ASRock 970 EXTREME4 – страница 2
Инструкция к Материнской Плате ASRock 970 EXTREME4
Step3. Align and insert ASRock SLI_Bridge_2S Card to the gold f ngers on each
graphics card. Make sure ASRock SLI_Bridge_2S Card is f rmly in place.
ASRock SLI_Bridge_2S Card
Step4. Connect a VGA cable or a DVI cable to the monitor connector or the DVI
connector of the graphics card that is inserted to PCIE2 slot.
2.5.2 Driver Installation and Setup
Install the graphics card drivers to your system. After that, you can enable the Multi-
®
Graphics Processing Unit (GPU) feature in the NVIDIA
nView system tray utility.
Please follow the procedures below to enable the multi-GPU feature.
®
For Windows
XP / XP 64-bit OS:
®
A. Double-click NVIDIA Settings icon on your Windows
taskbar.
B. From the pop-up menu, select Set SLI and PhysX confi guration. In
Set PhysX GPU acceleration item, please select Enabled. In Select
an SLI confi guration item, please select Enable SLI. And click Apply.
C. Reboot your system.
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D. You can freely enjoy the benef t of SLI
feature.
21
®
TM
TM
For Windows
Vista
/ Vista
64-bit / 7 / 7 64-bit OS:
A. Click the Start icon on your Windows taskbar.
B. From the pop-up menu, select All Programs, and then click NVIDIA
Corporation.
C. Select NVIDIA Control Panel tab.
D. Select Control Panel tab.
E. From the pop-up menu, select Set SLI and PhysX confi guration. In
Set PhysX GPU acceleration item, please select Enabled. In Select
an SLI confi guration item, please select Enable SLI. And click Apply.
F. Reboot your system.
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G.You can freely enjoy the benef t of SLI
feature.
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®
* SLI
appearing here is a registered trademark of NVIDIA
Technologies Inc., and is used
only for identif cation or explanation and to the owners’ benef t, without intent to infringe.
22
TM
TM
TM
2.6 CrossFireX
, 3-Way CrossFireX
and Quad CrossFireX
Operation Guide
TM
TM
This motherboard supports CrossFireX
, 3-way CrossFireX
and Quad
TM
TM
CrossFireX
feature. CrossFireX
technology offers the most advantageous
means available of combining multiple high performance Graphics Processing
Units (GPU) in a single PC. Combining a range of dif ferent operating modes with
TM
intelligent software design and an innovative interconnect mechanism, CrossFireX
enables the highest possible level of performance and image quality in any 3D
TM
®
application. Currently CrossFireX
feature is supported with Windows
XP with
TM
TM
TM
Service Pack 2 / Vista
/ 7 OS. 3-way CrossFireX
and Quad CrossFireX
feature
®
TM
are supported with Windows
Vista
/ 7 OS only . Please check AMD website for
TM
TM
AMD
CrossFireX
driver updates.
1. If a customer incorrectly configures their system they will not see the
TM
TM
performance benef ts of CrossFireX
. All three CrossFireX
components, a
TM
TM
CrossFireX
Ready graphics card, a CrossFireX
Ready motherboard and a
TM
CrossFireX
Edition co-processor graphics card, must be installed correctly
TM
to benef t from the CrossFireX
multi-GPU platform.
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2. If you pair a 12-pipe CrossFireX
Edition card with a 16-pipe card, both
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cards will operate as 12-pipe cards while in CrossFireX
mode.
2.6.1 Graphics Card Setup
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2.6.1.1 Installing Two CrossFireX
-Ready Graphics
Cards
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Different CrossFireX
cards may require dif ferent methods to enable CrossFi-
TM
reX
feature. In the following procedures, we use Radeon HD 3870 as the exam-
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ple graphics card. For other CrossFireX
cards that AMD
has released or will
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release in the future, please refer to AMD
graphics card manuals for detailed
installation guide.
Step 1. Insert one Radeon graphics card into PCIE2 slot and the other Radeon
graphics card to PCIE4 slot. Make sure that the cards are properly seated
on the slots.
23
Step 2. Connect two Radeon graphics cards by installing CrossFire Bridge on
CrossFire Bridge Interconnects on the top of Radeon graphics cards.
(CrossFire Bridge is provided with the graphics card you purchase, not
bundled with this motherboard. Please refer to your graphics card vendor
for details.)
CrossFire Bridge
or
Step 3. Connect the DVI monitor cable to the DVI connector on the Radeon graph-
ics card on PCIE2 slot. (You may use the DVI to D-Sub adapter to convert
the DVI connector to D-Sub interface, and then connect the D-Sub monitor
cable to the DVI to D-Sub adapter.)
24
TM
2.6.1.2 Installing Three CrossFireX
-Ready Graphics
Cards
Step 1. Install one Radeon graphics card to PCIE2 slot. For the proper installation
procedures, please refer to section “Expansion Slots”.
Step 2. Install one Radeon graphics card to PCIE4 slot. For the proper installation
procedures, please refer to section “Expansion Slots”.
Step 3. Install one Radeon graphics card to PCIE5 slot. For the proper installation
procedures, please refer to section “Expansion Slots”.
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Step 4. Use one CrossFire
Bridge to connect Radeon graphics cards on PCIE2
TM
and PCIE4 slots, and use the other CrossFire
Bridge to connect Radeon
TM
graphics cards on PCIE4 and PCIE5 slots. (CrossFire
Bridge is provided
with the graphics card you purchase, not bundled with this motherboard.
Please refer to your graphics card vendor for details.)
25
TM
CrossFire
Bridge
Step 5. Connect the DVI monitor cable to the DVI connector on the Radeon graph-
ics card on PCIE2 slot. (You may use the DVI to D-Sub adapter to convert
the DVI connector to D-Sub interface, and then connect the D-Sub monitor
cable to the DVI to D-Sub adapter.)
26
2.6.2 Driver Installation and Setup
Step 1. Power on your computer and boot into OS.
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Step 2. Remove the AMD
driver if you have any VGA driver installed in your sys-
tem.
The Catalyst Uninstaller is an optional download. We recommend using this
utility to uninstall any previously installed Catalyst drivers prior to installation.
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Please check AMD website for AMD
driver updates.
Step 3. Install the required drivers to your system.
®
For Windows
XP OS:
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®
A. AMD
recommends Windows
XP Service Pack 2 or higher to be
®
installed (If you have Windows
XP Service Pack 2 or higher installed
in your system, there is no need to download it again):
http://www.microsoft.com/windowsxp/sp2/default.mspx
B. You must have Microsoft .NET Framework installed prior to
downloading and installing the CATALYST Control Center. Please
check Microsoft website for details.
®
TM
For Windows
7 / Vista
OS:
Install the CATALYST Control Center. Please check AMD website for de-
tails.
Step 4. Restart your computer.
Step 5. Install the VGA card drivers to your system, and restart your computer.
®
Then you will f nd “ATI Catalyst Control Center” on your Windows
taskbar.
ATI Catalyst Control Center
Step 6. Double-click “ATI Catalyst Control Center”. Click “V iew”, select “CrossFi-
TM
TM
reX
”, and then check the item “Enable CrossFireX
”. Select “2 GPUs”
and click “Apply” (if you install two Radeon graphics cards). Select “3
GPUs” and click “OK” (if you install three Radeon graphics cards).
27
TM
Although you have selected the option “Enable CrossFire
”, the Cross-
TM
FireX
function may not work actually. Your computer will automatically
reboot. After restarting your computer, please conf rm whether the option
TM
“Enable CrossFire
” in “ATI Catalyst Control Center” is selected or not;
if not, please select it again, and then you are able to enjoy the bene f t of
TM
CrossFireX
feature.
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TM
Step 7. You can freely enjoy the bene f t of CrossFireX
, 3-Way CrossFireX
or
TM
Quad CrossFireX
feature.
TM
TM
* CrossFireX
appearing here is a registered trademark of AMD
Technologies Inc., and is
used only for identif cation or explanation and to the owners’ benef t, without intent to infringe.
TM
TM
* For further information of AMD
CrossFireX
technology, please check AMD website for
updates and details.
2.7 Surround Display Feature
This motherboard supports Surround Display upgrade. With the external add-on PCI
Express VGA cards, you can easily enjoy the benef ts of Surround Display feature.
For the detailed instruction, please refer to the document at the following path in the
Support CD:
..\ Surround Display Information
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2.8 ASRock Smart Remote Installation Guide
ASRock Smart Remote is only used for ASRock motherboard with CIR header .
Please refer to below procedures for the quick installation and usage of ASRock
Smart Remote.
Step1. Find the CIR header located next
USB 2.0 header
to the USB 2.0 header on ASRock
(9-pin, blue)
motherboard.
CIR header
(4-pin, white)
USB_PWR
Step2. Connect the front USB cable to the
P-
USB 2.0 header (as below, pin 1-5)
P+
and the CIR header. Please make
GND
DUMMY
sure the wire assignments and the
pin assignments are matched
correctly.
GND
IRTX
IRRX
ATX+5VSB
Step3. Install Multi-Angle CIR Receiver to
the front USB port. If Multi-Angle
CIR Receiver cannot successfully
receive the infrared signals from
MCE Remote Controller, please try
to install it to the other front USB
port.
3 CIR sensors in different angles
1. Only one of the front USB port can support CIR function. When the
CIR function is enabled, the other port will remain USB function.
2. Multi-Angle CIR Receiver is used for front USB only . Please do not
use the rear USB bracket to connect it on the rear panel. Multi-Angle
CIR Receiver can receive the multi-direction infrared signals (top,
down and front), which is compatible with most of the chassis on the
market.
3. The Multi-Angle CIR Receiver does not support Hot-Plug function.
Please install it before you boot the system.
* ASRock Smart Remote is only supported by some of ASRock motherboards. Please refer to
ASRock website for the motherboard support list: http://www.asrock.com
29
2.9 Jumpers Setup
The illustration shows how jumpers are
setup. When the jumper cap is placed on
pins, the jumper is “Short”. If no jumper cap
is placed on pins, the jumper is “Open”. The
illustration shows a 3-pin jumper whose
pin1 and pin2 are “Short” when jumper cap
is placed on these 2 pins.
Jumper Setting
Clear CMOS Jumper
(CLRCMOS1)
(see p.12, No. 19)
Clear CMOSDefault
Note: CLRCMOS1 allows you to clear the data in CMOS. The data in CMOS in-
cludes system setup information such as system password, date, time, and
system setup parameters. To clear and reset the system parameters to de-
fault setup, please turn of f the computer and unplug the power cord from the
power supply. After waiting for 15 seconds, use a jumper cap to short pin2
and pin3 on CLRCMOS1 for 5 seconds. However, please do not clear the
CMOS right after you update the BIOS. If you need to clear the CMOS when
you just f nish updating the BIOS, you must boot up the system f rst, and then
shut it down before you do the clear-CMOS action.
The Clear CMOS Switch has the same function as the Clear CMOS
jumper.
30
2.10 Onboard Headers and Connectors
Onboard headers and connectors are NOT jumpers. Do NOT place
jumper caps over these headers and connectors. Placing jumper caps
over the headers and connectors will cause permanent damage of the
motherboard!
Serial ATA3 Connectors These f ve Serial ATA3
(SATA3_1: see p.12, No. 16)
(SATA3) connectors support
(SATA3_2_3: see p.12, No. 15)
SATA data cables for internal
(SATA3_4_5: see p.12, No. 14)
storage devices. The current
SATA3 interface allows up to
6.0 Gb/s data transfer rate.
SATA3_2_3 SATA3_4_5
SATA3_1
Serial ATA (SATA) Either end of the SATA data
Data Cable cable can be connected to the
(Optional)
SATA3 hard disk or the SATA3
connector on this motherboard.
3.5mm Audio Cable Either end of the 3.5mm audio
(Optional)
cable can be connected to the
portable audio devices, such
as MP3 player and mobile
phone or the Line-in port of
your PC.
USB 2.0 Headers Besides four default USB 2.0
USB_PWR
P-7
(9-pin USB_6_7)
P+7
ports on the I/O panel, there
GND
DUMMY
(see p.12 No. 27)
are three USB 2.0 headers on
1
this motherboard. Each USB 2.0
GND
P+6
header can support two USB
P-6
USB_PWR
2.0 ports.
31
(9-pin USB_8_9)
(see p.12 No. 29)
(9-pin USB_10_11)
(see p.12 No. 30)
USB 3.0 Header Besides two default USB 3.0
(19-pin USB_12_13)
ports on the I/O panel, there is
(see p.12 No. 11)
one USB 3.0 header on this
motherboard. This USB 3.0
header can support two USB
3.0 ports.
Infrared Module Header This header supports an
(5-pin IR1)
optional wireless transmitting
(see p.12 No. 32)
and receiving infrared module.
Consumer Infrared Module Header This header can be used to
(4-pin CIR1)
connect the remote
(see p.12 No. 28)
controller receiver.
Front Panel Audio Header This is an interface for the front
(9-pin HD_AUDIO1)
panel audio cable that allows
(see p.12 No. 42)
convenient connection and
control of audio devices.
32
1. High Def nition Audio supports Jack Sensing, but the panel wire on
the chassis must support HDA to function correctly. Please follow the
instruction in our manual and chassis manual to install your system.
2. If you use AC’97 audio panel, please install it to the front panel audio
header as below:
A. Connect Mic_IN (MIC) to MIC2_L.
B. Connect Audio_R (RIN) to OUT2_R and Audio_L (LIN) to OUT2_L.
C. Connect Ground (GND) to Ground (GND).
D. MIC_RET and OUT_RET are for HD audio panel only. You don’t
need to connect them for AC’97 audio panel.
E. To activate the front mic.
®
For Windows
XP / XP 64-bit OS:
Select “Mixer”. Select “Recorder”. Then click “FrontMic”.
®
TM
TM
For Windows
7 / 7 64-bit / Vista
/ Vista
64-bit OS:
Go to the "FrontMic" Tab in the Realtek Control panel. Adjust
“Recording Volume”.
System Panel Header This header accommodates
(9-pin PANEL1)
several system front panel
(see p.12 No. 21)
functions.
Connect the power switch, reset switch and system status indicator
on the chassis to this header according to the pin assignments below .
Note the positive and negative pins before connecting the cables.
PWRBTN (Power Switch):
Connect to the power switch on the chassis front panel. You may con-
f gure the way to turn off your system using the power switch.
RESET (Reset Switch):
Connect to the reset switch on the chassis front panel. Press the reset
switch to restart the computer if the computer freezes and fails to per-
form a normal restart.
PLED (System Power LED):
Connect to the power status indicator on the chassis front panel. The
LED is on when the system is operating. The LED keeps blinking
when the sys-tem is in S1 sleep state. The LED is off when the system
is in S3/S4 sleep state or powered off (S5).
HDLED (Hard Drive Activity LED):
Connect to the hard drive activity LED on the chassis front panel. The
LED is on when the hard drive is reading or writing data.
33
The front panel design may differ by chassis. A front panel module
mainly consists of power switch, reset switch, power LED, hard drive
activity LED, speaker and etc. When connecting your chassis front
panel module to this header, make sure the wire assignments and the
pin assign-ments are matched correctly.
Chassis Speaker Header Please connect the chassis
1
SPEAKER
(4-pin SPEAKER 1)
speaker to this header.
DUMMY
+5V
DUMMY
(see p.12 No. 20)
Power LED Header Please connect the chassis
(3-pin PLED1)
power LED to this header to
(see p.12 No. 18)
indicate system power status.
The LED is on when the system
is operating. The LED keeps
blinking in S1 state. The LED is
off in S3/S4 state or S5 state
(power off).
Chassis and Power Fan Connectors Please connect the fan cables
(4-pin CHA_FAN1)
to the fan connectors and
GND
+12V
(see p.12 No. 9)
match the black wire to the
CHA_FAN_SPEED
FAN_SPEED_CONTROL
ground pin. CHA_FAN1/2/3 fan
(3-pin CHA_FAN2)
speed can be controlled through
CHA_FAN_SPEED
GND
(see p.12 No. 25)
+12V
UEFI or AXTU.
(3-pin CHA_FAN3)
(see p.12 No. 26)
CHA_FAN_SPEED
GND
+12V
(3-pin PWR_FAN1)
+12V
GND
PWR_FAN_SPEED
(see p.12 No. 2)
CPU Fan Connectors Please connect the CPU fan
CPU_FAN_SPEED
+12V
FAN_SPEED_CONTROL
GND
(4-pin CPU_FAN1)
cable to the connector and
(see p.12 No. 4)
match the black wire to the
1 2 3 4
ground pin.
34
Though this motherboard provides 4-Pin CPU fan (Quiet Fan) support, the 3-Pin
CPU fan still can work successfully even without the fan speed control function.
If you plan to connect the 3-Pin CPU fan to the CPU fan connector on this
motherboard, please connect it to Pin 1-3.
Pin 1-3 Connected
3-Pin Fan Installation
(3-pin CPU_FAN2)
+12V
GND
CPU_FAN_SPEED
(see p.12 No. 3)
ATX Power Connector Please connect an ATX power
12
24
(24-pin ATXPWR1)
supply to this connector.
(see p.12 No. 10)
1
13
Though this motherboard provides 24-pin ATX power connector,
12
24
it can still work if you adopt a traditional 20-pin ATX power supply.
To use the 20-pin ATX power supply, please plug your power
supply along with Pin 1 and Pin 13.
20-Pin ATX Power Supply Installation
1
13
ATX 12V Power Connector Please connect an ATX 12V
8 5
(8-pin ATX12V1)
power supply to this connector.
4 1
(see p.12 No. 1)
Though this motherboard provides 8-pin ATX 12V power connector, it can still work
if you adopt a traditional 4-pin ATX 12V power supply. To use the 4-pin ATX power
supply, please plug your power supply along with Pin 1 and Pin 5.
8 5
4-Pin ATX 12V Power Supply Installation
4 1
IEEE 1394 Header Besides one default IEEE 1394
(9-pin FRONT_1394)
port on the I/O panel, there is
(see p.12 No. 24)
one IEEE 1394 header
(FRONT_1394) on this
motherboard. This IEEE 1394
header can support one IEEE
1394 port.
35
Serial port Header This COM1 header supports a
(9-pin COM1)
serial port module.
(see p.12 No.31)
HDMI_SPDIF Header HDMI_SPDIF header, providing
(2-pin HDMI_SPDIF1)
SPDIF audio output to HDMI
(
see p.12 No. 33)
VGA card, allows the system to
connect HDMI Digital TV/
projector/LCD devices. Please
connect the HDMI_SPDIF
connector of HDMI VGA card to
this header.
2.11 Smart Switches
This motherboard has three smart switches: power switch, reset switch and clear
CMOS switch, allowing users to quickly turn on/off or reset the system or clear the
CMOS values.
Power Switch Power Switch is a smart switch,
(PWRBTN)
allowing users to quickly turn
(see p.12 No. 23)
on/off the system.
Reset Switch Reset Switch is a smart switch,
(RSTBTN)
allowing users to quickly reset
(see p.12 No. 22)
the system.
Clear CMOS Switch Clear CMOS Switch is a smart
(CLRCBTN)
switch, allowing users to quickly
(see p.13 No. 14)
clear the CMOS values
36
2.12 Dr. Debug
Dr. Debug is used to provide code information, which makes troubleshooting even
easier. Please see the diagrams below for reading the Dr. Debug codes.
Status Code Description
0x00 Not used
0x01 Power on. Reset type detection (soft/hard)
0x02 AP initialization before microcode loading
0x03 North Bridge initialization before microcode loading
0x04 South Bridge initialization before microcode loading
0x05 OEM initialization before microcode loading
0x06 Microcode loading
0x07 AP initialization after microcode loading
0x08 North Bridge initialization after microcode loading
0x09 South Bridge initialization after microcode loading
0x0A OEM initialization after microcode loading
0x0B Cache initialization
0x0C – 0x0D Reserved for future AMI SEC error codes
0x0E Microcode not found
0x0F Microcode not loaded
0x10 PEI Core is started
0x11 Pre-memory CPU initialization is started
0x12 Pre-memory CPU initialization (CPU module specif c)
0x13 Pre-memory CPU initialization (CPU module specif c)
0x14 Pre-memory CPU initialization (CPU module specif c)
0x15 Pre-memory North Bridge initialization is started
0x16 Pre-Memory North Bridge initialization (North Bridge module specif c)
0x17 Pre-Memory North Bridge initialization (North Bridge module specif c)
0x18 Pre-Memory North Bridge initialization (North Bridge module specif c)
0x19 Pre-memory South Bridge initialization is started
0x1A Pre-memory South Bridge initialization (South Bridge module specif c)
0x1B Pre-memory South Bridge initialization (South Bridge module specif c)
0x1C Pre-memory South Bridge initialization (South Bridge module specif c)
0x1D – 0x2A OEM pre-memory initialization codes
0x2B Memory initialization. Serial Presence Detect (SPD) data reading
0x2C Memory initialization. Memory presence detection
0x2D Memory initialization. Programming memory timing information
0x2E Memory initialization. Conf guring memory
0x2F Memory initialization (other)
0x30 Reserved for ASL (see ASL Status Codes section below)
0x31 Memory Installed
0x32 CPU post-memory initialization is started
0x33 CPU post-memory initialization. Cache initialization
0x34 CPU post-memory initialization. Application Processor(s) (AP) initialization
0x35 CPU post-memory initialization. Boot Strap Processor (BSP) selection
0x36 CPU post-memory initialization. System Management Mode (SMM)
initialization
37
0x37 Post-Memory North Bridge initialization is started
0x38 Post-Memory North Bridge initialization (North Bridge module specif c)
0x39 Post-Memory North Bridge initialization (North Bridge module specif c)
0x3A Post-Memory North Bridge initialization (North Bridge module specif c)
0x3B Post-Memory South Bridge initialization is started
0x3C Post-Memory South Bridge initialization (South Bridge module specif c)
0x3D Post-Memory South Bridge initialization (South Bridge module specif c)
0x3E Post-Memory South Bridge initialization (South Bridge module specif c)
0x3F-0x4E OEM post memory initialization codes
0x4F DXE IPL is started
0x50 Memory initialization error. Invalid memory type or incompatible memory
speed
0x51 Memory initialization error. SPD reading has failed
0x52 Memory initialization error. Invalid memory size or memory modules do not
match
0x53 Memory initialization error. No usable memory detected
0x54 Unspecif ed memory initialization error
0x55 Memory not installed
0x56 Invalid CPU type or Speed
0x57 CPU mismatch
0x58 CPU self test failed or possible CPU cache error
0x59 CPU micro-code is not found or micro-code update is failed
0x5A Internal CPU error
0x5B reset PPI is not available
0x5C-0x5F Reserved for future AMI error codes
0xE0 S3 Resume is stared (S3 Resume PPI is called by the DXE IPL)
0xE1 S3 Boot Script execution
0xE2 Video repost
0xE3 OS S3 wake vector call
0xE4-0xE7 Reserved for future AMI progress codes
0xE8 S3 Resume Failed
0xE9 S3 Resume PPI not Found
0xEA S3 Resume Boot Script Error
0xEB S3 OS Wake Error
0xEC-0xEF Reserved for future AMI error codes
0xF0 Recovery condition triggered by f rmware (Auto recovery)
0xF1 Recovery condition triggered by user (Forced recovery)
0xF2 Recovery process started
0xF3 Recovery f rmware image is found
0xF4 Recovery f rmware image is loaded
0xF5-0xF7 Reserved for future AMI progress codes
0xF8 Recovery PPI is not available
0xF9 Recovery capsule is not found
0xFA Invalid recovery capsule
0xFB – 0xFF Reserved for future AMI error codes
0x60 DXE Core is started
0X61 NVRAM initialization
38
0x62 Installation of the South Bridge Runtime Services
0x63 CPU DXE initialization is started
0x64 CPU DXE initialization (CPU module specif c)
0x65 CPU DXE initialization (CPU module specif c)
0x66 CPU DXE initialization (CPU module specif c)
0x67 CPU DXE initialization (CPU module specif c)
0x68 PCI host bridge initialization
0x69 North Bridge DXE initialization is started
0x6A North Bridge DXE SMM initialization is started
0x6B North Bridge DXE initialization (North Bridge module specif c)
0x6C North Bridge DXE initialization (North Bridge module specif c)
0x6D North Bridge DXE initialization (North Bridge module specif c)
0x6E North Bridge DXE initialization (North Bridge module specif c)
0x6F North Bridge DXE initialization (North Bridge module specif c)
0x70 South Bridge DXE initialization is started
0x71 South Bridge DXE SMM initialization is started
0x72 South Bridge devices initialization
0x73 South Bridge DXE Initialization (South Bridge module specif c)
0x74 South Bridge DXE Initialization (South Bridge module specif c)
0x75 South Bridge DXE Initialization (South Bridge module specif c)
0x76 South Bridge DXE Initialization (South Bridge module specif c)
0x77 South Bridge DXE Initialization (South Bridge module specif c)
0x78 ACPI module initialization
0x79 CSM initialization
0x7A – 0x7F Reserved for future AMI DXE codes
0x80 – 0x8F OEM DXE initialization codes
0x90 Boot Device Selection (BDS) phase is started
0x91 Driver connecting is started
0x92 PCI Bus initialization is started
0x93 PCI Bus Hot Plug Controller Initialization
0x94 PCI Bus Enumeration
0x95 PCI Bus Request Resources
0x96 PCI Bus Assign Resources
0x97 Console Output devices connect
0x98 Console input devices connect
0x99 Super IO Initialization
0x9A USB initialization is started
0x9B USB Reset
0x9C USB Detect
0x9D USB Enable
0x9E – 0x9F Reserved for future AMI codes
0xA0 IDE initialization is started
0xA1 IDE Reset
0xA2 IDE Detect
0xA3 IDE Enable
0xA4 SCSI initialization is started
0xA5 SCSI Reset
39
0xA6 SCSI Detect
0xA7 SCSI Enable
0xA8 Setup Verifying Password
0xA9 Start of Setup
0xAA Reserved for ASL (see ASL Status Codes section below)
0xAB Setup Input Wait
0xAC Reserved for ASL (see ASL Status Codes section below)
0xAD Ready To Boot event
0xAE Legacy Boot event
0xAF Exit Boot Services event
0xB0 Runtime Set Virtual Address MAP Begin
0xB1 Runtime Set Virtual Address MAP End
0xB2 Legacy Option ROM Initialization
0xB3 System Reset
0xB4 USB hot plug
0xB5 PCI bus hot plug
0xB6 Clean-up of NVRAM
0xB7 Conf guration Reset (reset of NVRAM settings)
0xB8 – 0xBF Reserved for future AMI codes
0xC0 – 0xCF OEM BDS initialization codes
0xD0 CPU initialization error
0xD1 North Bridge initialization error
0xD2 South Bridge initialization error
0xD3 Some of the Architectural Protocols are not available
0xD4 PCI resource allocation error. Out of Resources
0xD5 No Space for Legacy Option ROM
0xD6 No Console Output Devices are found
0xD7 No Console Input Devices are found
0xD8 Invalid password
0xD9 Error loading Boot Option (LoadImage returned error)
0xDA Boot Option is failed (StartImage returned error)
0xDB Flash update is failed
0xDC Reset protocol is not available
40
