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The revision number on your motherboard looks like this: "REV: X.X." For example, "REV: 1.0" means the revision of the motherboard is 1.0. Check your motherboard revision before updating motherboard BIOS, drivers, or when looking for technical information.
Example:
Temperature sensor
(Note) For debug code information, please refer to Chapter "Debug LED Codes".
(Note) Actual support may vary by CPU.
The motherboard contains numerous delicate electronic circuits and components which can become damaged as a result of electrostatic discharge (ESD). Prior to installation, carefully read the user's manual and follow these procedures:
CPU |
|
Chipset |
|
Memory |
|
Onboard Graphics |
|
Audio |
|
LAN |
|
Wireless Communication Module |
|
Expansion Slots |
|
Storage Interface |
|
USB |
|
Internal Connectors |
|
Internal Connectors |
|
Back Panel Connectors |
|
I/O Controller |
|
Hardware Monitor |
|
BIOS |
|
Unique Features |
|
Bundled Software |
|
Operating System |
|
Form Factor |
|
* GIGABYTE reserves the right to make any changes to the product specifications and product-related information without prior notice.
(Note) Actual support may vary by CPU.
Read the following guidelines before you begin to install the CPU:
Please visit GIGABYTE's website for details on hardware installation.
https://www.gigabyte.com/WebPage/210/quick-guide.html?m=sw
Do not force to engage the CPU socket locking lever when the CPU is not installed correctly as this would damage the CPU and CPU socket.
Read the following guidelines before you begin to install the memory:
Dual Channel Memory Configuration
This motherboard provides four memory sockets and supports Dual Channel Technology. After the memory is installed, the BIOS will automatically detect the specifications and capacity of the memory. Enabling Dual Channel memory mode will double the original memory bandwidth.
The four memory sockets are divided into two channels and each channel has two memory sockets as following:
DDR5_A1 | DDR5_A2 | DDR5_B1 | DDR5_B2 | |
2 Modules | - - | DS/SS | - - | DS/SS |
4 Modules | DS/SS | DS/SS | DS/SS | DS/SS |
Due to CPU limitations, read the following guidelines before installing the memory in Dual Channel mode.
When installing a single memory module, we recommend that you install it in the DDR5_A2 or DDR5 B2 socket.
Read the following guidelines before you begin to install an expansion card:
Follow the steps below to correctly install your expansion card in the expansion slot.
Please visit GIGABYTE's website for details on using PCIe EZ-Latch Plus.
https://www.gigabyte.com/WebPage/922/removePClE.html
State | Description |
Green | 10 Gbps data rate |
Orange | 5 Gbps/ 2.5 Gbps/ 1 Gbps/ 100 Mbps data rate |
State | Description |
Blinking | Data transmission or receiving is occurring |
On | No data transmission or receiving is occurring |
Jack | Headphone/ 2-channel | 4-channel | 5.1-channel |
| ✓ | ✓ | ✓ |
| ✓ | ✓ | |
Front Panel Line Out | |||
Front Panel Mic In/Center/ Subwoofer Speaker Out | ✓ |
You can change the functionality of an audio jack using the audio software. To configure 5.1 -channel audio, access the audio software for audio settings.
Please visit GIGABYTE's website for details on configuring the audio software.
https://www.gigabyte.com/WebPage/698/realtek1220-audio.html
(Note) To enable the Q-Flash Plus function, please navigate to the "Unique Features" page of GIGABYTE's website for more information.
Quick Buttons
This motherboard has 2 quick buttons: power button and reset button. The power button and reset button allow users to quickly turn on/off or reset the computer in an open-case environment when they want to change hardware components or conduct hardware testing.
PW_SW: Power Button
RST_SW: Reset Button
The reset button provides you with several functions to use. To remap the button to perform different tasks, please navigate to the "BIOS Setup" page of GIGABYTE's website and search for "RST_SW (MULTIKEY)" for more information.
Voltage Measurement Points
Use a multimeter to measure the following motherboard voltages.
VDDIO_MEM Pin 1
VDD_MISC Pin 1
VCORE Pin 1
VCORE_SOC Pin 1
CPU_VDD18 Pin 1
PM_VCC18 Pin 1
Status LEDs
The status LEDs show whether the CPU, memory, graphics card, and operating system are working properly after system power-on. If the CPU/DRAMNGA LED is on, that means the corresponding device is not working normally; if the BOOT LED is on, that means you havent entered the operating system yet.
CPU: CPU status LED
DRAM: Memory status LED
VGA: Graphics card status LED
BOOT: Operating system status LED
Read the following guidelines before connecting external devices:
(2x4 12V Power Connectors and 2x12 Main Power Connector)
With the use of the power connector, the power supply can supply enough stable power to all the components on the motherboard. Before connecting the power connector, first make sure the power supply is turned off and all devices are properly installed. The power connector possesses a foolproof design. Connect the power supply cable to the power connector in the correct orientation.
The 12V power connector mainly supplies power to the CPU. If the 12V power connector is not connected, the computer will not start.
To meet expansion requirements, it is recommended that a power supply that can withstand high power consumption be used (500W or greater). If a power supply is used that does not provide the required power, the result can lead to an unstable or unbootable system.
Pin No. | Definition |
1 | GND (Only for 2x4-pin 12V) |
2 | GND (Only for 2x4-pin 12V) |
3 | GND |
4 | GND |
5 | +12V (Only for 2x4-pin 12V) |
6 | +12V (Only for 2x4-pin 12V) |
7 | +12V |
8 | +12V |
Pin No. | Definition |
1 | 3.3V |
2 | 3.3V |
3 | GND |
4 | +5V |
5 | GND |
6 | +5V |
7 | GND |
8 | Power Good |
9 | 5VSB (stand by +5V) |
10 | +12V |
11 | +12V (Only for 2x12-pin ATX) |
12 | 3.3V (Only for 2x12-pin ATX) |
13 | 3.3V |
14 | -12V |
15 | GND |
16 | PS_ON (soft On/Off) |
17 | GND |
18 | GND |
19 | GND |
20 | NC |
21 | +5V |
22 | +5V |
23 | +5V (Only for 2x12-pin ATX) |
24 | GND (Only for 2x12-pin ATX) |
(Fan Headers)
All fan headers on this motherboard are 4-pin. Most fan headers possess a foolproof insertion design. When connecting a fan cable, be sure to connect it in the correct orientation (the black connector wire is the ground wire). The speed control function requires the use of a fan with fan speed control design. For optimum heat dissipation, it is recommended that a system fan be installed inside the chassis.
Pin No | Definition |
1 | GND |
2 | Voltage Speed Control |
3 | Sense |
4 | PWM Speed Control |
(System Fan/Water Cooling Pump Headers)
The fan/pump headers are 4-pin. Most fan headers possess a foolproof insertion design. When connecting a fan cable, be sure to connect it in the correct orientation (the black connector wire is the ground wire). The speed control function requires the use of a fan with fan speed control design. For optimum heat dissipation, it is recommended that a system fan be installed inside the chassis. The header also provides speed control for a water cooling pump. Please navigate to the "BIOS Setup" page of GIGABYTE's website and search for "Smart Fan 6" for more information.
Pin No. | Definition |
1 | GND |
2 | Voltage Speed Control |
3 | Sense |
4 | PWM Speed Control |
(CPU Fan/Water Cooling Pump Header)
The fan/pump header is 4-pin and possesses a foolproof insertion design. Most fan headers possess a foolproof insertion design. When connecting a fan cable, be sure to connect it in the correct orientation (the black connector wire is the ground wire). The speed control function requires the use of a fan with fan speed control design.
Pin No. | Definition |
1 | GND |
2 | Voltage Speed Control |
3 | Sense |
4 | PWM Speed Control |
Connector | CPU_FAN | SYS_FAN1~4 | SYS_FAN5~8_PUMP | CPU_OPT |
Maximum Current | 2A | 2A | 2A | 2A |
Maximum Power | 24W | 24W | 24W | 24W |
(Temperature Sensor Headers)
Connect the thermistor cables to the headers for temperature detection.
Pin No | Definition |
1 | SENSOR IN |
2 | GND |
(CPU Cooler LED Strip/RGB LED strip Header)
The header can be used to connect a CPU cooler LED strip or a standard 5050 RGB LED strip (12V/G/R/B), with maximum power rating of 2A (12V) and maximum length of 2m.
Pin No | Definition |
1 | 12V |
2 | G |
3 | R |
4 | B |
Connect the CPU cooler LED strip/RGB LED strip to the header. The power pin (marked with a triangle on the plug) of the LED strip must be connected to Pin 1 (12V) of this header. Incorrect connection may 121/ lead to the damage of the LED strip.
(RGB LED strip Headers)
The headers can be used to connect a standard 5050 RGB LED strip (12V/G/R/B), with maximum power rating of 2A (12V) and maximum length of 2m.
Pin No | Definition |
1 | 12V |
2 | G |
3 | R |
4 | B |
Connect one end of the RGB LED strip extension cable to the header and the other end to your RGB LED strip. The black wire (marked with a triangle RGB LED on the plug) of the extension cable must be connected to Pin 1 (12V) of Strip this header. The 12V pin (marked with an arrow) on the other end of the extension cable must be lined up with the 12V of the LED strip. Be careful with the connection orientation of the LED strip; incorrect connection may lead to the damage of the LED strip.
For how to turn on/off the lights of the LED strip, please navigate to the "Unique Features" page of GIGABYTE's website.
Before installing or removing the devices, be sure to turn off the devices and your computer. Unplug the power cord from the power outlet to prevent damage to the devices.
(Addressable LED strip Headers)
The headers can be used to connect a standard 5050 addressable LED strip, with maximum power rating of 5A (5V) and maximum number of 1000 LEDs.
Pin No | Definition |
1 | V (5V) |
2 | Data |
3 | No Pin |
4 | GND |
Connect your addressable LED strip to the header. The power pin (marked with a triangle on the plug) of the LED strip must be connected to Pin 1 of the addressable LED strip header. Incorrect connection may lead to the damage of the LED strip.
For how to turn on/off the lights of the LED strip, please navigate to the "Unique Features" page of GIGABYTE's website.
Before installing or removing the devices, be sure to turn off the devices and your computer. Unplug the power cord from the power outlet to prevent damage to the devices.
(SATA 6Gb/s Connectors)
The SATA connectors conform to SATA 6Gb/s standard and are compatible with SATA 3Gb/s and SATA 1.5Gb/s standard. Each SATA connector supports a single SATA device. The SATA connectors support RAID O, RAID l, and RAID 10. Please navigate to the "Configuring a RAID Set" page of GIGABYTE's website for instructions on configuring a RAID array.
Pin No. | Definition |
1 | GND |
2 | TXP |
3 | TXN |
4 | GND |
5 | RXN |
6 | RXP |
7 | GND |
To enable hot-plugging for the SATA ports, please navigate to the "BIOS Setup" page of GIGABYTE's website and search for "SATA Configuration" for more information.
(M.2 Socket 3 Connectors)
There are two types of M.2 SSDs: M.2 SATA SSDs and M.2 PCIe SSDs. This motherboard only supports M.2 PCIe SSDs. Please note that an M.2 PCIe SSD cannot be used to create a RAID set with a SATA hard drive. Please navigate to the "Configuring a RAID Set' page of GIGABYTE's website for instructions on configuring a RAID array.
Follow the steps below to correctly install an M.2 SSD in the M.2 connector.
Step 1:
To access the M.2 slot you want to use, unfasten the screws on the motherboard heatsink diagonally to remove the heatsink. Locate the proper mounting hole for the M.2 SSD to be installed and then install the M.2 EZ-Latch Plus clip first.
Step 2:
Remove the protective film from the thermal pad on the M.2 connector. Insert the M.2 SSD into the M.2 connector at an angle.
Step 3:
Press down on the front end of the M.2 SSD and make sure the M.2 SSD is secured by the M.2 EZ-Latch Plus clip. Remove the protective film from the thermal pad at the bottom of the motherboard heatsink and then replace the heatsink and tighten the screws diagonally.
* Types of M.2 SSDs supported by each M.2 connector:
M.2 PCIe x4 SSD | M.2 PCIe x2 SSD | M.2 SATA SSD | |
M2A_CPU | ✓ | ✓ | x |
M2D_CPU | ✓ | ✓ | x |
M2C_CPU | ✓ | ✓ | x |
M2B_CPU | ✓ | ✓ | x |
(Front Panel Header)
Connect the power switch, reset switch, speaker, chassis intrusion switch/sensor 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.
System Status | LED |
S0 | On |
S3/S4/S5 | Off |
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 assignments are matched correctly.
(Front Panel Audio Header)
The front panel audio header supports High Definition audio (HD). You may connect your chassis front panel audio module to this header. Make sure the wire assignments of the module connector match the pin assignments of the motherboard header. Incorrect connection between the module connector and the motherboard header will make the device unable to work or even damage it.
Pin No | Definition |
1 | MIC L |
2 | GND |
3 | MIC R |
4 | NC |
5 | Head Phone R |
6 | MIC Detection |
7 | SENSE_SEND |
8 | No Pin |
9 | Head Phone L |
10 | Head Phone Detection |
Some chassis provide a front panel audio module that has separated connectors on each wire instead of a single plug. For information about connecting the front panel audio module that has different wire assignments, please contact the chassis manufacturer.
(USB Type-C Header with USB 3.2 Gen 2x2 Support)
The header conforms to USB 3.2 Gen 2x2 specification and can provide one USB port.
Pin No. | Definition |
1 | VBUS |
2 | TX1+ |
3 | TX1- |
4 | GND |
5 | RX1+ |
6 | RX1- |
7 | VBUS |
8 | CC1 |
9 | SBU1 |
10 | SBU2 |
11 | VBUS |
12 | TX2+ |
13 | TX2- |
14 | GND |
15 | RX2+ |
16 | RX2- |
17 | GND |
18 | D- |
19 | D+ |
20 | CC2 |
(USB 3.2 Gen 1 Headers)
The headers conform to USB 3.2 Gen 1 and USB 2.0 specification and each header can provide two USB ports. For purchasing the optional 3.5" front panel that provides two USB 3.2 Gen 1 ports, please contact the local dealer.
Pin No. | Definition |
1 | VBUS |
2 | SSRX1- |
3 | SSRX1+ |
4 | GND |
5 | SSTX1- |
6 | SSTX1+ |
7 | GND |
8 | D1- |
9 | D1+ |
10 | NC |
11 | D2+ |
12 | D2- |
13 | GND |
14 | SSTX2+ |
15 | SSTX2- |
16 | GND |
17 | SSRX2+ |
18 | SSRX2- |
19 | VBUS |
20 | No Pin |
(USB 2.0/1.1 Headers)
The headers conform to USB 2.0/1.1 specification. Each USB header can provide two USB ports via an optional USB bracket. For purchasing the optional USB bracket, please contact the local dealer.
Pin No | Definition |
1 | Power (5V) |
2 | Power (5V) |
3 | USB DX- |
4 | USB DY- |
5 | USB DX+ |
6 | USB DY+ |
7 | GND |
8 | GND |
9 | No Pin |
10 | NC |
Prior to installing the USB bracket, be sure to turn off your computer and unplug the power cord from the power outlet to prevent damage to the USB bracket.
(Trusted Platform Module Header)
You may connect an SPI TPM (Trusted Platform Module) to this header.
Pin No | Definition |
1 | Data Output |
2 | Power (3.3V) |
3 | No Pin |
4 | NC |
5 | Data Input |
6 | CLK |
7 | Chip Select |
8 | GND |
9 | IRQ |
10 | NC |
11 | NC |
12 | RST |
(Add-in Card Connector)
This connector is for a GIGABYTE add-in card.
(Noise Detection Header)
This header can be used to connect a noise detection cable to detect the noise inside the case.
Pin No | Definition |
1 | Noise Detection |
2 | GND |
For more information on the noise detection function, please navigate to the "Unique Features" page of GIGABYTE's website and search for "FAN CONTROL."
Before connecting the cable to the header, make sure to remove the jumper cap; re-place the jumper cap if the header is not in use.
(Reset Jumper)
The reset jumper can 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 perform a normal restart.
Pin No | Definition |
1 | Reset |
2 | GND |
The reset jumper provides you with several functions to use. To remap the button to perform different tasks, please navigate to the "BIOS Setup" page of GIGABYTE's website and search for "RST_SW (MULTIKEY)" for more information.
(Clear CMOS Jumper)
Use this jumper to clear the BIOS configuration and reset the CMOS values to factory defaults. To clear the CMOS values, use a metal object like a screwdriver to touch the two pins for a few seconds.
Open: Normal
Short: Clear CMOS Values
(Battery)
The battery provides power to keep the values (such as BIOS configurations, date, and time information) in the CMOS when the computer is turned off. Replace the battery when the battery voltage drops to a low level, or the CMOS values may not be accurate or may be lost.
You may clear the CMOS values by removing the battery
BIOS (Basic Input and Output System) records hardware parameters of the system in the CMOS on the motherboard. Its major functions include conducting the Power-On Self-Test (POST) during system startup, saving system parameters and loading operating system, etc. BIOS includes a BIOS Setup program that allows the user to modify basic system configuration settings or to activate certain system features.
When the power is turned off, the battery on the motherboard supplies the necessary power to the CMOS to keep the configuration values in the CMOS.
To access the BIOS Setup program, press the <Delete> key during the POST when the power is turned on.
To upgrade the BIOS, use either the GIGABYTE Q-Flash or Q-Flash Plus utility.
For instructions on using the Q-Flash and Q-Flash Plus utilities, please navigate to the "Unique Features" page of GIGABYTE's website and search for "BIOS Update Utilities."
Please visit GIGABYTE's website for details on configuring BIOS Setup.
https://www.gigabyte.com/WebPage/917/amd600-bios.html
Startup Screen:
The following startup Logo screen will appear when the computer boots.
Function Keys:
<DEL>: BIOS SETUP\Q-FLASH
Press the <Delete> key to enter BIOS Setup or to access the Q-Flash utility in BIOS Setup.
<F12>: BOOT MENU
Boot Menu allows you to set the first boot device without entering BIOS Setup. In Boot Menu, use the up arrow key <↑> or the down arrow key↓ to select the first boot device, then press <Enter> to accept. The system will boot from the device immediately.
Note: The setting in Boot Menu is effective for one time only. After system restart, the device boot order will still be based on BIOS Setup settings.
<END>: Q-FLASH
Press the <End> key to access the Q-Flash utility directly without having to enter BIOS Setup first.
With the correct BIOS settings, you are ready to install the operating system.
As some operating systems already include RAID driver, you do not need to install separate RAID driver during the Windows installation process. After the operating system is installed, we recommend that you install all required drivers from the GIGABYTE Control Center to ensure system performance and compatibility. If the operating system to be installed requires that you provide additional RAID driver during the OS installation process, please refer to the steps below:
Step 1:
Go to GIGABYTE's website, browse to the motherboard model's web page, download the AMD RAID Preinstall Driver file on the Support\Download\SATA RAID/AHCI page, unzip the file and copy the files to your USB thumb drive.
Step 2:
Boot from the Windows setup disc and perform standard OS installation steps. When the screen requesting you to load the driver appears, select Browse.
Step 3:
Insert the USB thumb drive and then browse to the location of the driver. Select AMD-RAID Bottom Device first and click Next to load the driver. Then select AMD-RAID Controller and click Next to load the driver. Finally, continue the OS installation.
After you install the operating system, a dialog box will appear on the bottom-right corner of the desktop asking if you want to download and install the drivers and GIGABYTE applications via GIGABYTE Control Center (GCC). Click Install to proceed with the installation. (In BIOS Setup, make sure Settings\Gigabyte Utilities Downloader Configuration\Gigabyte Utilities Downloader is set to Enabled.)
When the End User License Agreement dialog box appears, press <Accept> to install GIGABYTE Control Center (GCC). On the GIGABYTE CONTROL CENTER screen, select the drivers and applications you want to install and click Install.
Before the installation, make sure the system is connected to the Internet.
RAID Levels
RAID 0 | RAID 1 | RAID 10 | |
Minimum Number of Hard Drives | ≥2 | 2 | 4 |
Array Capacity | Number of hard drives * Size of the smallest drive | Size of the smallest drive | (Number of hard drives/2) * Size of the smallest drive |
Fault Tolerance | No | Yes | Yes |
Before you begin, please prepare the following items:
This motherboard supports RAID 0, RAID 1, and RAID 10. Prepare the correct number of hard drives as indicated in the table above before configuring a RAID array.
Please visit GIGABYTE's website for details on configuring a RAID array.
https://www.gigabyte.com/WebPage/918/amd600-raid.html
Code | Description |
10 | PEI Core is started. |
11 | Pre-memory CPU initialization is started. |
12~14 | Reserved. |
15 | Pre-memory North-Bridge initialization is started. |
16~18 | Reserved. |
19 | Pre-memory South-Bridge initialization is started. |
1A~2A | Reserved. |
2B~2F | Memory initialization. |
31 | Memory installed. |
32~36 | CPU PEI initialization. |
37~3A | IOH PEI initialization. |
3B~3E | PCH PEI initialization. |
3F~4F | Reserved. |
60 | DXE Core is started. |
61 | NVRAM initialization. |
62 | Installation of the PCH runtime services. |
63~67 | CPU DXE initialization is started. |
68 | PCI host bridge initialization is started. |
69 | IOH DXE initialization. |
6A | IOH SMM initialization. |
6B~6F | Reserved. |
70 | PCH DXE initialization. |
71 | PCH SMM initialization. |
72 | PCH devices initialization. |
73~77 | PCH DXE initialization (PCH module specific). |
78 | ACPI Core initialization. |
79 | CSM initialization is started. |
7A~7F | Reserved for AMI use. |
80~8F | Reserved for OEM use (OEM DXE initialization codes). |
90 | Phase transfer to BDS (Boot Device Selection) from DXE. |
91 | Issue event to connect drivers. |
92 | PCI Bus initialization is started. |
93 | PCI Bus hot plug initialization. |
94 | PCI Bus enumeration for detecting how many resources are requested. |
95 | Check PCI device requested resources. |
96 | Assign PCI device resources. |
97 | Console Output devices connect (ex. Monitor is lighted). |
98 | Console input devices connect (ex. PS2/USB keyboard/mouse are activated). |
99 | Super IO initialization. |
9A | USB initialization is started. |
9B | Issue reset during USB initialization process. |
9C | Detect and install all currently connected USB devices. |
9D | Activated all currently connected USB devices. |
9E~9F | Reserved. |
A0 | IDE initialization is started. |
A1 | Issue reset during IDE initialization process. |
A2 | Detect and install all currently connected IDE devices. |
A3 | Activated all currently connected IDE devices. |
A4 | SCSI initialization is started. |
A5 | Issue reset during SCSI initialization process. |
A6 | Detect and install all currently connected SCSI devices. |
A7 | Activated all currently connected SCSI devices. |
A8 | Verify password if needed. |
A9 | BIOS Setup is started. |
AA | Reserved. |
AB | Wait user command in BIOS Setup. |
AC | Reserved. |
AD | Issue Ready To Boot event for OS Boot. |
AE | Boot to Legacy OS. |
AF | Exit Boot Services. |
B0 | Runtime AP installation begins. |
B1 | Runtime AP installation ends. |
B2 | Legacy Option ROM initialization. |
B3 | System reset if needed. |
B4 | USB device hot plug-in. |
B5 | PCI device hot plug. |
B6 | Clean-up of NVRAM. |
B7 | Reconfigure NVRAM settings. |
B8~BF | Reserved. |
C0~CF | Reserved. |
Code | Description |
E0 | S3 Resume is stared (called from DXE IPL). |
E1 | Fill boot script data for S3 resume. |
E2 | Initializes VGA for S3 resume. |
E3 | OS S3 wake vector call. |
Code | Description |
F0 | Recovery mode will be triggered due to invalid firmware volume detection. |
F1 | Recovery mode will be triggered by user decision. |
F2 | Recovery is started. |
F3 | Recovery firmware image is found. |
F4 | Recovery firmware image is loaded. |
F5~F7 | Reserved for future AMI progress codes. |
Code | Description |
50~55 | Memory initialization error occurs. |
56 | Invalid CPU type or speed. |
57 | CPU mismatch. |
58 | CPU self test failed or possible CPU cache error. |
59 | CPU micro-code is not found or micro-code update is failed. |
5A | Internal CPU error. |
5B | Reset PPI is failed. |
5C~5F | Reserved. |
D0 | CPU initialization error. |
D1 | IOH initialization error. |
D2 | PCH initialization error. |
D3 | Some of the Architectural Protocols are not available. |
D4 | PCI resource allocation error. Out of Resources. |
D5 | No Space for Legacy Option ROM initialization. |
D6 | No Console Output Devices are found. |
D7 | No Console Input Devices are found. |
D8 | It is an invalid password. |
D9~DA | Can't load Boot Option. |
DB | Flash update is failed. |
DC | Reset protocol is failed. |
DE~DF | Reserved. |
E8 | S3 resume is failed. |
E9 | S3 Resume PPI is not found. |
EA | S3 Resume Boot Script is invalid. |
EB | S3 OS Wake call is failed. |
EC~EF | Reserved. |
F8 | Recovery PPI is invalid. |
<F9> | Recovery capsule is not found. |
FA | Invalid recovery capsule. |
FB~FF | Reserved. |
GIGA-BYTE TECHNOLOGY CO., LTD.
Address. No.6, Baoqiang Rd, Xindian Dist., New Taipei City 231
TEL +886-2-8912-4000, FAX +886-2-8912-4005
Tech and Non-Tech Support (Sales/Marketing) https://esupport.gigabyte.com
WEB address (English): https://www.gigabyte.com
WEB address (Chinese): https://www.gigabyte.com/tw
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