V/9V (Red)
Tachometer
Note: Fan speed may controlled by a BIOS
setting to change with system temperature. As
a result, pin 2 may be either 12V or 9V. See
Chapter 4 for BIOS settings.
Note: when using active heatsinks,
FAN4 is for CPU1, FAN3 is for CPU2,
FAN7 is for CPU3 and FAN8 is for
CPU4.
Overheat LED
Overheat LED
Pin Definitions (JOH1)
Connect an LED to the JOH1 header
to provide warning of chassis over-
heating. See the table on the right for
pin definitions.
Pin# Definition
1
2
+3.3V
OH Active
Power LED/Speaker
Speaker Connector
Pin Definitions (JD1)
Pin #
Function
Definition
On the JD1 header, pins 1-3 are for
a power LED, pins 4-7 are for the
speaker. See the table on the right
for speaker pin definitions. Note:
The speaker connector pins are for
use with an external speaker. If you
wish to use the onboard speaker, you
should close pins 6-7 with a jumper.
4
5
6
7
+
Speaker data (red wire)
No connection
Key
Key
Speaker data
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Chapter 2: Installation
JLAN1/2 (Ethernet Ports)
Two Gigabit Ethernet ports (designated
JLAN1 and JLAN2) are located beside
the COM2 port. These Ethernet ports
accept RJ45 type cables.
PS/2 Keyboard and
Mouse Port Pin
Definitions (J3)
ATX PS/2 Keyboard and
PS/2 Mouse Ports
Pin# Definition
1
2
3
4
5
6
Data
NC
The ATX PS/2 keyboard and the PS/2
mouse ports are located at J3. The
mouse is the top (green) port. See the
table on the right for pin definitions.
Ground
VCC
Clock
NC
Chassis Intrusion
Chassis Intrusion
Pin Definitions (JL1)
A Chassis Intrusion header is located
at JL1. Attach the appropriate cable
to inform you of a chassis intrusion.
Pin# Definition
1
2
Intrusion Input
Ground
Wake-On-LAN
Wake-On-LAN
Pin Definitions
(JWOL)
The Wake-On-LAN header is desig-
nated JWOL. See the table on the
right for pin definitions. You must
have a LAN card with a Wake-On-LAN
connector and cable to use the Wake-
On-LAN feature.
Pin# Definition
1
2
3
+5V Standby
Ground
Wake-up
I2C Header (JPI2C)
Pin Definitions
I2C Header
Pin# Definition
1
2
3
4
5
Clock
SMB Data
N/A
The JPI2C header is for I2C, which may
be used to monitor the status of the
power supply. See the table on the
right for pin definitions.
N/A
N/A
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Wake-On-Ring
The Wake-On-Ring header is desig-
nated JWOR. This function allows your
computer to receive and "wake-up" by
an incoming call to the modem when
in suspend state. See the table on the
right for pin definitions. You must have
a Wake-On-Ring card and cable to use
this feature.
Wake-On-Ring
Pin Definitions
(JWOR)
Pin# Definition
1
2
Ground (Black)
Wake-up
Compact Flash Power
Headers
Compact Flash
Power Header
Pin Definitions (JWF1)
Pin# Definition
A CompactFlashCardPowerConnector
is located at JWF1. For the Compact
Flash Card to work properly, you will
first need to connect the device's power
cable to JWF1 and correctly set the
Compact Flash Jumper (JP1).
1
2
3
+5V
Ground
Signal
3-SGPIO1/3-SGPIO2
SAS SGPIO Headers
The 3-SGPIO1 and 3-SGPIO2 head-
ers provide a bus between the SAS
controller and the drive backplane
to provide SAS enclosure manage-
ment functions. Connect cables from
the backplane to the these headers
to utilize SAS management on your
system.
Pin Definitions (3-SGPIO1, 3-SGPIO2)
Pin# Definition
Pin #
Definition
NC
1
3
5
7
NC
2
4
6
8
Ground
Load
NC
Data
Ground
NC
Notes: NC indicates no connection.
SGPIO = Serial General Purpose Input/Output
T-SGPIO1/T-SGPIO2
SATA SGPIO Headers
Pin Definitions (T-SGPIO1, T-SGPIO2)
Pin# Definition
Pin #
Definition
NC
The T-SGPIO1 and T-SGPIO2 head-
ers provide a bus between the SATA
controller and the drive backplane to
provide SATA enclosure management
functions. Connect cables from the
backplane to these headers to utilize
SATA management on your system.
1
3
5
7
NC
2
4
6
8
Ground
Load
NC
Data
Ground
NC
Notes: NC indicates no connection.
SGPIO = Serial General Purpose Input/Output
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Chapter 2: Installation
2-7 Jumper Settings
Explanation of
Jumpers
To modify the operation of the
serverboard,jumperscanbeusedto
choose between optional settings.
Jumperscreateshortsbetweentwo
pins to change the function of the
connector. Pin 1 is identified with
a square solder pad on the printed
circuit board. See the diagram at
rightforanexampleofjumpingpins
1 and 2. Refer to the serverboard
layout page for jumper locations.
3
2
1
Connector
Pins
Jumper
Setting
3
2
1
Note:Ontwo-pinjumpers,"Closed"
means the jumper is on and "Open"
means the jumper is off the pins.
CMOS Clear
JBT1 is used to clear CMOS and will also clear any passwords. Instead of pins,
this jumper consists of contact pads to prevent accidentally clearing the contents
of CMOS.
To clear CMOS,
1) First power down the system and unplug the power cord(s).
2) With the power disconnected, short the CMOS pads with a metal object such as
a small screwdriver for at least four seconds.
3) Remove the screwdriver (or shorting device).
4) Reconnect the power cord(s) and power on the system.
Notes:
Do not use the PW_ON connector to clear CMOS.
The onboard battery does not need to be removed when clearing CMOS, however
you must short JBT1 for at least four seconds.
JBT1 contact pads
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VGA Enable/Disable
VGA Enable/Disable
JPG1 allows you to enable or disable
the VGA port. The default position is
on pins 1 and 2 to enable VGA. See
the table on the right for jumper set-
tings.
Jumper Settings (JPG1)
Jumper Setting Definition
Pins 1-2
Pins 2-3
Enabled
Disabled
JLAN Enable/Disable
JLAN1/2 Enable/Disable
Jumper Settings (JPL1)
Change the setting of jumper JPL1
to enable or disable the JLAN1 and
JLAN2 Gb Ethernet ports. See the
table on the right for jumper settings.
The default setting is enabled.
Jumper Setting Definition
Pins 1-2
Pins 2-3
Enabled
Disabled
I2C to PCI-X Slots
Jumpers JI2C1 and JI2C2 allow you to
connect the PCI-X slots to the I2C (Sys-
tem Management) bus. The default
setting is disabled. Both jumpers must
be set to the enabled or disabled set-
ting for this feature to function. See the
table on the right for jumper settings.
I2C to PCI-X Slots
Jumper Settings (JI2C1, JI2C2)
Jumper Setting Definition
Pins 1-2
Pins 2-3
Enabled
Disabled
I2C to PCI-E Slots
Jumpers JI2C3 and JI2C4 allow you to
connect the PCI-E slots to the I2C (Sys-
tem Management) bus. The default
setting is disabled. Both jumpers must
be set to the enabled or disabled set-
ting for this feature to function. See the
table on the right for jumper settings.
I2C to PCI-E Slots
Jumper Settings (JI2C3, JI2C4)
Jumper Setting Definition
Pins 1-2
Pins 2-3
Enabled
Disabled
Compact Flash Master/Slave
Compact Flash
Master/Slave
The JCF1 jumper allows you to assign
either master or slave status to a com-
pact flash card installed in the IDE#1
slot. You will need to connect compact
flash power to JWF1 to use. See the
table on the right for jumper settings.
Jumper Settings (JCF1)
Jumper Setting Definition
Closed
Open
Master
Slave
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Chapter 2: Installation
Watch Dog Enable/Disable
JWD controls the Watch Dog function.
Watch Dog is a system monitor that
can reboot the system when a software
application hangs. Pins 1-2 will cause
WD to reset the system if an applica-
tion has frozen. Pins 2-3 will generate
a non-maskable interrupt signal for the
application that is hung up. See the
table on the right for jumper settings.
Watch Dog must also be enabled in
BIOS (setting located in the Power
Menu).
Watch Dog
Jumper Settings (JWD)
Jumper Setting Definition
Pins 1-2
Pins 2-3
Reset
NMI
Note: When enabled, the user needs
to write their own application software
in order to disable the Watch Dog tim-
er.
PCI-X Slot Speed
PCI-X Slot Speed
Jumper Settings (JPX1A/JPX2A)
Jumpers JPX1A and JPX2A can be
used to change the speed of the PCI-X
slot #1. Note that any JPX2A setting
overrides all JPX1A settings. (To use
a JPX1A setting, JPX2A should be left
"open".) See the table on the right for
jumper settings.
JPX1A
Pins 1-2
Pins 2-3
N/A
JPX2A
Open
Open
Definition
PCI-X 100 MHz
PCI-X 133 MHz
Pins 1-2 PCI-X 66 MHz
Pins 2-3 PCI 66 MHz
N/A
Note: The default setting is PCI-X 133 MHz.
SAS RAID Select
SAS RAID Select
Jumper Settings (JPS1)
JPS1 allows you to select between
SR RAID, which is the default and
enables SAS RAID, or IT RAID, which
treats SAS drives as non-RAID drives
and requires a firmware flash. See
the table on the right for jumper set-
tings and the following page for the IT
firmware flash procedure.
Jumper Setting Definition
Open
IT RAID
Closed
SR RAID
Note: SR = Software RAID IT = Integrate
Target mode
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H8QM3-2/H8QMi-2 User's Manual
Flashing IT Firmware
1. Download the appropriate IT firmware from the web site:
2. Unzip it to a bootable floppy or USB pen.
3. With JPS1 on (closed) boot to the device with the unzipped firmware and type
"clear" to erase the SR firmware.
4. Remove AC power and open JPS1.
5. Boot to the disk again and type "H8QM32".
6. When prompted for the SAS address, type in the 16-digit SAS address labeled
on the board.
7. Power off the system before restarting.
2-8 Onboard Indicators
JLAN LED
(Connection Speed Indicator)
JLAN1/JLAN2 LEDs
LED Color Definition
The Ethernet ports have two LEDs.
On each Gb LAN port, one LED indi-
cates activity when blinking while the
other may be amber or off to indicate
the speed of the connection. See the
table on the right for the speed LED
indications.
Off
10/100 MHz
1 GHz
Amber
Onboard Power LED (DP2)
DP2 is an Onboard Power LED. When
this LED is lit, it means power is pres-
ent on the serverboard. In suspend
mode this LED will blink on and off. Be
sure to turn off the system and unplug
the power cord(s) before removing or
installing components.
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Chapter 2: Installation
2-9 Floppy, IDE, SATA and SAS Drive Connections
Use the following information to connect the floppy and hard disk drive cables.
ꢀ The floppy disk drive cable has seven twisted wires.
ꢀ A red mark on a wire typically designates the location of pin 1.
ꢀ A single floppy disk drive ribbon cable has 34 wires and two connectors to provide
for two floppy disk drives. The connector with twisted wires always connects to
drive A, and the connector that does not have twisted wires always connects to
drive B.
ꢀ The 80-wire ATA133 IDE hard disk drive cable that came with your system has
two connectors to support two drives. This special cable should be used to take
advantage of the speed this new technology offers. The blue connector connects
to the onboard IDE connector interface and the other connector(s) to your hard
drive(s). Consult the documentation that came with your disk drive for details
on actual jumper locations and settings for the hard disk drive.
Floppy Connector
Floppy Drive Connector
Pin Definitions (Floppy)
The floppy connector is located
Pin# Definition
Pin #
2
Definition
beside the IDE#1 connector.
See the table on the right for
pin definitions.
1
GND
GND
Key
FDHDIN
3
4
Reserved
FDEDIN
5
6
7
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
8
Index-
9
10
12
14
16
18
20
22
24
26
28
30
32
34
Motor Enable
Drive Select B-
Drive Select A-
Motor Enable
DIR-
11
13
15
17
19
21
23
25
27
29
31
33
STEP-
Write Data-
Write Gate-
Track 00-
Write Protect-
Read Data-
Side 1 Select-
Diskette
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IDE Connector
IDE Drive Connector
Pin Definitions (IDE)
Pin# Definition
Pin #
2
Definition
There are no jumpers to con-
figure the onboard IDE connec-
tor. See the table on the right
for pin definitions.
1
Reset IDE
Host Data 7
Host Data 6
Host Data 5
Host Data 4
Host Data 3
Host Data 2
Host Data 1
Host Data 0
Ground
Ground
3
4
Host Data 8
Host Data 9
Host Data 10
Host Data 11
Host Data 12
Host Data 13
Host Data 14
Host Data 15
Key
5
6
7
8
9
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
DRQ3
Ground
I/O Write
I/O Read
IOCHRDY
DACK3
Ground
Ground
BALE
Ground
IRQ14
IOCS16
Addr1
Ground
Addr0
Addr2
Chip Select 0
Activity
Chip Select 1
Ground
SATA Ports
SATA Drive Port
Pin Definitions
(SATA0 ~ SATA5)
There are no jumpers to config-
ure the SATA ports, which are
designated SATA0 ~ SATA5.
See the table on the right for
pin definitions.
Pin #
Definition
Ground
TXP
1
2
3
4
5
6
7
TXN
Ground
RXN
RXP
Ground
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Chapter 2: Installation
SAS Ports
SAS Ports
Pin Definitions
(JSM1/JSM2)
There are two SAS ports, one
located on the backplane and
the other on the serverboard
near the floppy connector. See
the table on the right for pin
definitions.
Pin #
Definition
Ground
TXP
1
2
3
4
5
6
7
TXN
Ground
RXN
Note: refer to the FAQ section
in Chapter 3 for details on en-
abling SAS.
RXP
Ground
SIMLC (IPMI Slot)
The SIMLC slot on the H8QM3-
2 and H8QMi-2 is reserved for
an optional IPMI card.
Note: with an IPMI card in-
stalled in the SIMLC slot, the
PCI-X slot #1 cannot be popu-
lated due to mechanical con-
cerns.
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2-10 Enabling SATA RAID
Note: For SAS RAID, please refer to LSI manual on the driver CD.
Serial ATA (SATA)
Serial ATA (SATA) is a physical storage interface that employs a single cable with
a minimum of four wires to create a point-to-point connection between devices.
This connection is a serial link. The serial cables used in SATA are thinner than
the traditional cables used in Parallel ATA (PATA) and can extend up to one meter
in length, compared to only 40 cm for PATA cables. Overall, SATA provides better
functionality than PATA.
Installing the OS/SATA Driver
Before installing the OS (operating system) and SATA RAID driver, you must decide
if you wish to have the operating system installed as part of a bootable RAID array
or installed to a separate non-RAID hard drive. If on a separate drive, you may
install the driver either during or after the OS installation. If you wish to have the
OS on a SATA RAID array, you must follow the procedure below and install the
driver during the OS installation.
Note: the SATA RAID driver is supported by Windows 2000 and XP only.
Building a Driver Diskette
You must first build a driver diskette from the CD-ROM that was included with the
system. (You will have to create this disk on a computer that is already running and
with the OS installed.) Insert the CD into your CD-ROM drive and start the system.
A display as shown in Figure 2-7 will appear. Click on the icon labeled "Build Driver
Diskettes and Manuals" and follow the instructions to create a floppy disk with the
driver on it. Once it's been created, remove the floppy and insert the installation
CD for the Windows Operating System you wish to install into the CD-ROM drive
of the new system you are about to configure.
Enabling SATA RAID in the BIOS
Before installing the Windows Operating System, you must change some settings
in BIOS. Boot up the system and hit the <Del> key to enter the BIOS Setup Utlility.
After the Setup Utility loads,
1. Use the arrow keys to move to the Exit menu. Scroll down with the arrow keys
to the "Load Optimal Defaults setting and press <Enter>. Select "OK" to confirm,
then <Enter> to load the default settings.
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Chapter 2: Installation
2. Use the arrow keys to move to the "Advanced" menu, then scroll down to "nVidia
RAID Function" and press the <Enter> key. Use this setting to enable the RAID
function. After enabling RAID, use the next setting to enable all drives you wish to
include in the RAID array.
3. Hit the <F10> key to "Save Changes and Exit", then hit <Enter> to verify.
4. After exiting the BIOS Setup Utility, the system will reboot. When prompted
during the startup, press the <F10> key when prompted to run the nVidia RAID
Utility program.
Using the nVidia RAID Utility
The nVidia RAID Utility program is where you can define the drives you want to
include in the RAID array and the mode and type of RAID. Two main windows are
shown in the utility (see Figure 2-5). The "Free Disks" window on the left will list all
available drives. Use the arrow keys to select and move drives to the window on
the right, which lists all drives that are to become part of the RAID array.
Once you have finished selecting the drives and type of RAID you wish to use for
your RAID array, press the <F7> key. You will be prompted to verify your choice; if
you want to continue with your choices, select "Yes". Note that selecting "Yes" will
clear all previous data from the drives you selected to be a part of the array. You
are then given the choice of making the RAID array bootable by pressing the the
<B> key. After you have finshed, press the <Ctrl> and <X> keys simultaneously.
Figure 2-6 shows a list of arrays that have been set up with the utility.
Installing the OS and Drivers
With the Windows OS installation CD in the CD-ROM drive, restart the system.
When you see the prompt, hit the <F6> key to enter Windows setup. Eventually a
blue screen will appear with a message that begins "Windows could not determine
the type of one or more storage devices . . ." When you see the screen, hit the <S>
key to "Specify Additional Device", then insert the driver diskette you just created
into the floppy drive. Highlight "Manufuacturer Supplied Hardware Support Disk"
and hit the <Enter> key. Highlight the first "nVidia RAID" driver shown and press
the <Enter> key to install it. Soon a similar blue screen will appear again. Again hit
the <S> key, then highlight the second item, "nForce Storage Controller" and press
the <Enter> key, then <Enter> again to continue with the Windows setup.
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Figure 2-5. SATA RAID Utility: Main Screen
Figure 2-6. SATA RAID Utility: Array List
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Chapter 2: Installation
2-11 Installing Software Drivers
After all the hardware and operating system have been installed, you need to install
certain drivers. The necessary drivers are all included on the Supermicro CD that
came packaged with your serverboard. After inserting this CD into your CD-ROM
drive, the display shown in Figure 2-7 should appear. (If this display does not
appear, click on the My Computer icon and then on the icon representing your CD-
ROM drive. Finally, double click on the S "Setup" icon.)
Figure 2-7. Driver Installation Display Screen
Click the icons showing a hand writing on paper to view the readme files for each
item. Click the tabs to the right of these in order from top to bottom to install each
item one at a time. After installing each item, you must reboot the system
before moving on to the next item on the list. You should install everything here
except for the SUPER Doctor utility, which is optional. The bottom icon with a CD
on it allows you to view the entire contents of the CD.
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Notes
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Chapter 3: Troubleshooting
Chapter 3
Troubleshooting
3-1 Troubleshooting Procedures
Use the following procedures to troubleshoot your system. If you have followed all
of the procedures below and still need assistance, refer to the ‘Technical Support
Procedures’ and/or ‘Returning Merchandise for Service’ section(s) in this chapter.
Always disconnect the AC power cord before adding, changing or installing any
hardware components.
Before Power On
1. Check that the onboard power LED is lit (DP2 on the serverboard).
2. Make sure that the main ATX power connector at J1B1 and the 8-pin connectors
at JPW1 and JPW2 are all connected to your power supply.
3. Make sure that no short circuits exist between the serverboard and chassis.
4. Disconnect all ribbon/wire cables from the serverboard, including those for the
keyboard and mouse.
5. Remove all add-on cards.
6. Install CPUs and heatsinks (making sure they are fully seated) and connect
the internal (chassis) speaker and the power LED to the serverboard. Check all
jumper settings as well.
7. Use the correct type of onboard CMOS battery as recommended by the manufac-
turer. To avoid possible explosion, do not install the CMOS battery upside down.
No Power
1. Make sure that no short circuits exist between the serverboard and the chas-
sis.
2. Verify that all jumpers are set to their default positions.
3. Check that the 115V/230V switch on the power supply is properly set.
4. Turn the power switch on and off to test the system.
5. The battery on your serverboard may be old. Check to verify that it still supplies
~3VDC. If it does not, replace it with a new one.
No Video
1. If the power is on but you have no video, remove all the add-on cards and
cables.
2. Use the speaker to determine if any beep codes exist. Refer to Appendix A for
details on beep codes.
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NOTE
If you are a system integrator, VAR or OEM, a POST diagnostics
card is recommended. For I/O port 80h codes, refer to App. B.
Memory Errors
1. Make sure that the DIMM modules are properly and fully installed.
2. You should be using registered ECC DDR-2 memory (see next page). Also, it
is recommended that you use the same memory type and speed for all DIMMs in
the system. See Section 2-4 for memory details and limitations.
3. Check for bad DIMM modules or slots by swapping modules between slots and
noting the results.
4. Check the power supply voltage 115V/230V switch.
Losing the System’s Setup Configuration
1. Make sure that you are using a high quality power supply. A poor quality power
supply may cause the system to lose the CMOS setup information. Refer to Sec-
tion 1-6 for details on recommended power supplies.
2. The battery on your serverboard may be old. Check to verify that it still supplies
~3VDC. If it does not, replace it with a new one.
3. If the above steps do not fix the setup configuration problem, contact your vendor
for repairs.
3-2 Technical Support Procedures
Before contacting Technical Support, please take the following steps. Also, note
that as a serverboard manufacturer, we do not sell directly to end-users, so it is
best to first check with your distributor or reseller for troubleshooting services. They
should know of any possible problem(s) with the specific system configuration that
was sold to you.
1. Please review the ‘Troubleshooting Procedures’ and 'Frequently Asked Questions'
(FAQs) sections in this chapter or see the FAQs on our web site before contacting
Technical Support.
2. BIOS upgrades can be downloaded from our web site.
Note: Not all BIOS can be flashed depending on the modifications to the boot block
code.
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Chapter 3: Troubleshooting
3. If you still cannot resolve the problem, include the following information when
contacting us for technical support:
ꢀ
Serverboard model and PCB revision number
BIOS release date/version (this can be seen on the initial display when your
system first boots up)
ꢀ
ꢀ
System configuration
An example of a Technical Support form is posted on our web site.
4. Distributors: For immediate assistance, please have your account number ready
when contacting our technical support department by e-mail.
3-3 Frequently Asked Questions
Question: What type of memory does my serverboard support?
Answer: The H8QM3-2/H8QMi-2 supports up to 128 GB of registered ECC DDR2-
667/533/400 SDRAM with four CPUs installed. In a dual-CPU configuration the
maximum memory support is 64 GB and in a single-CPU configuration the maximum
memory support is 32 GB. See Section 2-4 for details on installing memory.
Question: How do I update my BIOS?
Answer: It is recommended that you not upgrade your BIOS if you are not experi-
encing problems with your system. Updated BIOS files are located on our web site.
Please check our BIOS warning message and the information on how to update
your BIOS on our web site. Also, check the current BIOS revision and make sure
it is newer than your current BIOS before downloading.
Select your serverboard model on the web page and download the corresponding
BIOS file to your computer. Unzip the BIOS update file, in which you will find the
readme.txt (flash instructions), the afudos.exe (BIOS flash utility) and the BIOS
image (xxx.rom) files. Copy these files to a bootable floppy disk, insert the disk
into drive A and reboot the system. At the DOS prompt after rebooting, enter the
command "flash" (without quotation marks) then type in the BIOS file that you want
to update with (xxxx.rom).
Question: What's on the CD that came with my serverboard?
Answer: The supplied compact disc has quite a few drivers and programs that will
greatly enhance your system. We recommend that you review the CD and install the
applications you need. Applications on the CD include chipset drivers for Windows
and security and audio drivers.
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Question: Why can't I turn off the power using the momentary power on/off
switch?
Answer: The instant power off function is controlled in BIOS by the Power But-
ton Mode setting. When the On/Off feature is enabled, the serverboard will have
instant off capabilities as long as the BIOS has control of the system. When the
Standby or Suspend feature is enabled or when the BIOS is not in control such
as during memory count (the first screen that appears when the system is turned
on), the momentary on/off switch must be held for more than four seconds to shut
down the system. This feature is required to implement the ACPI features on the
serverboard.
Question: How do I connect the ATA133 cable to my IDE device(s)?
Answer: The 80-wire/40-pin high-density ATA133 IDE cable that came with your
system has two connectors to support two drives. This special cable must be used
to take advantage of the speed the ATA133 technology offers. Connect the blue
connector to the onboard IDE header and the other connector(s) to your hard
drive(s). Consult the documentation that came with your disk drive for details on
actual jumper locations and settings.
3-4 Returning Merchandise for Service
A receipt or copy of your invoice marked with the date of purchase is required be-
fore any warranty service will be rendered. You can obtain service by calling your
vendor for a Returned Merchandise Authorization (RMA) number. When returning
to the manufacturer, the RMA number should be prominently displayed on the
outside of the shipping carton, and mailed prepaid or hand-carried. Shipping and
handling charges will be applied for all orders that must be mailed when service
is complete.
supermicro.com/support/rma/).
This warranty only covers normal consumer use and does not cover damages in-
curred in shipping or from failure due to the alteration, misuse, abuse or improper
maintenance of products.
During the warranty period, contact your distributor first for any product problems.
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Chapter 4: BIOS
Chapter 4
BIOS
4-1 Introduction
This chapter describes the AMIBIOS™ Setup utility for the H8QM3-2/H8QMi-2.
The AMI ROM BIOS is stored in a flash chip and can be easily upgraded using a
floppy disk-based program.
Note: Due to periodic changes to the BIOS, some settings may have been added or
deleted and might not yet be recorded in this manual. Please refer to the Manual
Download area of our web site for any changes to BIOS that may not be reflected
in this manual.
Starting the Setup Utility
To enter the BIOS Setup Utility, hit the <Delete> key while the system is booting-up.
(In most cases, the <Delete> key is used to invoke the BIOS setup screen. There are
a few cases when other keys are used, such as <F1>, <F2>, etc.) Each main BIOS
menu option is described in this manual.
The Main BIOS screen has two main frames. The left frame displays all the options
that can be configured. “Grayed-out” options cannot be configured. The right frame
displays the key legend. Above the key legend is an area reserved for a text mes-
sage. When an option is selected in the left frame, it is highlighted in white. Often a
text message will accompany it. (Note that BIOS has default text messages built in.
We retain the option to include, omit, or change any of these text messages.) Set-
tings printed in Bold are the default values.
A " ꢀ" indicates a submenu. Highlighting such an item and pressing the <Enter>
key will open the list of settings within that submenu.
The BIOS setup utility uses a key-based navigation system called hot keys. Most of
these hot keys (<F1>, <F10>, <Enter>, <ESC>, <Arrow> keys, etc.) can be used at
any time during the setup navigation process.
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4-2 Main Menu
When you first enter AMI BIOS Setup Utility, you will see the Main Menu screen.
You can always return to the Main Menu by selecting the Main tab on the top of
the screen with the arrow keys.
The Main Menu screen provides you with a system overview, which includes the
version, built date and ID of the AMIBIOS, the type, speed and number of the
processors in the system and the amount of memory installed in the system.
System Time/System Date
You can edit this field to change the system time and date. Highlight System Time
or System Date using the <Arrow> keys. Enter new values through the keyboard.
Press the <Tab> key or the <Arrow> keys to move between fields. The date must
be entered in DAY/MM/DD/YYYY format. The time is entered in HH:MM:SS format.
Please note that time is in a 24-hour format. For example, 5:30 A.M. appears as
05:30:00 and 5:30 P.M. as 17:30:00.
4-3 Advanced Settings Menu
ꢀ BOOT Settings Configuration
Quick Boot
If Enabled, this option will skip certain tests during POST to reduce the time
needed for the system to boot up. The options are Enabled and Disabled.
Quiet Boot
If Disabled, normal POST messages will be displayed on boot-up. If Enabled,
this display the OEM logo instead of POST messages.
Add-On ROM Display Mode
Set this option to display add-on ROM (read-only memory) messages. The de-
fault setting is Force BIOS. Select Force BIOS to allow the computer system
to force a third party BIOS to display during system boot. Select Keep Current
to allow the computer system to display the BIOS information during system
boot. The options are Force BIOS and Keep Current.
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Chapter 4: BIOS
Boot up Num-Lock
Set this value to allow the Number Lock setting to be modified during boot up.
The options are On and Off.
PS/2 Mouse Support
Set this value to modify support for a PS/2 mouse. The options are Auto, En-
abled and Disabled.
Wait for ‘F1’ If Error
Select Enable to activate the Wait for F1 if Error function. The options are
Enabled and Disabled.
Hit ‘DEL’ Message Display
Select Enabled to display message to hit the DEL key to enter Setup. The op-
tions are Enabled and Disabled.
Interrupt 19 Capture
Select Enabled to allow ROMs to trap Interrupt 19. The options are Enabled
and Disabled.
OS Installation
Change this setting if using a 64-bit Linux operating system. The available op-
tions are Other and Linux.
ACPI Configuration:
ACPI Version Features
Use this setting the determine which ACPI version to use. Options are ACPI
v1.0, ACPI v2.0 and ACPI v3.0.
ACPI APIC Support
Determines whether to include the ACPI APIC table pointer in the RSDT pointer
list. The available options are Enabled and Disabled.
ACPI OEMB Table
Determines whether to include the ACPI APIC table pointer in the RSDT pointer
list. The available options are Enabled and Disabled.
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Headless Mode
Use this setting to Enable or Disable headless operation mode through ACPI.
MCP55 ACPI HPET Table
Use this setting to either Enable or Disable the MCP55 ACPI HPET table.
Power Configuration:
Power Button Mode
Allows the user to change the function of the power button. Options are On/Off
and Suspend.
Restore on AC Power Loss
This setting allows you to choose how the system will react when power returns
after an unexpected loss of power. The options are Power Off, Power On and
Last State.
Watch Dog Timer
This setting is used to Enable or Disable the Watch Dog Timer function. It must
be used in conjunction with the Watch Dog jumper (see Chapter 2 for details).
MPS Configuration
MPS Revision
This setting allows the user to select the MPS revision level. The options are
1.1 and 1.4.
Smbios Configuration
Smbios Smi Support
This setting allows SMI wrapper support for PnP function 50h-54h. The options
are Enabled and Disabled.
ꢀ CPU Configuration
This submenu lists CPU information and contains the following settings:
GART Error Reporting
This setting is used for testing only.
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Chapter 4: BIOS
Power Now
This setting is used to Enable or Disable the AMD Power Now feature.
Thermal Throttling
This setting is used to Enable or Disable Thermal Throttling.
Microcode Update
This setting is used to Enable or Disable microcode updates for Virtual Machine.
SVM uCode Option
This setting is used to Enable or Disable processor-assisted virtualization.
Power Now
This setting is used to Enable or Disable the AMD Power Now feature.
Thermal Throttling
This setting is used to Enable or Disable Thermal Throttling.
ꢀ Floppy/IDE/SATA Configuration
Floppy A
Move the cursor to these fields via up and down <arrow> keys to select the floppy
type. The options are Disabled, 360 KB 5 1/4", 1.2 MB 5 1/4", 720 KB 3½", 1.44
MB 3½”, and 2.88 MB 3½".
Floppy B
Move the cursor to these fields via up and down <arrow> keys to select the floppy
type. The options are Disabled, 360 KB 5 1/4", 1.2 MB 5 1/4", 720 KB 3½", 1.44
MB 3½”, and 2.88 MB 3½".
Onboard Floppy Controller
Use this setting to Enable or Disable the onboard floppy controller.
Onboard IDE Controller
There is a single floppy controller on the motherboard, which may be Enabled or
Disabled with this setting.
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Serial ATA Devices
This setting is used to determine if SATA drives will be used and how many. Op-
tions are Disabled, Device 0, Device 0/1 and Device 0/1/2.
nVidia RAID Function
This setting is used to Enable or Disable the nVidia ROM. If Enabled, the setting
below will appear.
Primary IDE Master/Slave
Highlight one of the items above and press <Enter> to access the submenu for
that item.
Type
Select the type of device connected to the system. The options are Not Installed,
Auto, CDROM and ARMD.
LBA/Large Mode
LBA (Logical Block Addressing) is a method of addressing data on a disk drive.
The options are Disabled and Auto.
Block (Multi-Sector Transfer)
Block mode boosts IDE drive performance by increasing the amount of data
transferred. Only 512 bytes of data can be transferred per interrupt if block mode
is not used. Block mode allows transfers of up to 64 KB per interrupt. Select
Disabled to allow the data to be transferred from and to the device one sector
at a time. Select Auto to allows the data transfer from and to the device occur
multiple sectors at a time if the device supports it.
PIO Mode
PIO (Programmable I/O) mode programs timing cycles between the IDE drive
and the programmable IDE controller. As the PIO mode increases, the cycle time
decreases. The options are Auto, 0, 1, 2, 3, and 4. Select Auto to allow AMI
BIOS to auto detect the PIO mode. Use this value if the IDE disk drive support
cannot be determined. Select 0 to allow AMI BIOS to use PIO mode 0. It has a
data transfer rate of 3.3 MBs. Select 1 to allow AMI BIOS to use PIO mode 1.
It has a data transfer rate of 5.2 MBs. Select 2 to allow AMI BIOS to use PIO
mode 2. It has a data transfer rate of 8.3 MBs. Select 3 to allow AMI BIOS to
use PIO mode 3. It has a data transfer rate of 11.1 MBs. Select 4 to allow AMI
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Chapter 4: BIOS
BIOS to use PIO mode 4. It has a data transfer rate of 16.6 MBs. This setting
generally works with all hard disk drives manufactured after 1999. For other disk
drives, such as IDE CD-ROM drives, check the specifications of the drive.
DMA Mode
Selects the DMA Mode. Options are SWDMA0, SWDMA1, SWDMA2,
MWDMA0. MDWDMA1, MWDMA2, UDMA0. UDMA1, UDMA2, UDMA3,
UDMA4 and UDMA5. (SWDMA=Single Word DMA, MWDMA=Multi Word DMA,
UDMA=UltraDMA.)
S.M.A.R.T.
Self-Monitoring Analysis and Reporting Technology (SMART) can help predict
impending drive failures. Select "Auto" to allow BIOS to auto detect hard disk
drive support. Select "Disabled" to prevent AMI BIOS from using the S.M.A.R.T.
Select "Enabled" to allow AMI BIOS to use the S.M.A.R.T. to support hard drive
disk. The options are Disabled, Enabled, and Auto.
32-Bit Data Transfer
Select "Enabled" to activate the function of 32-Bit data transfer. Select "Disabled"
to deactivate the function. The options are Enabled and Disabled.
Serial ATA0/1/2 Primary/Secondary Channel
Highlight one of the items above and press <Enter> to access the submenu for that
item. If a drive is present, information on that drive will be displayed here.
Type
Select the type of device connected to the system. The options are Not Installed,
Auto, CDROM and ARMD.
LBA/Large Mode
LBA (Logical Block Addressing) is a method of addressing data on a disk drive.
The options are Disabled and Auto.
Block (Multi-Sector Transfer)
Block mode boosts IDE drive performance by increasing the amount of data
transferred. Only 512 bytes of data can be transferred per interrupt if block mode
is not used. Block mode allows transfers of up to 64 KB per interrupt. Select
Disabled to allow the data to be transferred from and to the device one sector
at a time. Select Auto to allows the data transfer from and to the device occur
multiple sectors at a time if the device supports it.
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PIO Mode
PIO (Programmable I/O) mode programs timing cycles between the IDE drive
and the programmable IDE controller. As the PIO mode increases, the cycle time
decreases. The options are Auto, 0, 1, 2, 3, and 4. Select Auto to allow AMI
BIOS to auto detect the PIO mode. Use this value if the IDE disk drive support
cannot be determined. Select 0 to allow AMI BIOS to use PIO mode 0. It has a
data transfer rate of 3.3 MBs. Select 1 to allow AMI BIOS to use PIO mode 1. It
has a data transfer rate of 5.2 MBs. Select 2 to allow AMI BIOS to use PIO mode
2. It has a data transfer rate of 8.3 MBs. Select 3 to allow AMI BIOS to use PIO
mode 3. It has a data transfer rate of 11.1 MBs. Select 4 to allow AMI BIOS to
use PIO mode 4. It has a data transfer rate of 16.6 MBs. This setting generally
works with all hard disk drives manufactured after 1999. For other disk drives,
such as IDE CD-ROM drives, check the specifications of the drive.
DMA Mode
Selects the DMA Mode. Options are SWDMA0, SWDMA1, SWDMA2,
MWDMA0. MDWDMA1, MWDMA2, UDMA0. UDMA1, UDMA2, UDMA3,
UDMA4 and UDMA5. (SWDMA=Single Word DMA, MWDMA=Multi Word DMA,
UDMA=UltraDMA.)
S.M.A.R.T.
Self-Monitoring Analysis and Reporting Technology (SMART) can help predict
impending drive failures. Select "Auto" to allow BIOS to auto detect hard disk
drive support. Select "Disabled" to prevent AMI BIOS from using the S.M.A.R.T.
Select "Enabled" to allow AMI BIOS to use the S.M.A.R.T. to support hard drive
disk. The options are Disabled, Enabled, and Auto.
32-Bit Data Transfer
Select "Enabled" to activate the function of 32-Bit data transfer. Select "Disabled"
to deactivate the function. The options are Enabled and Disabled.
Hard Disk Write Protect
Select Enabled to enable the function of Hard Disk Write Protect to prevent data
from being written to HDD. The options are Enabled or Disabled.
IDE Detect Time Out (Sec)
This feature allows the user to set the time-out value for detecting ATA, ATAPI de-
vices installed in the system. Options are 0 (sec), 5, 10, 15, 20, 25, 30 and 35.
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Chapter 4: BIOS
ATA(PI) 80Pin Cable Detection
This setting allows AMI BIOS to auto-detect the 80-Pin ATA(PI) cable. The options
are Host, Device and Host & Device.
ꢀ PCI/PnP Configuration
Clear NVRAM
Select Yes to clear NVRAM during boot-up. The options are Yes and No.
Plug & Play OS
Select Yes to allow the OS to configure Plug & Play devices. (This is not required
for system boot if your system has an OS that supports Plug & Play.) Select No
to allow AMIBIOS to configure all devices in the system.
PCI Latency Timer
This option sets the latency of all PCI devices on the PCI bus. Select a value to
set the PCI latency in PCI clock cycles. Options are 32, 64, 96, 128, 160, 192,
224 and 248.
Allocate IRQ to PCI VGA
Set this value to allow or restrict the system from giving the VGA adapter card an
interrupt address. The options are Yes and No.
Palette Snooping
Select "Enabled" to inform the PCI devices that an ISA graphics device is installed
in the system in order for the graphics card to function properly. The options are
Enabled and Disabled.
PCI IDE BusMaster
Set this value to allow or prevent the use of PCI IDE busmastering. Select "Enabled"
to allow AMI BIOS to use PCI busmaster for reading and writing to IDE drives. The
options are Disabled and Enabled.
Offboard PCI/ISA IDE Card
This option allows the user to assign a PCI slot number to an Off-board PCI/ISA
IDE card in order for it to function properly. The options are Auto, PCI Slot1, PCI
Slot2, PCI Slot3, PCI Slot4, PCI Slot5, and PCI Slot6.
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IRQ3/IRQ4/IRQ5/IRQ7/IRQ9/IRQ10/IRQ11/IRQ14/IRQ15
This feature specifies the availability of an IRQ to be used by a PCI/PnP device.
Select Reserved for the IRQ to be used by a Legacy ISA device. The options are
Available and Reserved.
DMA Channel 0/Channel 1/Channel 3/Channel 5/Channel 6/Channel
7
Select Available to indicate that a specific DMA channel is available to be used by
a PCI/PnP device. Select Reserved if the DMA channel specified is reserved for
a Legacy ISA device. The options are Available and Reserved.
Reserved Memory Size
You may set reserved memory with this setting. The options are Disabled, 16k,
32k and 64k.
Onboard SATA Controller
Use this setting to Enable or Disable the onboard SATA controller.
ꢀ Super IO Configuration
Serial Port1 Address
This option specifies the base I/O port address and Interrupt Request address of
serial port 1. Select "Disabled" to prevent the serial port from accessing any system
resources. When this option is set to Disabled, the serial port physically becomes
unavailable. Select "3F8/IRQ4" to allow the serial port to use 3F8 as its I/O port
address and IRQ 4 for the interrupt address. The options are Disabled, 3F8/IRQ4,
3E8/IRQ4 and 2E8/IRQ3.
Serial Port2 Address
This option specifies the base I/O port address and Interrupt Request address of
serial port 2. Select "Disabled" to prevent the serial port from accessing any system
resources. When this option is set to "Disabled", the serial port physically becomes
unavailable. Select "2F8/IRQ3" to allow the serial port to use 2F8 as its I/O port
address and IRQ 3 for the interrupt address. The options are Disabled, 2F8/IRQ3,
3E8/IRQ4 and 2E8/IRQ3.
Serial Port 2 Mode
Tells BIOS which mode to select for serial port 2. The options are Normal,
IrDA and ASKIR.
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Chapter 4: BIOS
ꢀ Chipset Configuration
ꢀ NorthBridge Configuration
ꢀ
Memory Configuration
Memclock Mode
This setting determines how the memory clock is set. Auto has the memory
clock by code and Limit allows the user to set a standard value.
MCT Timing Mode
Sets the timing mode for memory. Options are Auto and Manual.
Bank Interleaving
Select Auto to automatically enable interleaving-memory scheme when this
function is supported by the processor. The options are Auto and Disabled.
Enable Clock to All DIMMs
Use this setting to enable unused clocks to all DIMMs, even if some DIMM
slots are unpopulated. Options are Enabled and Disabled.
Mem Clk Tristate C3/ALTVID
Use this setting to Enable or Disable memory clock tristate during C3 and
ALT VID.
CS Sparing Enable
Use this setting to Enable or Disable the CS Sparing function.
DQS Signal Training Control
Disabling this setting will require custom memory timing programming. This
setting is automatically disabled if CS Sparing is enabled. Options are En-
abled and Disabled.
Memory Hole Remapping
When "Enabled", this feature enables hardware memory remapping around
the memory hole. Options are Enabled and Disabled.
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ꢀ
ECC Configuration
DRAM ECC Enable
DRAM ECC allows hardware to report and correct memory errors automati-
cally. Options are Enabled and Disabled.
4-Bit ECC Mode
Allows the user to enabled 4-bit ECC mode (also known as ECC
Chipkill). Options are Enabled and Disabled.
DRAM Scrub Redirect
Allows system to correct DRAM ECC errors immediately, even with
background scrubbing on. Options are Enabled and Disabled.
DRAM BG Scrub
Corrects memory errors so later reads are correct. Options are Dis-
abled and various times in nanoseconds and microseconds.
L2 Cache BG Scrub
Allows L2 cache RAM to be corrected when idle. Options are Disabled and
various times in nanoseconds and microseconds.
Data Cache BG Scrub
Allows L1 cache RAM to be corrected when idle. Options are Disabled and
various times in nanoseconds and microseconds.
Power Down Control
Allows DIMMs to enter power down mode by deasserting the clock enable signal
when DIMMs are not in use. Options are Auto and Disabled.
Alternate VID
Specifies and alternate VID while in low power states. Options are Auto and
various voltages between .8V and 1.115V.
Memory Timing Parameters
Allows the user to select which CPU Node's timing parameters (memory clock,
etc.) to display. Options are CPU Node 0, CPU Node 1, CPU Node 2 and CPU
Node 3.
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Chapter 4: BIOS
ꢀ SouthBridge/MCP55 Configuration
CPU/LDT Spread Spectrum
Enables spread spectrum for the CPU/LDT. Options are Center Spread, Down
Spread or Disabled.
PCIE Spread Spectrum
Allows you to Enable or Disable spread spectrum for PCI-Express.
SATA Spread Spectrum
Enables spread spectrum for the SATA. Options are Enabled and Disabled.
Primary Graphics Adapter
Options are PCI Express ꢁPCI and PCI ꢁPCI Express.
USB 1.1 Controller
Enable or disable the USB 1.1 controller.
USB 2.0 Controller
Enable or disable the USB 2.0 controller.
USB Devices Enabled
This field dsiplays the USB devices currently enabled.
Legacy USB Support
Select "Enabled" to enable the support for USB Legacy. Disable Legacy support
if there are no USB devices installed in the system. "Auto" disabled Legacy
support if no USB devices are connected. The options are Disabled, Enabled
and Auto.
USB 2.0 Controller Mode
Select the controller mode for your USB ports. Options are HiSpeed and
FullSpeed. (HiSpeed=480 Mbps, FullSpeed=12 Mbps).
BIOS EHCI Hand-Off
Enable or Disable a workaround for OS's without EHCI hand-off support.
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ꢀ Event Log Configuration
View Event Log
Highlight this item and press <Enter> to view the contents of the event log.
Mark All Events as Read
Highlight this item and press <Enter> to mark all events as read.
Clear Event Log
Select Yes and press <Enter> to clear all event logs. The options are Yes and
No to verify.
ꢀ PCI Express Configuration
Active State Power Management
Used to Enable or Disable the PCI L0 and L1 link power states.
ꢀ Remote Access Configuration
Remote Access
Allows you to Enable or Disable remote access. If enabled, the settings below
will appear.
Serial Port Number
Selects the serial port to use for console redirection. Options are COM1 and
COM2.
Serial Port Mode
Selects the serial port settings to use. Options are (115200 8, n, 1), (57600 8,
n, 1), (38400 8, n, 1), (19200 8, n, 1) and (09600 8, n, 1).
Flow Control
Selects the flow control to be used for console redirection. Options are None,
Hardware and Software.
Redirection After BIOS POST
Options are Disable (no redirection after BIOS POST), Boot Loader (redirection
during POST and during boot loader) and Always (redirection always active).
Note that some OS's may not work with this set to Always.
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Chapter 4: BIOS
Terminal Type
Selects the type of the target terminal: ANSI, VT100 and VT-UTF8.
VT-UTF8 Combo Key Support
Allows you to Enable or Disable VT-UTF8 combination key support for ANSI/
VT100 terminals.
Sredir Memory Display Delay
Use this setting to set the delay in seconds to display memory information. Op-
tions are No Delay, 1 sec, 2 secs and 4 secs.
ꢀ System Health Monitor
CPU Overheat Temperature
Use the "+" and "-" keys to set the CPU temperature threshold to between 65o
and 90o C. When this threshold is exceeded, the overheat LED on the chas-
sis will light up and an alarm will sound. The LED and alarm will turn off once
the CPU temperature has dropped to 5 degrees below the threshold set. The
default setting is 72o C.
Other items in the submenu are systems monitor displays for the following in-
formation: CPU1 Temperature, CPU2 Temperature, CPU3 Temperature, CPU4
Temperature, (for 4U systems), System Temperature, CPU1 Vcore, CPU2 Vcore,
CPU3 Vcore, CPU4 Vcore (for 4U systems), 3.3V Vcc, +5Vin, +12Vin, 5V standby
and battery voltage.
ꢀ System Fan Monitor
Fan Speed Control
This feature allows the user to determine how the system will control the speed of
the onboard fans. Select "Workstation" if your system is used as a Workstation.
Select "Server" if your system is used as a Server. Select "Disable" to disable
the fan speed control function to allow the onboard fans to continuously run at
full speed (12V). The options are 1) Disabled (Full Speed) 2) Optimized for
Server and 3) Optimized for Workstation.
FAN1 Speed through FAN9 Speed
The speeds of the onboard fans (in rpm) are displayed here.
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4-4 Boot Menu
This feature allows the user to configure the following items:
ꢀ Boot Device Priority
This feature allows the user to prioritize the boot sequence from the available de-
vices. The devices to set are:
· 1st Boot Device
· 2nd Boot Device
· 3rd Boot Device
· 4th Boot Device
ꢀ Hard Disk Drives
This feature allows the user to specify the boot sequence from available hard disk
drives.
1st Drive
Specifies the boot sequence for the 1st Hard Drive.
ꢀ Hard Disk Drives
This feature allows the user to specify the Boot sequence from available hard disk
drives.
ꢀ Removable Drives
This feature allows the user to specify the Boot sequence from available remov-
able drives.
1st Drive
Specifies the boot sequence for the 1st Removable Drive. The options are 1st
Floppy Drive and Disabled.
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Chapter 4: BIOS
4-5 Security Menu
AMI BIOS provides a Supervisor and a User password. If you use both passwords,
the Supervisor password must be set first.
Change Supervisor Password
Select this option and press <Enter> to access the sub menu, and then type in
the password.
Change User Password
Select this option and press <Enter> to access the sub menu, and then type in
the password.
Boot Sector Virus Protection
This option is near the bottom of the Security Setup screen. Select "Disabled" to
deactivate the Boot Sector Virus Protection. Select "Enabled" to enable boot sector
protection. When "Enabled", AMI BIOS displays a warning when any program (or
virus) issues a Disk Format command or attempts to write to the boot sector of the
hard disk drive. The options are Enabled and Disabled.
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4-6 Exit Menu
Select the Exit tab from AMI BIOS Setup Utility screen to enter the Exit BIOS Setup
screen.
Save Changes and Exit
When you have completed the system configuration changes, select this option
to leave BIOS Setup and reboot the computer, so the new system configuration
parameters can take effect. Select Save Changes and Exit from the Exit menu
and press <Enter>.
Discard Changes and Exit
Select this option to quit BIOS Setup without making any permanent changes to
the system configuration and reboot the computer. Select Discard Changes and
Exit from the Exit menu and press <Enter>.
Discard Changes
Select this option and press <Enter> to discard all the changes and return to AMI
BIOS Utility Program.
Load Optimal Defaults
To set this feature, select Load Optimal Defaults from the Exit menu and press
<Enter>. Then Select "OK" to allow BIOS to automatically load the Optimal Defaults
as the BIOS Settings. The Optimal settings are designed for maximum system
performance, but may not work best for all computer applications.
Load Fail-Safe Defaults
To set this feature, select Load Fail-Safe Defaults from the Exit menu and press
<Enter>. The Fail-Safe settings are designed for maximum system stability, but
not maximum performance.
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Appendix A: BIOS Error Beep Codes
Appendix A
BIOS Error Beep Codes
During the POST (Power-On Self-Test) routines, which are performed each time
the system is powered on, errors may occur.
Non-fatal errors are those which, in most cases, allow the system to continue the
boot-up process. The error messages normally appear on the screen.
Fatal errors are those which will not allow the system to continue the boot-up pro-
cedure. If a fatal error occurs, you should consult with your system manufacturer
for possible repairs.
These fatal errors are usually communicated through a series of audible beeps.
The numbers on the fatal error list, on the following page, correspond to the number
of beeps for the corresponding error. All errors listed, with the exception of Beep
Code 8, are fatal errors.
POST codes may be read on the debug LEDs located beside the LAN port on the
serverboard backplane. See the description of the Debug LEDs (LED1 and LED2)
in Chapter 5.
A-1
AMIBIOS Error Beep Codes
Beep Code
1 beep
Error Message
Refresh
Description
Circuits have been reset.
(Ready to power up.)
5 short, 1 long
8 beeps
Memory error
No memory detected in
system
Display memory read/write error
Video adapter missing or
with faulty memory
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Notes
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Appendix B: BIOS POST Checkpoint Codes
Appendix B
BIOS POST Checkpoint Codes
When AMIBIOS performs the Power On Self Test, it writes checkpoint codes to I/O
port 0080h. If the computer cannot complete the boot process, diagnostic equipment
can be attached to the computer to read I/O port 0080h.
B-1
Uncompressed Initialization Codes
The uncompressed initialization checkpoint codes are listed in order of execution:
Checkpoint Code Description
D0h
The NMI is disabled. Power on delay is starting. Next, the initialization code check-
sum will be verified.
D1h
Initializing the DMA controller, performing the keyboard controller BAT test, starting
memory refresh and entering 4 GB flat mode next.
D3h
D4h
D5h
Starting memory sizing next.
Returning to real mode. Executing any OEM patches and setting the Stack next.
Passing control to the uncompressed code in shadow RAM at E000:0000h. The
initialization code is copied to segment 0 and control will be transferred to segment
0.
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B-2
Bootblock Recovery Codes
The bootblock recovery checkpoint codes are listed in order of execution:
Checkpoint Code Description
E0h
The onboard floppy controller if available is initialized. Next, beginning the base
512 KB memory test.
E1h
E2h
E6h
Initializing the interrupt vector table next.
Initializing the DMA and Interrupt controllers next.
Enabling the floppy drive controller and Timer IRQs. Enabling internal cache mem-
ory.
Edh
Eeh
Efh
Initializing the floppy drive.
Looking for a floppy diskette in drive A:. Reading the first sector of the diskette.
A read error occurred while reading the floppy drive in drive A:.
Next, searching for the AMIBOOT.ROM file in the root directory.
The AMIBOOT.ROM file is not in the root directory.
F0h
F1h
F2h
Next, reading and analyzing the floppy diskette FAT to find the clusters occupied
by the AMIBOOT.ROM file.
F3h
F4h
F5h
FBh
FCh
FDh
FFh
Next, reading the AMIBOOT.ROM file, cluster by cluster.
The AMIBOOT.ROM file is not the correct size.
Next, disabling internal cache memory.
Next, detecting the type of flash ROM.
Next, erasing the flash ROM.
Next, programming the flash ROM.
Flash ROM programming was successful. Next, restarting the system BIOS.
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Appendix B: BIOS POST Checkpoint Codes
B-3
Uncompressed Initialization Codes
The following runtime checkpoint codes are listed in order of execution.
These codes are uncompressed in F0000h shadow RAM.
Checkpoint Code Description
03h
05h
06h
07h
08h
0Ah
The NMI is disabled. Next, checking for a soft reset or a power on condition.
The BIOS stack has been built. Next, disabling cache memory.
Uncompressing the POST code next.
Next, initializing the CPU and the CPU data area.
The CMOS checksum calculation is done next.
The CMOS checksum calculation is done. Initializing the CMOS status register for
date and time next.
0Bh
0Ch
0Eh
0Fh
10h
11h
The CMOS status register is initialized. Next, performing any required initialization
before the keyboard BAT command is issued.
The keyboard controller input buffer is free. Next, issuing the BAT command to the
keyboard controller.
The keyboard controller BAT command result has been verified. Next, performing
any necessary initialization after the keyboard controller BAT command test.
The initialization after the keyboard controller BAT command test is done. The key-
board command byte is written next.
The keyboard controller command byte is written. Next, issuing the Pin 23 and 24
blocking and unblocking command.
Next, checking if <End or <Ins> keys were pressed during power on. Initializing
CMOS RAM if the Initialize CMOS RAM in every boot AMIBIOS POST option was
set in AMIBCP or the <End> key was pressed.
12h
13h
Next, disabling DMA controllers 1 and 2 and interrupt controllers 1 and 2.
The video display has been disabled. Port B has been initialized. Next, initializing
the chipset.
14h
19h
1Ah
2Bh
The 8254 timer test will begin next.
Next, programming the flash ROM.
The memory refresh line is toggling. Checking the 15 second on/off time next.
Passing control to the video ROM to perform any required configuration before the
video ROM test.
2Ch
2Dh
23h
All necessary processing before passing control to the video ROM is done. Look-
ing for the video ROM next and passing control to it.
The video ROM has returned control to BIOS POST. Performing any required pro-
cessing after the video ROM had control
Reading the 8042 input port and disabling the MEGAKEY Green PC feature next.
Making the BIOS code segment writable and performing any necessary configura-
tion before initializing the interrupt vectors.
24h
The configuration required before interrupt vector initialization has completed. In-
terrupt vector initialization is about to begin.
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Checkpoint Code Description
25h
Interrupt vector initialization is done. Clearing the password if the POST DIAG
switch is on.
27h
28h
Any initialization before setting video mode will be done next.
Initialization before setting the video mode is complete. Configuring the mono-
chrome mode and color mode settings next.
2Ah
2Eh
2Fh
Bus initialization system, static, output devices will be done next, if present. See the
last page for additional information.
Completed post-video ROM test processing. If the EGA/VGA controller is not
found, performing the display memory read/write test next.
The EGA/VGA controller was not found. The display memory read/write test is
about to begin.
30h
31h
The display memory read/write test passed. Look for retrace checking next.
The display memory read/write test or retrace checking failed. Performing the alter-
nate display memory read/write test next.
32h
The alternate display memory read/write test passed. Looking for alternate display
retrace checking next.
34h
37h
38h
Video display checking is over. Setting the display mode next.
The display mode is set. Displaying the power on message next.
Initializing the bus input, IPL, general devices next, if present. See the last page of
this chapter for additional information.
39h
3Ah
3Bh
Displaying bus initialization error messages. See the last page of this chapter for
additional information.
The new cursor position has been read and saved. Displaying the Hit <DEL> mes-
sage next.
The Hit <DEL> message is displayed. The protected mode memory test is about
to start.
40h
42h
Preparing the descriptor tables next.
The descriptor tables are prepared. Entering protected mode for the memory test
next.
43h
44h
Entered protected mode. Enabling interrupts for diagnostics mode next.
Interrupts enabled if the diagnostics switch is on. Initializing data to check memory
wraparound at 0:0 next.
45h
46h
47h
48h
Data initialized. Checking for memory wraparound at 0:0 and finding the total sys-
tem memory size next.
The memory wraparound test is done. Memory size calculation has been done.
Writing patterns to test memory next.
The memory pattern has been written to extended memory. Writing patterns to the
base 640 KB memory next.
Patterns written in base memory. Determining the amount of memory below 1 MB
next.
49h
4Bh
The amount of memory below 1 MB has been found and verified.
The amount of memory above 1 MB has been found and verified. Checking for a
soft reset and clearing the memory below 1 MB for the soft reset next. If this is a
power on situation, going to checkpoint 4Eh next.
B-4
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Appendix B: BIOS POST Checkpoint Codes
Checkpoint Code Description
4Ch
4Dh
4Eh
4Fh
50h
The memory below 1 MB has been cleared via a soft reset. Clearing the memory
above 1 MB next.
The memory above 1 MB has been cleared via a soft reset. Saving the memory size
next. Going to checkpoint 52h next.
The memory test started, but not as the result of a soft reset. Displaying the first
64 KB memory size next.
The memory size display has started. The display is updated during the memory
test. Performing the sequential and random memory test next.
The memory below 1 MB has been tested and initialized. Adjusting the displayed
memory size for relocation and shadowing next.
51h
52h
The memory size display was adjusted for relocation and shadowing.
The memory above 1 MB has been tested and initialized. Saving the memory size
information next.
53h
54h
57h
58h
59h
60h
62h
65h
66h
The memory size information and the CPU registers are saved. Entering real mode
next.
Shutdown was successful. The CPU is in real mode. Disabling the Gate A20 line,
parity, and the NMI next.
The A20 address line, parity, and the NMI are disabled. Adjusting the memory size
depending on relocation and shadowing next.
The memory size was adjusted for relocation and shadowing. Clearing the Hit
<DEL> message next.
The Hit <DEL> message is cleared. The <WAIT...> message is displayed. Starting
the DMA and interrupt controller test next.
The DMA page register test passed. Performing the DMA Controller 1 base register
test next.
The DMA controller 1 base register test passed. Performing the DMA controller 2
base register test next.
The DMA controller 2 base register test passed. Programming DMA controllers 1
and 2 next.
Completed programming DMA controllers 1 and 2. Initializing the 8259 interrupt
controller next.
67h
7Fh
80h
Completed 8259 interrupt controller initialization.
Extended NMI source enabling is in progress.
The keyboard test has started. Clearing the output buffer and checking for stuck
keys. Issuing the keyboard reset command next.
81h
82h
83h
84h
85h
A keyboard reset error or stuck key was found. Issuing the keyboard controller
interface test command next.
The keyboard controller interface test completed. Writing the command byte and
initializing the circular buffer next.
The command byte was written and global data initialization has completed. Check-
ing for a locked key next.
Locked key checking is over. Checking for a memory size mismatch with CMOS
RAM data next.
The memory size check is done. Displaying a soft error and checking for a password
or bypassing WINBIOS Setup next.
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Checkpoint Code Description
86h
The password was checked. Performing any required programming before WIN-
BIOS Setup next.
87h
The programming before WINBIOS Setup has completed. Uncompressing the
WINBIOS Setup code and executing the AMIBIOS Setup or WINBIOS Setup utility
next.
88h
89h
Returned from WINBIOS Setup and cleared the screen. Performing any necessary
programming after WINBIOS Setup next.
The programming after WINBIOS Setup has completed. Displaying the power on
screen message next.
8Ch
8Dh
Programming the WINBIOS Setup options next.
The WINBIOS Setup options are programmed. Resetting the hard disk controller
next.
8Fh
91h
95h
The hard disk controller has been reset. Configuring the floppy drive controller
next.
The floppy drive controller has been configured. Configuring the hard disk drive
controller next.
Initializing the bus option ROMs from C800 next. See the last page of this chapter
for additional information.
96h
97h
Initializing before passing control to the adaptor ROM at C800.
Initialization before the C800 adaptor ROM gains control has completed. The adap-
tor ROM check is next.
98h
99h
TheadaptorROMhadcontrolandhasnowreturnedcontroltoBIOSPOST. Perform-
ing any required processing after the option ROM returned control.
Any initialization required after the option ROM test has completed. Configuring the
timer data area and printer base address next.
9Ah
9Bh
Set the timer and printer base addresses. Setting the RS-232 base address next.
Returned after setting the RS-232 base address. Performing any required initializa-
tion before the Coprocessor test next.
9Ch
9Dh
9Eh
Required initialization before the Coprocessor test is over. Initializing the Coproces-
sor next.
Coprocessor initialized. Performing any required initialization after the Coproces-
sor test next.
InitializationaftertheCoprocessortestiscomplete.Checkingtheextendedkeyboard,
keyboard ID, and Num Lock key next. Issuing the keyboard ID command next.
A2h
A3h
A4h
A5h
Displaying any soft errors next.
The soft error display has completed. Setting the keyboard typematic rate next.
The keyboard typematic rate is set. Programming the memory wait states next.
Memory wait state programming is over. Clearing the screen and enabling parity
and the NMI next.
A7h
A8h
NMI and parity enabled. Performing any initialization required before passing control
to the adaptor ROM at E000 next.
InitializationbeforepassingcontroltotheadaptorROMatE000hcompleted.Passing
control to the adaptor ROM at E000h next.
B-6
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Appendix B: BIOS POST Checkpoint Codes
Checkpoint Code Description
A9h
Returned from adaptor ROM at E000h control. Performing any initialization required
after the E000 option ROM had control next.
Aah
Initialization after E000 option ROM control has completed. Displaying the system
configuration next.
Abh
B0h
B1h
00h
Uncompressing the DMI data and executing DMI POST initialization next.
The system configuration is displayed.
Copying any code to specific areas.
Code copying to specific areas is done. Passing control to INT 19h boot loader
next.
B-7
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H8QM3-2/H8QMi-2 User's Manual
Notes
B-8
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