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H273-Z82-AAN1

H273-Z82-AAW1

HCI Server – AMD EPYC™ 9004 DP 2U 4-Node Server 8 x Gen4 NVMe/SATA 2600W

(AAN1)

HCI Server – AMD EPYC™ 9004 DP 2U 4-Node Server 8 x Gen4 NVMe/SATA 3000W

(AAW1)

User Manual

Rev. 1.0

The trademarks mentioned in this manual are legally registered to their respective owners.

Disclaimer

Information in this manual is protected by copyright laws and is the property of GIGABYTE.

Changes to the specications and features in this manual may be made by GIGABYTE without

prior notice. No part of this manual may be reproduced, copied, translated, transmitted, or

published in any form or by any means without GIGABYTE's prior written permission.

Documentation Classications

In order to assist in the use of this product, GIGABYTE provides the following types of documentation:

 User Manual: detailed information & steps about the installation, conguration and use of this

product (e.g. motherboard, server barebones), covering hardware and BIOS.

  User Guide: detailed information about the installation & use of an add-on hardware or

software component (e.g. BMC rmware, rail-kit) compatible with this product.

 Quick Installation Guide: a short guide with visual diagrams that you can reference easily for

installation purposes of this product (e.g. motherboard, server barebones).

Please see the support section of the online product page to check the current availability of these

documents.

For More Information

For related product specications, the latest rmware and software, and other information please visit our website at

http://www.gigabyte.com

For GIGABYTE distributors and resellers, additional sales & marketing materials are available from our reseller

portal: http://reseller.b2b.gigabyte.com

For further technical assistance, please contact your GIGABYTE representative or visit

https://esupport.gigabyte.com/ to create a new support ticket

For any general sales or marketing enquiries, you may also message GIGABYTE server directly by email:

server.grp@gigabyte.com

Conventions

The following conventions are used in this user's guide:

NOTE!

Gives bits and pieces of additional

information related to the current topic.

CAUTION!

Gives precautionary measures to

avoid possible hardware or software problems.

WARNING!

Alerts you to any damage that might

result from doing or not doing specic actions.

Server Warnings and Cautions

Before installing a server, be sure that you understand the following warnings and cautions.

WARNING!

To reduce the risk of electric shock or damage to the equipment:

• Do not disable the power cord grounding plug. The grounding plug is an important safety

feature.

• Plug the power cord into a grounded (earthed) electrical outlet that is easily accessible at all

times.

• Unplug all the power cords from the power supplies to disconnect power to the equipment.

WARNING!

To reduce the risk of personal injury from hot surfaces, allow the drives

and the internal system components to cool before touching them.

WARNING!

This server is equipped with high speed fans. Keep away from hazardous

moving fan blades during servicing.

WARNING!

This equipment is not suitable for use in locations where children are

likely to be present.

WARNING!

This equipment is intended to be used in Restrict Access Location. The

access can only be gained by Skilled person.

Only authorized by well trained professional person can access the

restrict access location.

CAUTION!

• Do not operate the server for long periods with the access panel open or removed. Operat-

ing the server in this manner results in improper airow and improper cooling that can lead to

thermal damage.

• Danger of explosion if battery is incorrectly replaced.

• Replace only with the same or equivalent type recommended by the manufacturer.

• Dispose of used batteries according to the manufacturer’s instructions.

Electrostatic Discharge (ESD)

CAUTION!

ESD CAN DAMAGE DRIVES, BOARDS, AND OTHER PARTS. WE RECOMMEND THAT YOU

PERFORM ALL PROCEDURES AT AN ESD WORKSTATION. IF ONE IS NOT AVAILABLE,

PROVIDE SOME ESD PROTECTION BY WEARING AN ANTI-STATIC WRIST STRAP AT-

TACHED TO CHASSIS GROUND -- ANY UNPAINTED METAL SURFACE -- ON YOUR SERVER

WHEN HANDLING PARTS.

Always handle boards carefully. They can be extremely sensitive to ESD. Hold boards only by

their edges without any component and pin touching. After removing a board from its protective

wrapper or from the system, place the board component side up on a grounded, static free sur-

face. Use a conductive foam pad if available but not the board wrapper. Do not slide board over

any surface.

System power on/o󰀨: To remove power from system, you must remove the system from

rack. Make sure the system is removed from the rack before opening the chassis, adding, or

removing any non hot-plug components.

Hazardous conditions, devices and cables: Hazardous electrical conditions may be

present on power, telephone, and communication cables. Turn off the system and disconnect the

cables attached to the system before servicing it. Otherwise, personal injury or equipment dam-

age can result.

Electrostatic discharge (ESD) and ESD protection: ESD can damage drives,

boards, and other parts. We recommend that you perform all procedures in this chapter only at

an ESD workstation. If one is not available, provide some ESD protection by wearing an antistatic

wrist strap attached to chassis ground (any unpainted metal surface on the server) when handling

parts.

ESD and handling boards: Always handle boards carefully. They can be extremely

sensitive to electrostatic discharge (ESD). Hold boards only by their edges. After removing a

board from its protective wrapper or from the system, place the board component side up on a

grounded, static free surface. Use a conductive foam pad if available but not the board wrapper.

Do not slide board over any surface.

Installing or removing jumpers: A jumper is a small plastic encased conductor that slips

over two jumper pins. Some jumpers have a small tab on top that can be gripped with ngertips

or with a pair of ne needle nosed pliers. If the jumpers do not have such a tab, take care when

using needle nosed pliers to remove or install a jumper; grip the narrow sides of the jumper with

the pliers, never the wide sides. Gripping the wide sides can dam-age the contacts inside the

jumper, causing intermittent problems with the function con-trolled by that jumper. Take care to

grip with, but not squeeze, the pliers or other tool used to remove a jumper, or the pins on the

board may bend or break.

CAUTION!

Risk of explosion if battery is replaced incorrectly or with an incorrect type. Replace the battery

only with the same or equivalent type recommended by the manufacturer. Dispose of used bat-

teries according to the manufacturer’s instructions.

- 7 -

Table of Contents

Chapter 1 Hardware Installation ...................................................................................11

1-1 Installation Precautions .................................................................................. 11

1-2 Product Specications .................................................................................... 12

1-3 System Block Diagram 17 ...................................................................................

Chapter 2 System Appearance .....................................................................................18

2-1 Front View 18 ......................................................................................................

2-2 Rear View 19 .......................................................................................................

2-3 Front Panel LED and Buttons 20 ........................................................................

2-4 RoT LEDs 21 .......................................................................................................

2-5 Rear System LAN LEDs 23 .................................................................................

2-6 Power Supply Unit LED 24 ..................................................................................

2-7 Hard Disk Drive LEDs 25 ....................................................................................

Chapter 3 System Hardware Installation 26 ......................................................................

3-1 Installing the Hard Disk Drive 27 .........................................................................

3-2 Removing the Node 28 .......................................................................................

3-3 Removing Chassis Cover 29 ...............................................................................

3-4 Removing and Installing the Fan Duct 30 ...........................................................

3-5 Removing and Installing the Heatsink 31 ............................................................

3-6 Removing and Installing the CPU 34 ..................................................................

3-7 Installing Memory 36 ...........................................................................................

3-7-1 Twelves Channel Memory Conguration ................................................................36

3-7-2 Installing the Memory 37 ............................................................................................

3-7-3 Processor and Memory Module Matrix Table 37 .........................................................

3-7-4 Memory Population Table .......................................................................................38

3-8 Installing the PCI Expansion Card 40 .................................................................

3-9 Removing and Installing the Rear IO Card 42 ....................................................

3-10 Installing the Mezzanine Card 43 ........................................................................

3-10-1 Installing the OCP 3.0 Mezzanine Card 43 .................................................................

3-11 Replacing the Fan Assembly 44 ..........................................................................

3-12 Replacing the Power Supply 45 ..........................................................................

3-13 Cable Routing 46 ................................................................................................

Chapter 4 Motherboard Components 51 ...........................................................................

4-1 Motherboard Components 51 .............................................................................

4-2 Jumper Setting 52 ..............................................................................................

- 8 -

4-3 Backplane Board Storage Connector 53 .............................................................

4-3-1 CBPH081 ................................................................................................................53

Chapter 5 BIOS Setup 54 ..................................................................................................

5-1 The Main Menu 56 ..............................................................................................

5-2 Advanced Menu 59 .............................................................................................

5-2-1 Trusted Computing 61 .................................................................................................

5-2-2 PSP Firmware Versions 62 ..........................................................................................

5-2-3 Legacy Video Select 63 ...............................................................................................

5-2-4 AST2600 Super IO Conguration ...........................................................................64

5-2-5 S5 RTC Wake Settings 66 ...........................................................................................

5-2-6 Serial Port Console Redirection 67 .............................................................................

5-2-7 CPU Conguration ..................................................................................................71

5-2-8 PCI Subsystem Settings 72 .........................................................................................

5-2-9 USB Conguration ..................................................................................................74

5-2-10 Network Stack Conguration ..................................................................................76

5-2-11 NVMe Conguration ...............................................................................................77

5-2-12 SATA Conguration.................................................................................................78

5-2-13 Graphic Output Conguration .................................................................................79

5-2-14 AMD Mem Conguration Status .............................................................................80

5-2-15 Tls Auth Conguration ............................................................................................81

5-2-16 RAM Disk Conguration .........................................................................................82

5-2-17 iSCSI Conguration ................................................................................................83

5-2-18 Intel(R) I350 Gigabit Network Connection 84 ..............................................................

5-2-19 VLAN Conguration ................................................................................................86

5-2-20 MAC IPv4 Network Conguration ...........................................................................87

5-2-21 MAC IPv6 Network Conguration ...........................................................................88

5-3 AMD CBS Menu 89 .............................................................................................

5-3-1 CPU Common Options 90 ...........................................................................................

5-3-2 DF Common Options 96 ..............................................................................................

5-3-3 UMC Common Options 102 ........................................................................................

5-3-4 NBIO Common Options 122 ........................................................................................

5-3-5 FCH Common Options 132 .........................................................................................

5-3-6 NTB Common Options 141 .........................................................................................

5-3-7 SOC Miscellaneous Control 142 .................................................................................

5-3-8 Workload Tuning ...................................................................................................144

5-3-9 CXL Common Options 145 ..........................................................................................

5-4 AMD PBS Menu 146 ...........................................................................................

5-4-1 RAS ......................................................................................................................147

5-5 Chipset Setup Menu 149 .....................................................................................

5-5-1 North Bridge 150 .........................................................................................................

5-5-2 Fabric Resource 151 ...................................................................................................

- 9 -

5-6 Server Management Menu 153 ...........................................................................

5-6-1 System Event Log 155 ................................................................................................

5-6-2 View FRU Information 156 ..........................................................................................

5-6-3 BMC Network Conguration .................................................................................157

5-6-4 IPv6 BMC Network Conguration .........................................................................158

5-7 Security Menu 159 ..............................................................................................

5-7-1 Secure Boot 160 .........................................................................................................

5-8 Boot Menu 162 ....................................................................................................

5-9 Save & Exit Menu 164 .........................................................................................

5-10 BIOS Recovery 165 ............................................................................................

5-11 BIOS POST Beep code (AMI standard) 166 .......................................................

5-11-1 PEI Beep Codes 166 ...................................................................................................

5-11-2 DXE Beep Codes 166 .................................................................................................

- 10 -

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- 11 -

Hardware Installation

1-1 Installation Precautions

The motherboard/system contain numerous delicate electronic circuits and components which

can become damaged as a result of electrostatic discharge (ESD). Prior to installation, carefully

read the user manual and follow these procedures:

• Prior to installation, do not remove or break motherboard S/N (Serial Number) sticker or

warranty sticker provided by your dealer. These stickers are required for warranty validation.

• Always remove the AC power by unplugging the power cord from the power outlet before

installing or removing the motherboard or other hardware components.

• When connecting hardware components to the internal connectors on the motherboard,

make sure they are connected tightly and securely.

When handling the motherboard, avoid touching any metal leads or connectors.•

• It is best to wear an electrostatic discharge (ESD) wrist strap when handling electronic

components such as a motherboard, CPU or memory. If you do not have an ESD wrist

strap, keep your hands dry and rst touch a metal object to eliminate static electricity.

•

Prior to installing the motherboard, please have it on top of an antistatic pad or within an

electrostatic shielding container.

• Before unplugging the power supply cable from the motherboard, make sure the power

supply has been turned off.

• Before turning on the power, make sure the power supply voltage has been set according to

the local voltage standard.

• Before using the product, please verify that all cables and power connectors of your

hardware components are connected.

• To prevent damage to the motherboard, do not allow screws to come in contact with the

motherboard circuit or its components.

• Make sure there are no leftover screws or metal components placed on the motherboard or

within the computer casing.

Do not place the computer system on an uneven surface•

Do not place the computer system in a high-temperature environment.•

• Turning on the computer power during the installation process can lead to damage to

system components as well as physical harm to the user.

• If you are uncertain about any installation steps or have a problem related to the use of the

product, please consult a certied computer technician.

Chapter 1 Hardware Installation

Hardware Installation

- 12 -

1-2 Product Specications

System

Dimension

2U 4-Node - Rear access

440 (W) x 87.5 (H) x 877(D) mm

CPU AMD EPYC™ 9004 series processor family

Dual processors, 5nm technology

Up to 96-core, 192 threads per processor

Supports CPU 240W at ambient 30°C

Socket Per Node:

2 x LGA 6096

Total:

8 x LGA 6096

Socket SP5

Chipset System on Chip

Memory Per Node:

24 x DIMM slots

Total:

96 x DIMM slots

DDR5 memory supported only

12-Channel memory architecture

RDIMM modules up to 128GB supported

3DS RDIMM modules up to 256GB supported

Memory speed: Up to 4800 MHz

LAN Per Node:

2 x 1GbE LAN ports (1 x Intel® I350-AM2)

Supported NCSI function

1 x Dedicated management port

Total:

8 x 1GbE LAN ports (1 x Intel® I350-AM2)

Supported NCSI function

4 x Dedicated management ports

Video Integrated in Aspeed® AST2600

2D Video Graphic Adapter with PCIe bus interface

1920x1200@60Hz 32bpp, DDR4 SDRAM

Management chip on CMC board:

Integrated in Aspeed® AST2520A2-GP

NOTE:

We reserve the right to make any changes to the product specications and product-related

information without prior notice.

- 13 -

Hardware Installation

Storage Per node:

2 x 2.5" Gen4 NVMe/ SATA/ SAS hot-swappable bays

SAS card is required for SAS devices support

*1 x M.2 slot from CPU_0:

M-key

PCIe Gen4 x4

Supports NGFF-2280/22110 cards

Total:

8 x 2.5" Gen4 NVMe/ SATA/ SAS hot-swappable bays

SAS card is required for SAS devices support

*4 x M.2 slot from CPU_0:

M-key

PCIe Gen4 x4

Supports NGFF-2280/22110 cards

*Optional kit for M.2 extension riser card /PN: 9CMTP192NR-00

SAS Supported via add-on SAS Card

Expansion Slots Per node:

1 x Low prole half-length slots with PCIe x16 (Gen5 x16 bus), from CPU_0

1 x OCP 3.0 mezzanine slot with PCIe Gen5 x16 bandwidth, from CPU_0

Supported NCSI function

Total:

4 x Low prole half-length slots with PCIe x16 (Gen5 x16 bus) from CPU_0

4 x OCP 3.0 mezzanine slot with PCIe Gen5 x16 bandwidth, from CPU_0

Supported NCSI function

Hardware Installation

- 14 -

Internal I/O Per Node:

1 x TPM header

Front I/O Per node:

1 x Power button with LED

1 x ID button with LED

1 x Status LED

1 x System reset button

Total:

4 x Power button with LED

4 x ID button with LED

4 x Status LED

4 x System reset button

*1 x CMC status LED

*1 x CMC reset button

*Only one CMC status LED and reset button per system

Rear I/O Per node:

2 x USB 3.2 Gen1

1 x Mini-DP

2 x RJ45

1 x RJ45 MLAN

1 x Node Status LED

Total:

8 x USB 3.2 Gen1

4 x Mini-DP

8 x RJ45

4 x RJ45 MLAN

4 x Node Status LED

Backplane I/O Backplane P/N: 9CBPH081NR-00

PCIe Gen4 p14-x4 or SATA 6Gb/s or SAS 12Gb/s

TPM 1 x TPM header with SPI interface

Optional TPM2.0 kit: CTM010

Hardware Installation

- 15 -

Power Supply

(AAN1)

Dual 2600W (240V) 80 PLUS Titanium redundant power supply

AC Input:

100-127V~/ 13.8A, 50-60Hz

200-240V~/ 15A, 50-60Hz

DC Input:

240Vdc/ 15A

DC Output:

Max 1000W/ 100-127V~

+12.2V/ 81A

+12.2Vsb/ 4.5A

- Max 2600W/ 200-220V

+12.2V/ 213A

+12Vsb/ 4.5A

System power supply requires C19 type power cord

(AAW1) Dual 3000W (240V) 80 PLUS Titanium redundant power supply

AC Input:

100-127V~/ 16A, 50-60Hz

200-240V~/ 16A, 50-60Hz

DC Input:

240Vdc/ 16A

DC Output:

Max 1200W/ 100-127V~

+12.2V/ 98.36A

+12.2Vsb/ 3A

- Max 2600W/ 200-207V

+12.2V/ 213A

+12.2Vsb/ 3A

- Max 3000W/ 208-240V

+12.2V/ 245.9A

+12.2Vsb/ 3A

System power supply requires C19 type power cord

Hardware Installation

- 16 -

System

Management

Aspeed® AST2600 management controller

GIGABYTE Management Console (AMI MegaRAC SP-X) web interface

Dashboard

HTML5 KVM

Sensor Monitor (Voltage, RPM, Temperature, CPU Status …etc.)

Sensor Reading History Data

FRU Information

SEL Log in Linear Storage / Circular Storage Policy

Hardware Inventory

Fan Prole

System Firewall

Power Consumption

Power Control

LDAP / AD / RADIUS Support

Backup & Restore Conguration

Remote BIOS/BMC/CPLD Update

Event Log Filter

User Management

Media Redirection Settings

PAM Order Settings

SSL Settings

SMTP Settings

Operating

Properties

Operating temperature: 10°C to 35°C

Operating humidity: 8-80% (non-condensing)

Non-operating temperature: -40°C to 60°C

Non-operating humidity: 20%-95% (non-condensing)

- 17 -

Hardware Installation

1-3 System Block Diagram

• Please Go to Chapter 4 Motherboard Components for Riser Slot information.

MDI

Rear IO board

MCIO 4i

PCIe3.0 x2

MDI

2 x 1G LAN

COM

PCIe5.0 x16

2 x USB3.2 Gen1

Mini-DP

RGMII

Mini-DP

MDI MLAN

RTL8365MB

LAN Hub

NCSI

Switch

BMC

ASPEED

AST2600

Intel

I350-AM2

SPI

PCIe2.0 x1

USB2.0 x1

TPM

USB Hub

12-Channel DDR5, 12 x DIMMs

Speed up to 4800 MHz

12-Channel DDR5, 12 x DIMMs

Speed up to 4800 MHz

xGMI3 32GT/s

4 p17-x16 GOP

PCIe5.0 p17-x16 LP slot

Riser CRSH01R

PCIe4.0 x4

PCIe4.0 x8

PCIe5.0 x16

SATAIII x6

SATAIII x2

OCP 3.0

CPU0

AMD EPYC™ 9004

Socket SP5

CPU1

AMD EPYC™ 9004

Socket SP5

USB3.2 Gen1

2-bay 2.5” NVMe/SATA per node

Riser CMTP192 (option)

M.2

To CMC

LAN Hub

- 18 -

System Appearance

Chapter 2 System Appearance

2-1 Front View

• Please Go to Chapter and Buttons for detail description of function 2-3 Front Panel LED

LEDs.

1 1

HDD 0

HDD 1

HDD 6

HDD 7

HDD 12

HDD 13

HDD 18

HDD 19

1 1

No. Decription

1. Front Panel LEDs and buttons

NOTE! Drives with green latches support NVMe.

System Appearance

- 19 -

2-2 Rear View

No. Decription

1. PCIe Slot

2. Node System Status LED

3. Mini DP Port

4. 2 x USB 3.2 Gen1

5. GbE LAN Port x 2

6. BMC Server Management LAN Port

7. OCP 3.0 Slot (SFF Type)

7 23456 1

SL 2OT

SL 1OT

- 20 -

System Appearance

2-3 Front Panel LED and Buttons

No. Name Color Status Description

1. System Status

LED(Note)

This LED represents the RoT function LED behavior.

Please see the following section for detail LED behavior.

2. Reset Button -- Press this button to reset the system.--

3. Power button

with LED

Green On System is powered on

Green Blink System is in ACPI S1 state (sleep mode)

N/A Off

• System is not powered on or in ACPI S5 state (power

off)

• System is in ACPI S4 state (hibernate mode)

4. ID Button with

LED(Note)

This LED represents the RoT function LED behavior.

Please see the following section for detail LED behavior.

5. Enclosure

Green On System is operating normally.

Amber

Critical condition, may indicates:

Power module failure

System fan failure

Power supply voltage issue

System temperature

Blink

Non-critical condition, may indicates:

Redundant power module failure

Temperature and voltage issue

6. CMC

Reset Button -- Press this button to reset the CMC.--

NODE1

RST

NODE2

RST

NODE3

RST

NODE4

RST

1 1

3 4

(Note) If your server features RoT function, please see the following section for detail LED behavior.

System Appearance

- 21 -

2-4 RoT LEDs

NODE1

RST

NODE2

RST

NODE3

RST

NODE4

RST

Status LE

ID LED

Status LED

ID LED

LED on Front panel(Note5)

ID LED Status LED

EC Firmware (FW) Authentication fail or not exit

EC FW is broken or not exit (Note1) OFF OFF

Authenticating/Recovering BMC/BIOS Images

Authenticating Images OFF OFF

Recovering BMC Active Flash Blinks Blue

4 times per second

Blinks Green

4 times per second

Recovering BIOS Active Flash Blinks Blue

4 times per second

Blinks Amber

4 times per second

Authentication (AUTH) Pass

Recovering BIOS Active Flash OFF OFF

BMC : AUTH pass after doing recovery

BIOS : AUTH pass after doing recovery OFF OFF

BMC : AUTH pass after doing recovery

BIOS : AUTH pass OFF OFF

BMC : AUTH pass

BIOS : AUTH pass after doing recovery OFF OFF

Active Flash Authentication (AUTH) Fail

BMC : AUTH Fail(Note2) Blinks Blue

1 time per second

Blinks Green

1 time per second

BIOS : AUTH fail(Note2) Blinks Blue

1 time per second

Blinks Amber

1 time per second

- 22 -

System Appearance

BMC : AUTH fail after doing recovery(Note3)

Blinks Blue

2 times per second

[ON OFF OFF]

Blinks Green

2 times per second

[ON OFF OFF]

BIOS : AUTH fail after doing recovery(Note3)

Blinks Blue

2 times per second

[ON OFF OFF]

Blinks Amber

2 times per second

[ON OFF OFF]

Backup Flash Authentication Fail(Note4)

BMC : AUTH fail

Blinks Blue

2 times per second

[ON OFF ON OFF]

Blinks Green

2 times per second

[ON OFF ON OFF]

BIOS : AUTH fail

Blinks Blue

2 times per second

[ON OFF ON OFF]

Blinks Amber

2 times per second

[ON OFF ON OFF]

NOTE!

1. EC FW is broken or not exited result in Microchip CEC1702 cannot load EC FW for authentication.

2 (1) Authentication fail include below scenarios

Conguration table is missing or modied

Public key is missing or modied

Protected area or signature is modied

Flash empty

3. if active ash is still authentication failed after recovery sequence, Microchip CEC1702 stop the process

and showing LED behavior.

4. If backup flash authentication is failed cause by configuration table, public key or protected area is

broken. Microchip CEC1702 stop the process and showing LED behavior.

5. Front panel LED is controlled by BMC or Microchip CEC1702. Once Microchip CEC1702 is working(Auth

or recovery), the front panel LED is controlled by Microchip CEC1702 and vice versa.

System Appearance

- 23 -

2-5 Rear System LAN LEDs

No. Name Color Status Description

1. 1GbE

Speed LED

Yellow On 1Gbps data rate

Green On 100 Mbps data rate

N/A Off 10 Mbps data rate

1GbE

Link/

Activity LED

Green

On Link between system and

network or no access

Blink Data transmission or receiving is occurring

N/A Off No data transmission or receiving is occurring

1 21 2 21

- 25 -

System Appearance

2-7 Hard Disk Drive LEDs

/(' /('

NOTE:

*1: Depends on HBA/Utility Spec.

*2: Blink cycle depends on HDD's activity signal.

*3: If HDD is pulled out during rebuilding, the disk status of this HDD is regarded as faulty.

Disk LED

(LED on

Back Panel)

Removed HDD Slot

(LED on Back Panel)

Disk LED

Removed HDD Slot

RAID SKU

No RAID configuration

(via HBA)

RAID configuration

(via HW RAID Card or

SW RAID Card)

HDD

Access

HDD Present

(No Access)

BLINK (*2)

OFF

(Low Speed: 2 Hz)

(*3)

Rebuilding

HDD Fault

OFF

Locate

Amber

Green ON(*1)

OFF

ON(*1)

OFF

Green

Amber

Green

ON(*1)Green

OFFAmber

Amber OFF

LED1

LED 2 HDD Present No HDD

Green ON OFF

- 26 -

System Hardware Installation

Pre-installation Instructions

Computer components and electronic circuit boards can be damaged electrostatic discharge.

Working on computers that are still connected to a power supply can be extremely

dangerous. Follow the simple guidelines below to avoid damage to your computer or injury to

yourself.

• Always disconnect the computer from the power outlet whenever you are working inside the

computer case.

• If possible, wear a grounded wrist strap when you are working inside the computer case.

Alternatively, discharge any static electricity by touching the bare metal system of the computer

case, or the bare metal body of any other grounded appliance.

• Hold electronic circuit boards by the edges only. Do not touch the components on the board

unless it is necessary to do so. Do not ex or stress the circuit board.

• Leave all components inside the static-proof packaging until you are ready to use the component

for the installation.

Chapter 3 System Hardware Installation

System Hardware Installation

- 27 -

3-1 Installing the Hard Disk Drive

Read the following guidelines before you begin to install the Hard disk drive:

• Take note of the drive tray orientation before sliding it out.

• The tray will not t back into the bay if inserted incorrectly.

• Make sure that the HDD is connected to the HDD connector on the backplane.

Follow these instructions to install the Hard disk drive:

1. Press the release button.

2. Extend the locking lever.

3. Pull the locking lever to remove the HDD tray.

4. Align the hard disk drive with the positioning stud on the HDD tray.

5. Slide hard disk drive into the blank HDD tray.

6. Reinsert the HDD tray into the slot and close the locking lever.

Press

Pull

- 28 -

System Hardware Installation

3-2 Removing the Node

Follow these instructions to remove a node:

1. Press the release latch while simultaneously pushing down the tray handle for the node.

2. Pull the node out of the system.

3. To install the node, push the node back into the system.

Read the following guidelines before you begin to replace a node:

• To make sure the system operates normally, please power off only the node that will be

replaced or recongured.

System Hardware Installation

- 29 -

3-3 Removing Chassis Cover

Before you remove or install the system cover

• Make sure the system is not turned on or connected to AC power.

Follow these instructions to remove the system cover:

1. Loosen and remove the six screws securing the back cover.

2. Slide the cover to the rear of the system and remove the cover in the direction of the arrow.

- 30 -

System Hardware Installation

3-4 Removing and Installing the Fan Duct

Follow these instructions to remove/install the fan duct:

1. Remove the two screws securing the fan ducts.

2. Lift up to remove the fan ducts

3. To install the fan duct, align the fan duct with the guiding groove. Push down the fan duct into

chassis until its rmly seats, then install the four screws to secure the fan ducts in place.

System Hardware Installation

- 31 -

3-5 Removing and Installing the Heatsink

Read the following guidelines before you begin to install the heatsink:

• Always turn off the computer and unplug the power cord from the power outlet before

installing the heatsink to prevent hardware damage.

• Unplug all cables from the power outlets.

• Disconnect all telecommunication cables from their ports.

• Place the system unit on a at and stable surface.

• Open the system according to the instructions.

WARNING!

Failure to properly turn off the server before you start installing components may cause seri-

ous damage. Do not attempt the procedures described in the following sections unless you

are a qualied service technician.

Follow these instructions to remove the heatsink:

1. Loosen the four captive screws securing the heatsink to the system.

2. Lift and remove the heatsink.

WARNING!

CPU0 and CPU1 use different CPU heatsinks. See the following images for

using the correct heatsink.

Failure to observe the warning could result in damage to the equipment.

• Lock the CPU by using a Torx T20 screwdriver to tighten screw.

• When installing the heatsink to CPU, use a Torx T20 screwdriver to tighten 6 captive nuts in

sequence as 1-6.

• The screw tightening torque: 13.5 ± 0.5 kgf-cm.

• To ensure the system operates properly, make sure the heatsink is seated on the processor

rmly.

- 32 -

System Hardware Installation

CPU1 Heatsink:

CPU0 Heatsink:

- 33 -

System Hardware Installation

To install the heatsink, reverse the steps above while ensuring that you tighten the captive screws in

sequential order (1g2g3g4g5g6) as seen in the image below.

CPU0 Heatsink

CPU1 Heatsink:

• Lock the CPU by using a Torx T20 screwdriver to tighten screw.

• When installing the heatsink to CPU, use a Torx T20 screwdriver to tighten 6 captive nuts in

sequence as 1-6.

• The screw tightening torque: 13.5 ± 0.5 kgf-cm.

• To ensure the system operates properly, make sure the heatsink is seated on the processor

rmly.

System Hardware Installation

- 34 -

3-6 Removing and Installing the CPU

Read the following guidelines before you begin to install the CPU:

• Make sure that the motherboard supports the CPU.

• Always turn off the computer and unplug the power cord from the power outlet before

installing the CPU to prevent hardware damage.

• Unplug all cables from the power outlets.

• Disconnect all telecommunication cables from their ports.

• Place the system unit on a at and stable surface.

• Open the system according to the instructions.

WARNING!

Failure to properly turn o󰀨 the server before you start installing components may

cause serious damage. Do not attempt the procedures described in the following

sections unless you are a qualied service technician.

Follow these instructions to install the CPU:

1. Loosen the three captive screws securing the CPU cover.

2. Flip open the CPU cover.

3. Remove the CPU carrier from the CPU frame using the handle on the CPU carrier.

4. Using the handle on the CPU carrier insert the new CPU carrier with CPU installed into the CPU

frame.

NOTE: Ensure the CPU is installed in the CPU carrier in the correct orientation, with the triangle

on the CPU aligned to the top left corner of the CPU carrier.

5. Flip the CPU frame with CPU installed into place in the CPU socket.

6. Flip the CPU cover into place over the CPU socket.

7. Tighten the CPU cover screw to secure the CPU cover in place.

8. Repeat steps 1-7 for the second CPU.

9. To remove the CPUs, follow steps 1-7 in reverse order.

Ext pernal ca

System Hardware Installation

- 35 -

• Lock the CPU by using a Torx T20 screwdriver to tighten screw.

• When installing the heatsink to CPU, use a Torx T20 screwdriver to tighten 6 captive nuts in

sequence as 1-6.

• The screw tightening torque: 13.5 ± 0.5 kgf-cm.

• To ensure the system operates properly, make sure the heatsink is seated on the processor

rmly.

CPU

- 36 -

System Hardware Installation

3-7 Installing Memory

3-7-1 Twelves Channel Memory Conguration

This motherboard provides 24 DDR5 memory sockets and supports Eight Channel Technology. After the

memory is installed, the BIOS will automatically detect the specifications and capacity of the memory.

Enabling eight Channel memory mode will be eight times of the original memory bandwidth.

Read the following guidelines before you begin to install the memory:

• Make sure that the motherboard supports the memory. It is recommended that memory of

the same capacity, brand, speed, and chips be used.

• Always turn off the computer and unplug the power cord from the power outlet before

installing the memory to prevent hardware damage.

• Memory modules have a foolproof design. A memory module can be installed in only one

direction. If you are unable to insert the memory, switch the direction.

CPU0 CPU1

DIMM_P0_B0

DIMM_P0_C0

DIMM_P0_D0

DIMM_P0_E0

DIMM_P0_F0

DIMM_P0_A0 DIMM_P1_T0

DIMM_P1_U0

DIMM_P1_V0

DIMM_P1_W0

DIMM_P1_X0

DIMM_P1_S0

DIMM_P1_Q0

DIMM_P1_P0

DIMM_P1_O0

DIMM_P1_N0

DIMM_P1_M0

DIMM_P1_R0

DIMM_P0_K0

DIMM_P0_J0

DIMM_P0_I0

DIMM_P0_H0

DIMM_P0_G0

DIMM_P0_L0

System Hardware Installation

- 37 -

3-7-2 Installing the Memory

3-7-3 Processor and Memory Module Matrix Table

4 DIMM

Memory Q’ty

for each CPU

CPU1

1 DIMM

2 DIMM

6 DIMM

8 DIMM

12 DIMM

R0 M0P0 O0 S0 T0Q0 N0 U0 V0 W0 X0

10 DIMM

CPU0

F0 A0D0 C0 G0 H0E0 I0B0 J0 K0 L0

VV V

VV V VV V

VV VV V VV V

V V VV VV V VV V

VV V

VV V VV V

VV VV V VV V

V V VV VV V VV V

Before installing a memory module, make sure to turn off the computer and unplug the power

cord from the power outlet to prevent damage to the memory module.

Be sure to install DDR4 DIMMs on this motherboard.

Follow these instructions to install the Memory:

1. Insert the DIMM memory module vertically into the DIMM slot, and push it down.

2. Close the plastic clip at both edges of the DIMM slots to lock the DIMM module.

3. Reverse the installation steps when you want to remove the DIMM module.

- 38 -

System Hardware Installation

3-7-4 Memory Population Table

EPYC Memory Speed based on DIMM Population (One DIMM per Channel)

DIMM

Type

DIMM Population Max EPYC 9004

DDR5 Frequency (MT/s)

DIMM 0

RDIMM

1R (1 Rank) 4800

2R (2 Ranks) 4800

3DS RDIMM

2S2R (4 Ranks) 4800

2S4R (8 Ranks) 4800

2S8Rx4 (16 ranks) 4800

EPYC Memory Speed based on DIMM Population (Two DIMM per Channel)

14-layer 93mil high-Dk PCB stackup

DIMM

Type

DIMM Population Max EPYC 9004

DDR5 Frequency (MT/s)

DIMM 0 DIMM 1

RDIMM

-- 1R 4800

1R 1R 4000

-- 2R 4400

1R 2R 3600

2R 2R 3600

3DS

-- 2S2R (4 Ranks) 4400

-- 2S4R (8 Ranks) 4400

-- 2S8R (16 Ranks) 4400

2S2R (4 Ranks) 2S2R (4 Ranks) 3600

2S4R (8 Ranks) 2S4R (8 Ranks) 3600

2S8Rx4 (16 Ranks) 2S8Rx4 (16 Ranks) 3600

14-layer 74mil high-Dk PCB stackup/16-layer 93mil high-Dk PCB stackup

- 39 -

System Hardware Installation

DIMM

Type

DIMM Population Max EPYC 9004

DDR5 Frequency (MT/s)

DIMM 0 DIMM 1

RDIMM

-- 1R 4800

1R 1R 4400

-- 2R 4800

1R 2R 4000

2R 2R 4000

3DS

-- 2S2R (4 Ranks) 4800

-- 2S4R (8 Ranks) 4800

-- 2S8R (16 Ranks) 4800

2S2R (4 Ranks) 2S2R (4 Ranks) 4000

2S4R (8 Ranks) 2S4R (8 Ranks) 4000

2S8Rx4 (16 Ranks) 2S8Rx4 (16 Ranks) 4000

Note:

• When only one DIMM is used, it must be populated in memory slot DIMM1.

System Hardware Installation

- 40 -

3-8 Installing the PCI Expansion Card

• The PCI riser assembly does not include a riser card or any cabling as standard. To install

a PCI card, a riser card must be installed.

Follow these instructions to install the left PCI Expansion card:

1. Remove the three screws on the riser bracket to the system.

2. Lift up the riser bracket out of system.

3. Remove the screw securing the side bracket to the riser bracket.

4. Remove the side bracket

5. Align the PCIe card to the riser guide slot and push in the direction of the arrow until the PCI-E card

sits in the PCI card connector.

6. Secure the PCIecard with a screw.

7. Install the side bracket to the riser bracket.

8. Secure the side bracket to the riser bracket with a screw.

9. Reverse steps 1 - 2 to install the riser bracket back into the system.

- 41 -

System Hardware Installation

- 42 -

System Hardware Installation

3-9 Removing and Installing the Rear IO Card

Follow these instructions to install the Rear IO card:

1. Remove the three screws securing the Rear IO card to the system.

2. Lift up the Rear IO card out of system.

3. Reverse steps 1 - 2 to install the Rear IO card back into the system.

System Hardware Installation

- 43 -

3-10 Installing the Mezzanine Card

3-10-1 Installing the OCP 3.0 Mezzanine Card

Use of the following type of OCP 3.0 NIC is recommended:

• OCP 3.0 SFF with pull tab

• OCP 3.0 SFF with ejector latch

Follow these instructions to install an OCP 3.0 Mezzanine card:

1. Remove the one screw securing the OCP 3.0 card slot cover.

2. Remove the slot cover from the system.

3. Insert the OCP 3.0 card into the card slot ensuring that the card is rmly connected to the connector

on the motherboard.

4. Tighten the thumbnail screw to secure the OCP 3.0 card in place.

5. Reverse steps 3-4 to replace the OCP 3.0 card.

- 44 -

System Hardware Installation

3-11 Replacing the Fan Assembly

Follow these instructions to replace the fan assembly:

1. Lift up the fan assembly from the chassis.

2. Reverse the previous steps to install the replacement fan assembly.

• Voltages can be present within the server whenever an AC power source is connected. This

voltage is present even when the main power switch is in the off position. Ensure that the

system is powered-down and all power sources have been disconnected from the server

prior to replacing a system fan.

Failure to observe these warnings could result in personal injury or damage to equipment.

System Hardware Installation

- 45 -

3-12 Replacing the Power Supply

Follow these instructions to replace the power supply:

1. Pull up the power supply handle and press the retaining clip on the right side of the power supply

along the direction of the arrow. At the same time, pull out the power supply by using its handle.

2. Insert the replacement power supply rmly into the chassis. Connect the AC power cord to the

replacement power supply.

System Hardware Installation

- 46 -

3-13 Cable Routing

AFront Panel LEDs and Buttons Cable

Motherboard: FP_1

Front IO Board: FP_1

A A

System Hardware Installation

- 47 -

ATop Middle Board to HDD Back Plane

Board Cable (SATA1)

Middle Board: SATA1

F/ HDD Board: N1 SATA

BTop Middle Board to HDD Back Plane

Board Cable (SATA3)

Middle Board: SATA3

F/ HDD Board: N3 SATA

CBottom Middle Board to HDD Back

Plane Board Cable (SATA2)

Middle Board: SATA2

F/ HDD Board: N2 SATA

DBottom Middle Board to HDD Back

Plane Board Cable (SATA4)

Middle Board: SATA4

F/ HDD Board: N4 SATA

System Hardware Installation

- 48 -

ATop Middle Board to HDD Back Plane

Board Cable (NVMe/Node1)

Middle Board: N1_U2_A

F/ HDD Board: N1 U.2 A

BTop Middle Board to HDD Back Plane

Board Cable (NVMe/Node3)

Middle Board: N3_U2_A

F/ HDD Board: N3 U.2 A

CBottom Middle Board to HDD Back

Plane Board Cable (NVMe/Node2)

Middle Board: N2 U.2 A

F/ HDD Board: N2 U.2 A

DBottom Middle Board to HDD Back

Plane Board Cable (NVMe/Node4)

Middle Board: N4_U2_A

F/ HDD Board: N4 U.2 A

System Hardware Installation

- 49 -

AOn board SATA Cable

Motherboard: MCIO_SATA

Motherboard: SATA0

A A

- 51 -

Motherboard Components

Chapter 4 Motherboard Components

4-1 Motherboard Components

CPU0 CPU1

234

5 6 7 8 9 10 11

151617

Item Description

1OCP 3.0 Connector (PCIe Gen5 x16)

2Proprietary PCIe Slot (Gen 5/ x16 slot/ GENZ_2)

3 Rear IO Card (MLAN/GbE LAN/USB/Mini DP Port)

4 BMC Readiness LED

5 Serial Port Cable Connector

6 PSOUT Connector

7 Proprietary PCIe Slot (Gen 5/ p51-x10 slot/ GENZ_3)

8 BMC Flash ROM #2

9 BMC Flash ROM #1

10 SlimLine SAS Connector (SATA0/SATA Signal)

11 SlimLine SAS Connector (MCIO_SATA/SATA Signal Input)

12 PCIe/SATA Connector

13 PCIe Connector

14 Powe Connector

15 TPM Module Connector

16 System Battery

17 Proprietary PCIe Slot (Gen 5/ x16 slot/ GENZ_1)

Motherboard Components

- 52 -

4-2 Jumper Setting

CPU0 CPU1

1 2 3

Clear CMOS

CLR_CMS

Default Enable

BIOS Defined

Reserved

OFF

HSB_SEL

BIOS_PWD

BIOS_RCVR4

Clear supervisor password

BIOS recovery mode Normal [Default]

Normal [Default]

-

21',3

   

- 53 -

Motherboard Components

4-3 Backplane Board Storage Connector

4-3-1 CBPH081

12345

6 7 8 9

Item Description

1 SlimLine SAS Connector (N1 U.2 A)

2 SlimLine SAS Connector (N2 U.2 A)

3 SlimLine SAS Connector (N3 U.2 A)

4 SlimLine SAS Connector (N4 U.2 A)

5 Proprietary PCIe Slot (x8 slot/ GF_HDD1)

6 SlimLine SAS Connector (N4 SATA)

7 SlimLine SAS Connector (N3 SATA)

8 SlimLine SAS Connector (N2 SATA)

9 SlimLine SAS Connector (N1 SATA)

BIOS Setup

- 55 -

 Main

This setup page includes all the items of the standard compatible BIOS.

 Advanced

This setup page includes all the items of AMI BIOS special enhanced features.

(ex: Auto detect fan and temperature status, automatically congure hard disk parameters.)

 AMD CBS

This setup page includes the common items for conguration of AMD motherboard-related information.

 AMD PBS Option

This setup page includes the common items for conguration of AMD CPM RAS related settings.

 Chipset

This setup page includes all the submenu options for conguring the functions of the North Bridge.

 Server Management

Server additional features enabled/disabled setup menus.

 Security

Change, set, or disable supervisor and user password. Conguration supervisor password allows you to

restrict access to the system and BIOS Setup.

A supervisor password allows you to make changes in BIOS Setup.

A user password only allows you to view the BIOS settings but not to make changes.

 Boot

This setup page provides items for conguration of the boot sequence.

 Save & Exit

Save all the changes made in the BIOS Setup program to the CMOS and exit BIOS Setup. (Pressing

<F10> can also carry out this task.)

Abandon all changes and the previous settings remain in effect. Pressing <Y> to the confirmation

message will exit BIOS Setup. (Pressing <Esc> can also carry out this task.)

BIOS Setup

- 56 -

5-1 The Main Menu

Once you enter the BIOS Setup program, the Main Menu (as shown below) appears on the screen. Use

arrow keys to move among the items and press <Enter> to accept or enter other sub-menu.

Main Menu Help

The on-screen description of a highlighted setup option is displayed on the bottom line of the Main Menu.

Submenu Help

While in a submenu, press <F1> to display a help screen (General Help) of function keys available for the

menu. Press <Esc> to exit the help screen. Help for each item is in the Item Help block on the right side of

the submenu.

• When the system is not stable as usual, select the item to set your system to Restore Defaults

its defaults.

• The BIOS Setup menus described in this chapter are for reference only and may differ by BIOS

version.

BIOS Setup

- 57 -

Parameter Description

BIOS Information

Project Name Displays the project name information.

Project Version Displays version number of the BIOS setup utility.

Build Date and Time Displays the date and time when the BIOS setup utility was created.

BMC Information(Note1)

BMC Firmware Version(Note1) Displays BMC rmware version information.

Processor Information

CPU Brand String/ CPU Speed /

Processor Core / Microcode Patch Displays the technical specications for the installed processor(s).

Total Memory(Note2) Displays the total memory size of the installed memory.

Memory SpeedNote2) Displays the frequency information of the installed memory.

VR Information Version Displays VR version information.

AGESA PI Version

PI Version Displays AGESA PI version information.

(Note1) Functions available on selected models.

(Note2) This section will display capacity and frequency information of the memory that the customer has

installed.

BIOS Setup

- 58 -

(Note) The number of LAN ports listed will depend on the motherboard / system model.

Parameter Description

Onboard LAN Information

LAN1 MAC Address(Note) Displays LAN MAC address information.

LAN2 MAC Address(Note) Displays LAN MAC address information.

System Date Sets the date following the weekday-month-day-year format.

System Time Sets the system time following the hour-minute-second format.

BIOS Setup

- 59 -

5-2 Advanced Menu

The Advanced Menu displays submenu options for conguring the function of various hardware components.

Select a submenu item, then press <Enter> to access the related submenu screen.

When Boot Mode Select is set to UEFI (Default)

BIOS Setup

- 60 -

When "Boot Mode Select" is set to Legacy in the Boot > Boot Mode Select section

BIOS Setup

- 61 -

5-2-1 Trusted Computing

Parameter Description

Conguration

Security Device Support

Enable/Disable BIOS support for security device. OS will not show

security device. TCG EFI protocol and INT1A interface will not be

available.

Options available: Disable, Enable. Default setting is .Enable

SPI TPM Support Select Enable to activate TPM support feature.

Options available: Disabled, Enabled. Default setting is .Disabled

BIOS Setup

- 62 -

5-2-2 PSP Firmware Versions

The PSP Firmware Versions page displays the basic PSP rmware version information. Items on this window

are non-congurable.

BIOS Setup

- 63 -

5-2-3 Legacy Video Select

Parameter Description

OnBrd/Ext VGA Select Selects between onboard or external VGA support.

Options available: Auto, Onboard, External. Default setting is .Auto

(Note) This congurable option will be displayed when "Boot Mode Select" Legacy Boot >is set to in the

Boot Mode Select section.

BIOS Setup

- 64 -

5-2-4 AST2600 Super IO Conguration

Parameter Description

AST2600 Super IO

Conguration

Super IO Chip Displays the super IO chip information

Serial Port 1

Conguration Press [Enter] for conguration of advanced items.

BIOS Setup

- 65 -

5-2-4-1 Serial Port 1 Conguration

Parameter Description

Serial Port 1 Conguration

Serial Port(Note)

Enable/Disable the Serial Port (COM). When set to Enabled allows you to

congure the Serial port 1 settings. When set to Disabled, displays no

conguration for the serial port.

Options available: Disabled, Enabled. Default setting is .Enabled

Devices Settings Displays the Serial Port 1 device settings.

Change Settings

Select an optimal settings for Super IO Device.

Options available for Serial Port 1:

Auto

IO=3F8h; IRQ=4;

IO=3F8h; IRQ=3, 4, 5, 6, 7, 9, 10, 11, 12;

IO=2F8h; IRQ=3, 4, 5, 6, 7, 9, 10, 11, 12;

IO=3E8h; IRQ=3, 4, 5, 6, 7, 9, 10, 11, 12;

IO=2E8h; IRQ=3, 4, 5, 6, 7, 9, 10, 11, 12;

Default setting is .Auto

(Note) Advanced items prompt when this item is dened.

BIOS Setup

- 66 -

5-2-5 S5 RTC Wake Settings

Parameter Description

Wake System from S5

Enable/Disable system wake on alarm event.

Options available: Disabled, Fixed Time, Dynamic Time. When Fixed Time

is selected, system will wake on the hr::min::sec specied. Default setting is

Disabled.

BIOS Setup

- 67 -

5-2-6 Serial Port Console Redirection

(Note) Advanced items prompt when this item is dened.

Parameter Description

COM1/Serial Over LAN

Console Redirection(Note)

Select whether to enable console redirection for specied device. Console

redirection enables the users to manage the system from a remote

location.

Options available: Enabled, Disabled. Default setting is .Disabled

COM1/Serial Over LAN

Console Redirection Settings

Press [Enter] to congure advanced items.

Please note that this item is congurable when COM1/Serial Over

LAN Console Redirection is set to Enabled.

Terminal Type

– Selects a terminal type to be used for console redirection.

– Options available: VT100, VT100+, ANSI, VT-UTF8. Default setting

is .ANSI

Bits per second

– Selects the transfer rate for console redirection.

– Options available: 9600, 19200, 38400, 57600, 115200. Default

setting is 115200.

Data Bits

– Selects the number of data bits used for console redirection.

– Options available: 7, 8. Default setting is .8

BIOS Setup

- 69 -

Parameter Description

Legacy Console Redirection

Settings

Press [Enter] to congure advanced items.

Redirection COM Port

– Selects a COM port for Legacy serial redirection.

– Default setting is .COM1/SOL

Resolution

– Selects the number of rows and columns used in Console

Redirection for legacy OS support.

– Options available: 80x24, 80x25. Default setting is .80x24

Redirect After POST

– When Bootloader is selected, then Legacy Console Redirection

is disabled before booting to legacy OS. When Always Enable is

selected, then Legacy Console Redirection is enabled for legacy

OS.

– Options available: Always Enable, BootLoader. Default setting is

Always Enable.

Serial Port for Out-of-Band

Management / Windows

Emergency Management

Services (EMS) Console

Redirection(Note)

EMS console redirection allows the user to congure Console Redirection

Settings to support Out-of-Band Serial Port management.

Options available: Disabled, Enabled. Default setting is .Disabled

Serial Port for Out-of-Band

EMS Console Redirection

Settings

Press [Enter] to congure advanced items.

Please note that this item is congurable when Serial Port for Out-of-

Band Management EMS Console Redirection is set to Enabled.

Out-of-Band Mgmt Port

– Microsoft Windows Emergency Management Service (EMS) allows

for remote management of a Windows Server OS through a serial

port.

– Default setting is .COM1/SOL

Terminal Type

– Selects a terminal type to be used for console redirection.

– Options available: VT100, VT100+, ANSI, VT-UTF8. Default setting

is .ANSI

Bits per second

– Selects the transfer rate for console redirection.

– Options available: 9600, 19200, 57600, 115200. Default setting is

115200.

(Note) Advanced items prompt when this item is dened.

BIOS Setup

- 70 -

Parameter Description

Serial Port for Out-of-Band

EMS Console Redirection

Settings(continued)

Flow Control

– Flow control can prevent data loss from buffer overow. When

sending data, if the receiving buffers are full, a 'stop' signal can

be sent to stop the data ow. Once the buffers are empty, a 'start'

signal can be sent to re-start the ow. Hardware ow control uses

two wires to send start/stop signals.

– Options available: None, Hardware RTS/CTS, Software Xon/Xoff.

Default setting is .None

BIOS Setup

- 72 -

5-2-8 PCI Subsystem Settings

BIOS Setup

- 75 -

Parameter Description

Device reset time-out

Selects the time-out value during a USB mass storage device reset.

Options available: 10 sec, 20 sec, 30 sec, 40 sec.

Default setting is .20 sec

Device power-up delay

Maximum time the device will take before it properly reports itself to the

Host Controller. "Auto" uses default value: for a Root port it is 100 ms, for a

Hub port the delay is taken from Hub descriptor.

Options available: Auto, Manual. Default setting is .Auto

Mass Storage Devices Displays the mass storage devices available on the system.

BIOS Setup

- 76 -

5-2-10 Network Stack Conguration

(Note) This item appears when is set to .Network Stack Enabled

Parameter Description

Network Stack Enable/Disable the UEFI network stack.

Options available: Enabled, Disabled. Default setting is .Enabled

Ipv4 PXE Support(Note) Enable/Disable the Ipv4 PXE feature.

Options available: Enabled, Disabled. Default setting is .Enabled

Ipv4 HTTP Support(Note) Enable/Disable the Ipv4 HTTP feature.

Options available: Enabled, Disabled. Default setting is .Disabled

Ipv6 PXE Support(Note) Enable/Disable the Ipv6 PXE feature.

Options available: Enabled, Disabled. Default setting is .Enabled

Ipv6 HTTP Support(Note) Enable/Disable the Ipv6 HTTP feature.

Options available: Enabled, Disabled. Default setting is .Disabled

PXE boot wait time(Note) Wait time in seconds to press ESC key to abort the PXE boot.

Press the <+> / <-> keys to increase or decrease the desired values.

Media detect count(Note) Number of times the presence of media will be checked.

Press the <+> / <-> keys to increase or decrease the desired values.

Termékspecifikációk

Márka:	Gigabyte
Kategória:	nincs kategorizálva
Modell:	H273-Z82

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