Gigabyte R182-Z91 User Manual

Displayed below is the user manual for R182-Z91 by Gigabyte which is a product in the Server Barebones category. This manual has pages.

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R182-Z90

R182-Z91

R182-Z92

MZ92-FS0 Motherboard With Dual Sockets for AMD EPYCTM 7002 Series Family Processors

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 the power cord from the power supply to disconnect power to the equipment.

• Do not route the power cord where it can be walked on or pinched by items placed against it.

Pay particular attention to the plug, electrical outlet, and the point where the cord extends from

the server.

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.

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/off: 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 discon-nect

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

damage 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

sensi-tive 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 n-gertips

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 ..................................................................................... 19

2-1 Front View ...................................................................................................... 19

2-1-1 R182-Z90 ................................................................................................................19

2-1-2 R182-Z91 / R182-Z92 .............................................................................................19

2-2 Rear View ....................................................................................................... 20

2-3 Front Panel LED and Buttons ........................................................................ 21

2-3-1 R182-Z90 ................................................................................................................21

2-3-2 R182-Z91 / R182-Z92 .............................................................................................22

2-4 Rear System LAN LEDs ................................................................................. 23

2-5 Power Supply Unit (PSU) LED ....................................................................... 24

2-6 Hard Disk Drive LEDs .................................................................................... 25

Chapter 3 System Hardware Installation ......................................................................27

3-1 Removing Chassis Cover ............................................................................... 28

3-2 Removing and Installing the Fan Duct ........................................................... 29

3-3 Removing the Heat Sink ................................................................................ 30

3-4 Installing the CPU .......................................................................................... 31

3-5 Installing the Memory ..................................................................................... 33

3-5-1 Eight Channel Memory Conguration .....................................................................33

3-5-2 Installing a Memory ...............................................................................................34

3-5-3 DIMM Population Table ..........................................................................................34

3-6 Installing the PCI Expansion Card ................................................................. 36

3-7 Installing the Mezannine Card ........................................................................ 37

3-7-1 OCP 3.0 ..................................................................................................................37

3-7-2 OCP 2.0 ..................................................................................................................38

3-8 Installing the Hard Disk Drive ......................................................................... 39

3-8-1 R182-Z90 ................................................................................................................39

3-8-2 R182-Z91 / R182-Z92 .............................................................................................41

3-9 Installing the M.2 Device and Heat Sink ........................................................ 42

3-10 Replacing the Fan Assembly .......................................................................... 43

3-11 Replacing the Power Supply .......................................................................... 44

- 8 -

3-12 Cable Routing ................................................................................................ 45

3-12-1 Cable Routing for R182-Z90 ...................................................................................45

3-12-2 Cable Routing for R182-Z91 ...................................................................................48

3-12-3 Cable Routing for R182-Z92 ...................................................................................51

Chapter 4 Motherboard Components ...........................................................................57

4-1 Motherboard Components ............................................................................. 57

4-2 Jumper Setting .............................................................................................. 59

Chapter 5 BIOS Setup ..................................................................................................61

5-1 The Main Menu .............................................................................................. 63

5-2 Advanced Menu ............................................................................................. 66

5-2-1 Trusted Computing .................................................................................................67

5-2-2 PSP Firmware Versions .......................................................................................... 68

5-2-3 Legacy Video Select ...............................................................................................69

5-2-4 AST2500 Super IO Conguration ...........................................................................70

5-2-5 S5 RTC Wake Settings ...........................................................................................72

5-2-6 Serial Port Console Redirection .............................................................................73

5-2-7 CPU Conguration ..................................................................................................76

5-2-8 PCI Subsystem Settings .........................................................................................77

5-2-9 USB Conguration ..................................................................................................79

5-2-10 NVMe Conguration ...............................................................................................81

5-2-11 SATA Conguration.................................................................................................82

5-2-12 Network Stack Conguration ..................................................................................83

5-2-13 AMD Mem Conguration Status .............................................................................84

5-2-14 iSCSI Conguration ................................................................................................85

5-2-15 Tls Auth Conguration ............................................................................................86

5-2-16 Intel(R) I350 Gigabit Network Connection ..............................................................87

5-2-17 VLAN Conguration ................................................................................................89

5-2-18 MAC IPv4 Network Conguration ...........................................................................91

5-2-19 MAC IPv6 Network Conguration ...........................................................................92

5-3 AMD CBS Menu ............................................................................................. 93

5-3-1 Valhalla Common Options ......................................................................................94

5-3-2 DF Common Options ..............................................................................................97

5-3-3 UMC Common Options ........................................................................................100

5-3-4 NBIO Common Options ........................................................................................102

5-3-5 FCH Common Options .........................................................................................107

5-3-6 NTB Common Options .........................................................................................110

5-3-7 SOC Miscellaneous Control ................................................................................. 111

5-4 AMD PBS Option Menu ............................................................................... 112

5-4-1 RAS ......................................................................................................................113

- 9 -

5-5 Chipset Setup Menu ..................................................................................... 115

5-6 Server Management Menu ........................................................................... 116

5-6-1 System Event Log ................................................................................................118

5-6-2 View FRU Information ..........................................................................................119

5-6-3 BMC Network Conguration .................................................................................120

5-6-4 IPv6 BMC Network Conguration .........................................................................121

5-7 Security Menu .............................................................................................. 122

5-7-1 Secure Boot ..........................................................................................................123

5-8 Boot Menu .................................................................................................... 125

5-8-1 UEFI NETWORK Drive BBS Priorities .................................................................127

5-8-2 UEFI Application Boot Priorities ............................................................................128

5-9 Save & Exit Menu ......................................................................................... 129

5-10 ABL POST Codes ........................................................................................ 130

5-10-1 StartProcessorTestPoints .....................................................................................130

5-10-2 Memory test points ...............................................................................................130

5-10-3 PMU Test Points ...................................................................................................130

5-10-4 Original Post Code ...............................................................................................131

5-10-5 CPU test points .....................................................................................................132

5-10-6 Topology test points ..............................................................................................132

5-10-7 Extended memory test point .................................................................................132

5-10-8 Gnb Earlier init ......................................................................................................133

5-10-9 PMU test points ....................................................................................................136

5-10-10 ABL0 test points ...................................................................................................136

5-10-11 ABL5 test points ....................................................................... .........................136

5-11 Agesa POST Codes ..................................................................................... 140

5-11-1 Universal Post Code .............................................................................................140

5-11-2 [0xA1XX] For CZ only memory Postcodes ...........................................................140

5-11-3 S3 Interface Post Code ........................................................................................143

5-11-4 PMU Post Code ....................................................................................................143

5-11-5 [0xA5XX] assigned for AGESA PSP Module ........................................................143

5-11-6 [0xA9XX, 0xAAXX] assigned for AGESA NBIO Module .......................................146

5-11-7 [0xACXX] assigned for AGESA CCX Module .......................................................148

5-11-8 [0xADXX] assigned for AGESA DF Module ..........................................................149

5-11-9 [0xAFXX] assigned for AGESA FCH Module ........................................................149

5-12 BIOS POST Beep code (AMI standard) ....................................................... 151

5-12-1 PEI Beep Codes ...................................................................................................151

5-12-2 DXE Beep Codes .................................................................................................151

5-13 BIOS Recovery Instruction ........................................................................... 152

- 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 service guide 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

CPU AMDEPYCTM 7002 Series processor family

Dualprocessors,7nm,SocketSP3

Upto64-core,128threadsperprocessor

TDPupto225W

CompatiblewithAMDEPYC™7001seriesprocessorfamily

NOTE:IfonlyoneCPUisinstalled,somePCIeormemoryfunctionsmightbe

unavailable.

Chipset System-on-Chip

Memory 32xDIMMslots

DDR4memorysupportedonly

8-Channelmemoryperprocessorarchitecture

RDIMMmodulesupto64GBsupported

LRDIMMmodulesupto128GBsupported

Memoryspeed:Upto3200MHz(1DPC),2933MHz(2DPC)

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

1x10/100/1000managementLAN

ExpansionSlot R182-Z90

Riser Card CRS101E:

-1xPCIex16slot(Gen4x16),FHHL

Riser Card CRS101E:

-1xPCIex16slot(Gen4x16),FHHL

1xOCP3.0mezzanineslotwithPCIeGen4x16bandwidthfromCPU_0

SupportedNCSIfunction

1xOCP2.0mezzanineslotwithPCIeGen3x8bandwidth(Type1,P1,P2)

SupportedNCSIfunction

1xM.2slot:

-M-key

-PCIeGen3x4

-SupportsNGFF-2242/2260/2280/22110cards

-13- Hardware Installation

ExpansionSlot R182-Z91

Riser Card CRS101E:

-1xPCIex16slot(Gen4x16),FHHL

Riser Card CRS101E:

-1xPCIex16slot(Gen4x16),FHHL

1xOCP3.0mezzanineslotwithPCIeGen4x16bandwidthfromCPU_0

SupportedNCSIfunction

1xOCP2.0mezzanineslotwithPCIeGen3x8bandwidth(Type1,P1,P2)

SupportedNCSIfunction

1xM.2slot:

-M-key

-PCIeGen3x4

-SupportsNGFF-2242/2260/2280/22110cards

R182-Z92

RiserCardCRS101E:

-1xPCIex16slot(Gen4x16),FHHL



RiserCardCRS101E:

-1xPCIex16slot(Gen4x16),FHHL



1xOCP3.0mezzanineslotwithPCIeGen4x16bandwidthfromCPU_0

SupportedNCSIfunction



1xOCP2.0mezzanineslotwithPCIeGen3x8bandwidth(Type1,P1,P2)

SupportedNCSIfunction



1xM.2slot:

-M-key

-PCIeGen3x4

-SupportsNGFF-2242/2260/2280/22110cards

Video IntegratedinAspeed®AST2500

2DVideoGraphicAdapterwithPCIebusinterface

1920x1200@60Hz32bpp

Hardware Installation -14-

Storage R182-Z90

4x3.5"hot-swappableHDD/SSDbays

2.5"HDD/SSDsupported

NOTE:SAScardisrequiredforSASdevicessupport

R182-Z91

8x2.5"SATA/SAS

2x2.5"NVMehot-swappableHDD/SSDbays

NOTE:SAScardisrequiredforSASdevicessupport

R182-Z92

10x2.5"NVMehot-swappableSSDbays

SAS N/A

Internal

Connectors

1xM.2slot

1xUSB3.0header

1xCOMheader

1xTPMheader

1xFrontpanelheader

1xHDDbackplaneboardheader

1xPMBusconnector

1xIPMBconnector

1xClearCMOSjumper

1xBIOSrecoveryjumper

FrontPanel

LED/Buttons

2xUSB3.0

1xPowerbuttonwithLED

1xIDbuttonwithLED

1xNMIbutton

1xResetbutton

2xLANactivityLEDs

1xHDDactivityLED

1xSystemstatusLED

RearPanelI/O 2xUSB3.0

1xVGA

2xRJ45

1xMLAN

1xIDbuttonwithLED

BackplaneI/O BackplaneP/N:9CBP10A3NR-00

Speed and bandwidth:

SAS12Gb/s,SATA6Gb/s,PCIeGen3x4

TPM 1xTPMheaderwithLPCinterface

OptionalTPM2.0kit:CTM000

- 15 - Hardware Installation

System

Management

Aspeed®AST2500managementcontroller

AMIMegaRACSP-XSolutionwebinterface

Dashboard

JAVABasedSerialOverLAN

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

Power Supply 2x1200WredundantPSUs

80PLUSPlatinum

ACInput:

-100-240V~/12-7A,50-60Hz

DCInput:

-240Vdc/6A

DCOutput:

-Max1000W/100-240V~

+12V/80.5A

+12Vsb/3A

-Max1200W/200-240V~or240Vdcinput

+12V/97A

+12Vsb/3A

Environment

Ambient

Temperature

Relative

Humidity

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)

Hardware Installation -16-

System

Dimension

1U

438mm(W)x43.5mm(H)x730mm(D)

*Wereservetherighttomakeanychangestotheproductspecicationsandproduct-relatedinformationwithoutprior

notice.

- 17 - Hardware Installation

1-3 System Block Diagram

Hardware Installation -18-

- 19 - System Appearance

Chapter 2 System Appearance

2-1 Front View

2-1-1 R182-Z90

1 2

HDD0 HDD1 HDD2 HDD3

No. Description

1. Front USB 3.0 ports

2. Front Panel LEDs and buttons

2-1-2 R182-Z91 / R182-Z92

1 2

HDD0 HDD2 HDD4 HDD6 HDD8

HDD1 HDD3 HDD5 HDD7 HDD9

No. Description

1. Front USB 3.0 ports

2. Front Panel LEDs and buttons

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

LEDs.

System Appearance - 20 -

2-2 Rear View

78 6 45 3 2

PSU2 PSU1

No. Description

1. PCIecardslotx2

2. Mezzaninecardslot(Option/OCP3.0/SFF)

3. IDbuttonwithLED

4. 10/100/1000 Server management LAN port

5. GbELANportx2

6. USB3.0portx2

7. Mezzaninecardslot(Option/OCP2.0)

8. VGAport

- 21 - System Appearance

2-3 Front Panel LED and Buttons

2-3-1 R182-Z90

L2 SYS ID

RST

NMI

12 3 4 5 6 7 8

No. Name Color Status Description

1. NMIbutton -- --

PressthisbuttonfortheservertogenerateaNMItothe

processor.Ifmultiple-bitECCerrorsoccur,theserverwill

effectivelybehalted.

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

3/4.

LAN1/2

Active/

Link LED

Green On Indicatesa linkbetweenthesystem andthenetworkor

no access.

Green Blink Indicatesdatatrasmissionorreceivingisoccuring.

N/A Off Indicatesnodatatransmissionorreceivingisoccuring.

5. HDD Status

LED

Green On IndicateslocatingtheHDD.

Blink IndicatesaccessingtheHDD.

Amber On IndicatesHDDerror.

Green/

Amber Blink IndicatesHDDrebuilding.

N/A Off IndicatesnoHDDaccessornoHDDerror.

6. System

Status LED

Green On Indicatessystemisoperatingnormally.

Amber

Indicatesacriticalcondition,mayinclude:

-System fan failure

-System temperature

Blink

Indicatesnon-criticalcondition,mayinclude:

-Redundantpowermodulefailure

-Temperature and voltage issue

-Chassisintrusion

N/A Off

Indicatessystemisnotready,mayinclude:

-POST error

-NMIerror

-Processor or terminator is missing

7. IDButton Pressthebuttontoactivatesystemidentication

8. Powerbutton

withLED

Green On Indicatesthe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)

System Appearance - 22 -

2-3-2 R182-Z91 / R182-Z92

L1 L2

No. Name Color Status Description

1. Reset Button -- -- Pressthebuttontoresetthesystem.

2. NMIbutton -- --

PressthebuttonservergeneratesaNMItotheprocessor

ifthemultiple-bitECCerrorsoccur,whicheffectivelyhalt

theserver.

3. Powerbutton

withLED

Green On Indicatesthe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 Pressthebuttontoactivatesystemidentication

5. HDD Status

LED

Green On IndicateslocatingtheHDD.

Blink IndicatesaccessingtheHDD.

Amber On IndicatesHDDerror.

Green/

Amber Blink IndicatesHDDrebuilding.

N/A Off IndicatesnoHDDaccessornoHDDerror.

6. System

Status LED

Green On Indicatessystemisoperatingnormally.

Amber

Indicatesacriticalcondition,mayinclude:

-System fan failure

-System temperature

Blink

Indicatesnon-criticalcondition,mayinclude:

-Redundantpowermodulefailure

-Temperature and voltage issue

-Chassisintrusion

N/A Off

Indicatessystemisnotready,mayinclude:

-POST error

-NMIerror

-Processor or terminator is missing

7/8.

LAN 1/2

Active/Link

LEDs

Green On Indicatesalinkbetweenthesystemandthenetworkor

no access.

Green Blink Indicatesdatatrasmissionorreceivingisoccuring.

N/A Off Indicatesnodatatransmissionorreceivingisoccuring.

- 23 - System Appearance

2-4 Rear System LAN LEDs

No. Name Color Status Description

1. 1GbE

Speed LED

Yellow On 1Gbps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 2 1 221

System Appearance -24-

2-5 Power Supply Unit (PSU) LED

PSU LED

State Description

OFF IndicatesnoACpowertoallpowersupplies

0.5HzBlinkGREEN IndicatesACpresent/onlystandbyon/Coldredundantmode

2HzBlinkGREEN Indicatespowersupplyrmwareinupdatingmode

Amber

IndicatesACcordunpluggedorACpowerlost;witha

secondpowersupplyinparallelstillwithACinputpower

Indicatespowersupplycriticaleventcausingshutdown:

failure,OCP,OVP,FanFail,UVP

0.5HzBlinkAmber

Indicatespowersupplywarningeventswhere

thepowersupplycontinuestooperate:

hightemp,highpower,highcurrent,slowfan

-25- System Appearance

2-6 Hard Disk Drive LEDs

R182-Z90

/('

/('

R182-Z91 / R182-Z92

/('

/('

RAID SKU HDD Fault

Locate HDD

Access

HDD Present

(No Access)

No RAID configuration

(via HBA)

RAID configuration

(via HW RAID Card or

SW RAID Card)

Disk LED

(LED on

Back Panel)

Amber

Removed HDD Slot

(LED on Back Panel)

Disk LED

Removed HDD Slot

Green ON(*1) OFF BLINK (*2)

BLINK (*2)

OFF

ON(*1)

OFF

(Low Speed: 2 Hz)

(*3)

OFF

Green

Amber

Green

ON(*1) OFF --

Green

OFF OFF --

Amber

Amber OFF OFF

Rebuilding

OFF

LED1

LED 2 HDD Present No HDD

Green ON OFF

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.

System Appearance - 26 -

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- 27 - System Hardware Installation

Pre-installation Instructions

Computer components and electronic circuit boards can be damaged by discharges of static

electricity. 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 - 28 -

3-1 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 chassis cover:

1. Remove the screw securing the chassis cover.

2. Loosenthethumbscrewsecuringthechassiscover.

3. Push down the indentations located on the sides of the chassis cover.

4. Slide the cover cover to the rear of the system and then remove the cover in the direction indicated

by the arrow.

5. To reinstall the chassis cover reverse steps 1-4.

- 29 - System Hardware Installation

3-2 Removing and Installing the Fan Duct

Follow these instructions to remove/install the fan duct:

1. Liftuptoremovethetwofanducts

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

chassisuntilitsrmlyseats

System Hardware Installation - 30 -

3-3 Removing the Heat Sink

Follow these instructions to remove/install the fan duct:

1. Loosenthecaptivescrewssecuringtheheatsinkinplaceinreverseorder(4g3g2g1).

2. Liftandremovetheheatsinkfromthesystem.

3. To reinstall the heat sink reverse steps 1-2 while ensuring that you tighten the captive screws in

sequential order (1g2g3g4) as seen in the image below.

- 31 - System Hardware Installation

3-4 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 off 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insequentialorder(1g 2 g 3).

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screwsinsequentialorder(1g 2 g 3) to secure the CPU cover in place.

External cap

System Hardware Installation - 32 -

CPU

- 33 - System Hardware Installation

3-5 Installing the Memory

3-5-1 Eight Channel Memory Conguration

Thismotherboardprovides 32 DDR4memorysocketsand supports EightChannelTechnology.After the

memoryisinstalled,theBIOSwillautomaticallydetectthespecicationsandcapacityofthememory.

CPU1

CPU0

DIMM_P0_H1

DIMM_P0_H0

DIMM_P0_G1

DIMM_P0_G0

DIMM_P0_F1

DIMM_P0_F0

DIMM_P0_E1

DIMM_P0_E0

DIMM_P0_A0

DIMM_P0_A1

DIMM_P0_B0

DIMM_P0_B1

DIMM_P0_C0

DIMM_P0_C1

DIMM_P0_D0

DIMM_P0_D1

DIMM_P1_N0

DIMM_P1_N1

DIMM_P1_M0

DIMM_P1_M1

DIMM_P1_O0

DIMM_P1_O1

DIMM_P1_P0

DIMM_P1_P1

DIMM_P1_K1

DIMM_P1_K0

DIMM_P1_L1

DIMM_P1_L0

DIMM_P1_J1

DIMM_P1_J0

DIMM_P1_I1

DIMM_P1_I0

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.

System Hardware Installation - 34 -

3-5-2 Installing a Memory

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.

3-5-3 DIMM Population Table

RDIMM Maximum Frequency Supported Tablle

DIMMs

Populated

DIMM

2DR

3200

2933

1.2V

Frequency (MT/s)

- 35 - System Hardware Installation

LRDIMM Maximum Frequency Supported Table

4DR

DIMMs

Populated

DIMM

2S2R

2S4R

3200

2933

Not Supported

2933

1.2V

Frequency (MT/s)

3DS RDIMM Maximum Frequency Supported Table

DIMMs

Populated

DIMM

2S2R

2S4R

2933

2666

1.2V

Frequency (MT/s)

NOTE!

l 1R:1packagerankofSDPDRAMs

l 2R:2packagerankofSDPDRAMs

l 2DR:2packagerankofDDPDRAMs

l 4DR:4packagerankofDDPDRAMs

l 2S2R/2S4R/2S8R:2packagerankof2/4/8high3DSDRAMs

l DIMMmustbepopulatedinsequentialalphabeticorder,

 startingwithbankA.

l WhenonlyoneDIMMisused,itmustbepopulatedinmemoryslotA1.

System Hardware Installation - 36 -

3-6 Installing the PCI Expansion Card

• 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

installingaPCIcard.

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

• 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 PCI Expansion card:

1. Loosenthethumbscrewsecuringtheriserbrackettothesystem.

2. Liftuptheriserbracketoutofsystem.

3. Remove the screw securing the slot cover to the riser bracket.

4. Remove the slot covers from the riser bracket.

5. OrientthePCI-Ecardwith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PCI-Ecardwiththescrew.

7. Reverse the steps 3 - 1 to install the riser bracket.

- 37 - System Hardware Installation

3-7 Installing the Mezannine Card

3-7-1 OCP 3.0

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 two screws securing the mezzanine card slot cover.

2. Remove the slot cover from the system.

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

the connector on the motherboad.

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

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

System Hardware Installation - 38 -

3-7-2 OCP 2.0

Follow these instructions to install an OCP 2.0 mezzanine card:

1. Loosenthethumbscrewontheriserbracket

2. Liftuptheriserbracketoutofsystem.

3. Remove the screw securing the mezzanine card slot cover.

4. Remove the slot cover from the system..

5. InserttheOCP2.0mezzaninecardintothecompartmentensuringthatthecardisrmlyconnected

to the connector on the motherboad.

6. SecuretheOCP2.0mezzaninecardintothesystemwiththreescrews.

7. Reversesteps5-6toreplacetheOCP2.0mezzaninecard.

- 39 - System Hardware Installation

3-8 Installing the Hard Disk Drive

3-8-1 R182-Z90

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 a 3.5" hard disk drive:

1. Press the release button.

2. Extend the locking lever.

3. Pullthelockingleverinthedirectionindicatedtoremovethe3.5"HDDtray.

4. PullthesidesoftheHDDtrayinthedirectionindicated.

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

6. PushthesidesoftheHDDtraybackinthedirectionindicatedtosecuretheharddiskdriveinplace.

7. ReinserttheHDDtrayintotheslotandclosethelockinglever.

Press

Pull

System Hardware Installation - 40 -

- 41 - System Hardware Installation

3-8-2 R182-Z91 / R182-Z92

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 a 2.5" hard disk drive:

1. Press the release button.

2. Extend the locking lever.

3. Pullthelockingleverinthedirectionindicatedtoremovethe2.5"HDDtray.

4. Orienttheharddiskdrivesotheopeningontherearoftheharddiskdriveisalignedtothe

positioningstudontheHDDtray.

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

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

Press

Pull

System Hardware Installation - 42 -

3-9 Installing the M.2 Device and Heat Sink

WARNING:

InstallationofthethermalpadovertheM.2deviceisrequiredwheninstallinganM.2device.Lack

of the thermal pad may result in system overheat and throttle the system performance.

CAUTION

Thepositionofthestand-offscrewwilldependonthesizeoftheM.2device.Thestand-offscrew

ispre-installed for22110cards asstandard.Refer tothe sizeof theM.2device andchange the

position of the stand-off screw accordingly.

Follow these instructions to install the M.2 device and heat sink:

1. InserttheM.2deviceintotheM.2connector.

2. PressdownontheM.2device.

3. InstallthethermalpadoftheM.2devicetotheM.2device.

4. Press down on the thermal pad.

5. SecuretheM.2deviceanditsthermalpadtothemotherboardwithasinglescrew.

6. Reversesteps1-4toremovetheM.2device.

- 43 - System Hardware Installation

3-10 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.

System Hardware Installation - 44 -

3-11 Replacing the Power Supply

Follow these instructions to replace the power supply:

1. Press the retaining clip on the right side of the power supply along the direction of the arrow.

2. Pull up the power supply handle at the same time and pull out the power supply.

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

replacement power supply.

- 45 - System Hardware Installation

3-12 Cable Routing

3-12-1 Cable Routing for R182-Z90

Onboard SATA

HDD Backplane Board Signal

System Hardware Installation - 46 -

R182-Z90

HDD Backplane Board Power

Front Panel IO

- 47 - System Hardware Installation

R182-Z90

Front Panel USB

System Hardware Installation - 48 -

3-12-2 Cable Routing for R182-Z91

Onboard SATA

NVME

- 49 - System Hardware Installation

R182-Z91

HDD Backplane Board Signal

HDD Backplane Board Power

System Hardware Installation - 50 -

R182-Z91

Front Panel IO

Front Panel USB

- 51 - System Hardware Installation

3-12-3 Cable Routing for R182-Z92

NVMe Card #0 - #1

NVMe Card #2 - #3

Top

Boom

System Hardware Installation - 52 -

R182-Z92

NVMe Card #4 - #5

NVMe Card #6 - #7

TopBoom

Boom

Top

- 53 - System Hardware Installation

R182-Z92

NVMe Card #8 - #9

HDD Backplane Board Signal

System Hardware Installation - 54 -

R182-Z92

HDD Backplane Board Power

Front Panel IO

- 55 - System Hardware Installation

R182-Z92

Front Panel USB

System Hardware Installation - 56 -

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- 57 - Motherboard Components

Chapter 4 Motherboard Components

4-1 Motherboard Components

Item Description

1 HDD Back Plane Board Connector slot A1.

2 Front Panel USB 3.0 Connector

3Front Panel Connector

4 2 x 4 Pin P12V GPU Power Connector

5 2 x 4 Pin P12V GPU Power Connector

6IPMB Connector

7Serial Port Cable Connector

8 OCP Mezzanine Connector (OCP 3.0/SFF Type/Gen4 x16)

9BMC Firmware Readiness LED

10 TPM Module Connector (SPI Interface)

11 SlimLine SAS Connector (SLSAS_0/PCIe/SATA/Dened by SKUs)

11 12

18 19

21 22

15 16 17

CPU1

CPU0

DIMM_P0_H1

DIMM_P0_H0

DIMM_P0_G1

DIMM_P0_G0

DIMM_P0_F1

DIMM_P0_F0

DIMM_P0_E1

DIMM_P0_E0

DIMM_P0_A0

DIMM_P0_A1

DIMM_P0_B0

DIMM_P0_B1

DIMM_P0_C0

DIMM_P0_C1

DIMM_P0_D0

DIMM_P0_D1

DIMM_P1_N0

DIMM_P1_N1

DIMM_P1_M0

DIMM_P1_M1

DIMM_P1_O0

DIMM_P1_O1

DIMM_P1_P0

DIMM_P1_P1

DIMM_P1_K1

DIMM_P1_K0

DIMM_P1_L1

DIMM_P1_L0

DIMM_P1_J1

DIMM_P1_J0

DIMM_P1_I1

DIMM_P1_I0

Motherboard Components - 58 -

12 SlimLine SAS Connector (SLSAS_1/PCIe/SATA/Dened by SKUs)

13 System Battery

14 Riser Connector #1 (PCIe Gen4/x32 Slot)

15 M.2 Connector (PCIe3 x4, Supports NGFF-22110)

16 2 x 4 Pin P12V GPU Power Connector

17 2 x 3 Pin Rear Back Plane Board Power Connector

18 OCP Mezzanine Connector (OCP 2.0/Gen3 x8)

19 Riser Connector #2 (PCIe Gen4/x32 Slot)

20 Riser Connector #3 (PCIe Gen4/x16 Slot)

21 Power Supply Connector#1 (Primary)

22 Power Supply Connector#2 (Secondary)

23 SlimLine SAS Connector (SLSAS_2/PCIe/SATA/Dened by SKUs)

24 SlimLine SAS Connector (SLSAS_3/PCIe/SATA/Dened by SKUs)

25 2 x 7 Pin HDD Back Plane Board Power Connector

26 2 x 3 Pin HDD Back Plane Board 12V Power Connector

- 59 - Motherboard Components

4-2 Jumper Setting

-

21',3



BIOS recovery mode

Normal [Default]

BIOS Defined

Clear supervisor password

OFF

HOST_SMBUS_SEL

PMBUS_SEL

BIOS_PWD

BIOS_RCVR Normal [Default]

Clear CMOS

CLR_CMOS Enable

Default

NCSI Switch

Onboard LAN

OCP 2.0 Mezzanine

OCP 3.0 Mezzanine

SW1

OFF

SW2

OFF

- 61 - BIOS Setup

BIOS (Basic Input and Output System) records hardware parameters of the system in the EFI 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 conguration 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

conguration values in the CMOS.

To access the BIOS Setup program, press the <DEL> key during the POST when the power is turned on.

Chapter 5 BIOS Setup

• BIOS ashing is potentially risky, if you do not encounter problems of using the current BIOS

version, it is recommended that you don't ash the BIOS. To ash the BIOS, do it with caution.

Inadequate BIOS ashing may result in system malfunction.

• It is recommended that you not alter the default settings (unless you need to) to prevent system

instability or other unexpected results. Inadequately altering the settings may result in system's

failure to boot. If this occurs, try to clear the CMOS values and reset the board to default values.

(Refer to the Exit section in this chapter or introductions of the battery/clearing CMOS jumper in

Chapter 1 for how to clear the CMOS values.)

BIOS Setup Program Function Keys

<f><g> Move the selection bar to select the screen

<h><i> Move the selection bar to select an item

<+> Increase the numeric value or make changes

<-> Decrease the numeric value or make changes

<Enter> Execute command or enter the submenu

<Esc> Main Menu: Exit the BIOS Setup program

Submenus: Exit current submenu

<F1> Show descriptions of general help

<F3> Restore the previous BIOS settings for the current submenus

<F9> Load the Optimized BIOS default settings for the current submenus

<F10> Save all the changes and exit the BIOS Setup program

BIOS Setup - 62 -

 Main

This setup page includes all the items in 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 function of processor, network,

main chipset, and system event logs.

 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 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.)

- 63 - BIOS Setup

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 Restore Defaults item to set your system

to its defaults.

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

BIOS version.

BIOS Setup - 64 -

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

BMC Firmware Version Displays version number of the BIOS setup utility.

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

BMC Firmware Version Displays version number of the BIOS setup utility.

Processor Information

CPU 0 Brand String / CPU 1 Brand

String / CPU Speed / Processor

Core / Microcode Patch

Displays the technical information for the installed processor(s).

- 65 - BIOS Setup

Parameter Description

Total Memory(Note1) Displays the total memory size of the installed memory.

Memory Speed(Note1) 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.

Onboard LAN Information

LAN1 MAC Address(Note2) Displays LAN MAC address information.

LAN2 MAC Address(Note2) 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.

(Note1) The number of LAN ports listed will depend on the motherboard / system model.

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

installed.

BIOS Setup - 66 -

5-2 Advanced Menu

The Advanced menu display submenu options for conguring the function of various hardware components.

Select a submenu item, then press [Enter] to access the related submenu screen.

- 67 - BIOS Setup

Parameter Description

Conguration

Security Device Support Select Enable to activate TPM support feature.

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

SPI TPM Support Options available: Enabled/Disabled. Default setting is Enabled

5-2-1 Trusted Computing

BIOS Setup - 68 -

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.

- 69 - BIOS Setup

5-2-3 Legacy Video Select

Parameter Description

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

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

BIOS Setup - 70 -

5-2-4 AST2500 Super IO Conguration

Parameter Description

AST2500 Super IO Conguration

Super IO Chip Displays the super IO chip information.

- 71 - BIOS Setup

Parameter Description

Serial Port 1/2

Conguration

Press [Enter] to congure advanced items.

Serial Port(Note1):

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

you to congure the Serial port 1/2 settings. When set to Disabled,

displays no conguration for the serial port.

– Options available: Enabled/Disabled. Default setting is Enabled.

Devices Settings(Note2):

– Displays the serial port 1/2 device settings.

Change Settings(Note2):

– Select an optimal setting for the Super I/O 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.

Options available for Serial Port 2:

Auto

IO=2F8h; IRQ=3;

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.

(Note1) Advanced items will appear when this item is set to Enabled.

(Note2) This item will appear when Serial Port is set to Enabled.

BIOS Setup - 72 -

5-2-5 S5 RTC Wake Settings

Parameter Description

Wake system from S5

Enable or disable system wake on alarm event. Select Fixed Time, system

will wake on the time (HH:MM:SS) specied. Select Dynamic Time and the

system will wake at the current time plus an increase in minute(s).

Options available: Disabled/Fixed Time. Default setting is Disabled.

- 73 - BIOS Setup

5-2-6 Serial Port Console Redirection

(Note) Advanced items prompt when this item is set to Enabled.

Parameter Description

COM1/SOL / COM2 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.

Legacy Console Redirection Selects a COM port for Legacy serial redirection. The options are

dependent on the available COM ports.

Serial Port for Out-of-Band

Management / Windows

Emergency Management

Services (EMS) Console

Redirection(Note)

Selects a COM port for EMS console redirection. EMS console redirection

allows the user to congure Console Redirection Settings to support Out-of-

Band Serial Port management.

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

COM1/SOL / COM2 Console

Redirection Settings

Press [Enter] to congure advanced items.

Please note that this item is congurable when COM1/SOL / COM2

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.

BIOS Setup - 74 -

Parameter Description

COM1/SOL / COM2 Console

Redirection Settings

(continued)

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.

Parity

– A parity bit can be sent with the data bits to detect some

transmission errors.

– Even: parity bit is 0 if the num of 1's in the data bits is even.

– Odd: parity bit is 0 if num of 1's in the data bits is odd.

– Mark: parity bit is always 1. Space: Parity bit is always 0.

– Mark and Space Parity do not allow for error detection.

– Options available: None/Even/Odd/Mark/Space. Default setting is

None.

Stop Bits

– Stop bits indicate the end of a serial data packet. (A start bit

indicates the beginning). The standard setting is 1 stop bit.

Communication with slow devices may require more than 1 stop bit.

– Options available: 1/2. Default setting is 1.

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. Default setting is

None.

VT-UTF8 Combo Key Support

– Enable/Disable the VT-UTF8 Combo Key Support.

– Options available: Enabled/Disabled. Default setting is Enabled.

Recorder Mode(Note)

– When this mode enabled, only texts will be send. This is to capture

Terminal data.

– Options available: Enabled/Disabled. Default setting is Disabled.

Resolution 100x31(Note)

– Enable/Disable extended terminal resolution.

– Options available: Enabled/Disabled. Default setting is Enabled.

Putty KeyPad(Note)

– Selects FunctionKey and KeyPad on Putty.

– Options available: T100/LINUX/XTERMR6/SCO/ESCN/VT400.

– Default setting is VT100.

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

- 75 - BIOS Setup

Parameter Description

Legacy Console Redirection

Settings

Redirection COM Port

– Selects a COM port to display redirection of Legacy OS and Legacy

OPROM Messages.

– Options available: COM1/SOL / COM2. Default setting is COM1/

SOL.

Resolution

– On Legacy OS, the number of rows and columns supported in

redirection.

Options available: 80x24/80x25. Default setting is 80x24.

Redirection After BIOS POST

– This item allows user to enable console redirection after OS has

loaded.

– Options available: Always Enable/Boot Loader. Default setting is

Always Enable.

Serial Port for Out-of-Band

Management / Windows

Emergency Management

Services (EMS) Console

Redirection Settings

Out-of-Band Mgmt Port

– Selects a serial port to remotely manage a Windows server OS.

– Options available: COM1/SOL / COM2. 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 VT-UTF8.

Bits per second

– Selects the transfer rate for console redirection.

– Options available: 9600/19200/38400/57600/115200. Default setting

is 115200.

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. Default setting is

None.

BIOS Setup - 76 -

5-2-7 CPU Conguration

Parameter Description

CPU Conguration

SVM Mode Enable/disable the CPU Virtualization.

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

SMEE Controls the Secure Memory Encryption Enable (SMEE) function.

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

CPU 0 Information Press [Enter] to view more information related to CPU 0.

CPU 1 Information Press [Enter] to view more information related to CPU 1.

- 77 - BIOS Setup

5-2-8 PCI Subsystem Settings

Parameter Description

PCI Bus Driver Version Displays the PCI Bus Driver version information.

SLOT1_F / SLOT1_R / SLOT2_F /

SLOT2_R / SLOT3 / OCP1 / OCP2

Lanes(Note1)

Change the PCIe lanes.

Options available:

Auto / x16 / x8 x8 / x8 x4 x4 / x4 x4 x8 / x4 x4 x4 x4

(OCP2 Lanes only features Auto / x8 / x4 x4.)

Disabled. Default setting is Auto.

SLOT1_F / SLOT1_R / SLOT2_F /

SLOT2_R / SLOT3 / OCP1 / OCP2 I/O

ROM(Note1)

When enabled, this setting will initialize the device expansion

ROM for the related PCI-E slot.

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

Onboard LAN Controller(Note2) Enable/Disable the onboard LAN devices.

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

Onboard LAN I/O ROM(Note2)

Enable/Disable the onboard LAN devices and initializes device

expansion ROM.

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

PCI Devices Common Settings

Above 4G Decoding

Enable/Disable memory mapped I/O to 4GB or greater address

space (Above 4G Decoding).

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

(Note1) This section is dependent on the available PCIe Slot.

(Note2) This section is dependent on the available LAN controller.

BIOS Setup - 78 -

Parameter Description

SR-IOV Support

If the system has SR-IOV capable PCIe devices, this item Enable/

Disable Single Root IO Virtualization Support.

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

- 79 - BIOS Setup

5-2-9 USB Conguration

Parameter Description

USB Conguration

USB Module Version Displays the USB version.

USB Controllers Displays the supported USB controllers.

USB Devices Displays the USB devices connected to the system.

Legacy USB Support

Enable/disable the Legacy USB support fuction. AUTO option disables

legacy support if no USB devices are connected. DISABLE option will

keep USB devices available only for EFI applications.

Options available: Auto/Enabled/Disabled. Default setting is Enabled.

XHCI Hand-off Enable/Disable the XHCI (USB 3.0) Hand-off support.

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

USB Mass Storage Driver

Support(Note)

Enable/Disable the USB Mass Storage Driver Support.

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

Port 60/64 Emulation

Enables the I/O port 60h/64h emulation support. This should be enabled

for the complete USB Keyboard Legacy support for non-USB aware OS.

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

USB hardware delays and

time-outs

USB transfer time out The time-out value for Control, Bulk, and Interrupt transfers.

Options available: 1 sec/5 sec/10 sec/20 sec. Default setting is 20 sec.

(Note) This item is present only if you attach USB devices.

BIOS Setup - 80 -

Parameter Description

Device reset time-out USB mass storage device Start Unit command time-out.

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

AMI Virtual CDROM0 1.00 /

HDisk0 1.00

Mass storage device emulation type. AUTO enumerates devices

according to their media format. Optical drives are emulated as CDROM,

drives with no media will be emulated according to a drive type.

Options available: Auto/Floppy/Forced FDD/Hard Disk/CD-ROM. Default

setting is Auto.

- 81 - BIOS Setup

5-2-10 NVMe Conguration

Parameter Description

NVMe controller and Drive

Information Displays the NVMe devices connected to the system.

BIOS Setup - 82 -

5-2-11 SATA Conguration

- 83 - BIOS Setup

5-2-12 Network Stack Conguration

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

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

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

IPSEC Certicate(Note) Enable/Disable the IPSEC Certicate feature.

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.

BIOS Setup - 84 -

5-2-13 AMD Mem Conguration Status

Parameter Description

CPU 0

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

Channel A/BC/D/E/F/G/H

– DIMM0 Presence

– DIMM1 Presence

– Chipset/Bank Interleave

Dram EC

Dram Parity

Dimm Sensor Fine Grain Mode

CPU 1

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

Channel I/J/K/L/M/N/O/P

– DIMM0 Presence

– DIMM1 Presence

– Chipset/Bank Interleave

Dram EC

Dram Parity

Dimm Sensor Fine Grain Mode

- 85 - BIOS Setup

5-2-14 iSCSI Conguration

Parameter Description

iSCSI Initiator Name Press [Enter] and name iSCSI Initiator. Only IQN format is accecpted.

Range: from 4 to 223

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

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

Change Attempt Order Press [Enter] for conguration of advanced items.

BIOS Setup - 86 -

5-2-15 Tls Auth Conguration

Parameter Description

Server CA Conguration

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

Enroll Cert

– Press [Enter] to enroll a certicate

• Enroll Cert Using File

• Cert GUID

Input digit character in 1111111-2222-3333-4444-

1234567890ab format.

– Commit Changes and Exit

– Discard Changes and Exit

Delete Cert

Client Cert Conguration N/A

- 87 - BIOS Setup

5-2-16 Intel(R) I350 Gigabit Network Connection

BIOS Setup - 88 -

Parameter Description

NIC Conguration

Press [Enter] to congure advanced items.

Link Speed

– Allows for automatic link speed adjustment.

– Options available: Auto Negotiated/10 Mbps Half/10 Mbps Full/100

Mbps Half/100 Mbps Full. Default setting is Auto Negotiated.

Wake On LAN

– Enables power on of the system via LAN. Note that conguring

Wake on LAN in the operating system does not change the value of

this setting, but does override the behavior of Wake on LAN in OS

controlled power states.

– Options available: Enabled/Disabled. Default setting is Enabled.

Blink LEDs Identies the physical network port by blinking the associated LED.

Press the numeric keys to adjust desired values.

UEFI Driver Displays the technical specications for the Network Interface Controller.

Adapter PBA Displays the technical specications for the Network Interface Controller.

Device Name Displays the technical specications for the Network Interface Controller.

Chip Type Displays the technical specications for the Network Interface Controller.

PCI Device ID Displays the technical specications for the Network Interface Controller.

PCI Address Displays the technical specications for the Network Interface Controller.

Link Status Displays the technical specications for the Network Interface Controller.

MAC Address Displays the technical specications for the Network Interface Controller.

Virtual MAC Address Displays the technical specications for the Network Interface Controller.

- 89 - BIOS Setup

5-2-17 VLAN Conguration

BIOS Setup - 90 -

Parameter Description

Enter Conguration Menu

Press [Enter] to congure advanced items.

Create new VLAN

VLAN ID

– Sets VLAN ID for a new VLAN or an existing VLAN.

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

The valid range is from 0 to 4094.

Priority

– Sets 802.1Q Priority for a new VLAN or an existing VLAN.

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

The valid range is from 0 to 7.

Add VLAN

– Press [Enter] to create a new VLAN or update an existing VLAN.

Congured VLAN List

– Enable/Disable the VLAN.

– Options available: Enable/Disable. Default setting is Disabled.

Remove VLAN

– Press [Enter] to remove an existing VLAN.

(Note) Only Supported when Congured VLAN List is set to Enabled.

- 91 - BIOS Setup

5-2-18 MAC IPv4 Network Conguration

Parameter Description

Congured Indicates whether network address is congured successfully or not.

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

Enable DHCP(Note) Options available: Enabled/Disabled. Default setting is Enabled.

Local IP Address(Note) Press [Enter] to congure local IP address.

Local NetMask(Note) Press [Enter] to congure local NetMask.

Local Gateway(Note) Press [Enter] to congure local Gateway

Local DNS Servers(Note) Press [Enter] to congure local DNS servers

Save Changes and Exit Press [Enter] and then choose to save or discard the changes made.

(Note) This item will appear on the screen when Congured is set to Enabled.

BIOS Setup - 92 -

5-2-19 MAC IPv6 Network Conguration

Parameter Description

Enter Conguration Menu

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

Interface Name

Interface Type

MAC address

Host address

Route Table

Gateway addresses

DNS addresses

Interface ID

– The 64-bit alternative interface ID for the device. The string is

colon separated e.g. ff:dd:88:66:cc:1:2:3.

DAD Transmit Count

– The number of consecutive Neighbor Solicitaion messages sent

while performing Duplicate Address Detection on a tentative

address. A value of zero indicates that Duplicate Addres Detection

is not performed.

Policy

Save Changes and Exit

- 93 - BIOS Setup

5-3 AMD CBS Menu

AMD CBS menu displays submenu options for configuring the CPU-related information that the BIOS

automatically sets. Select a submenu item, then press [Enter] to access the related submenu screen.

BIOS Setup - 94 -

5-3-1 Valhalla Common Options

Parameter Description

Valhalla Common Options

Performance

Press [Enter] for more options.

Custom Core Pstates

– Allows you to accept or decline custom core pstates. When

accepted you can disable or customize ceratin pstates.

CCD/Core/Thread Enablement

– Allows you to accept or decline enabling CCDs, processor cores

and threads. When accepted you can control the number of CCDs

to be used, the number of cores to be used, and whether to enable

or disable symmetric multithreading.

Prefetcher settings

Press [Enter] for more options.

L1 Stream HW Prefetcher

– Option to enable or disable L1 Stream HW Prefetcher

– Options available: Disable/Enable/Auto. Default option is Auto.

L2 Stream HW Prefetcher

– Option to enable or disable L2 Stream HW Prefetcher

– Options available: Disable/Enable/Auto. Default option is Auto.

Core Watchdog

Press [Enter] for more options.

Core Watchdog Timer Enable

– Enable or disable CPU watchdog timer.

– Options available: Disable/Enable/Auto. Default option is Auto.

- 95 - BIOS Setup

Parameter Description

RedirectForReturnDis

From a workaroud for GCC/C000005 issue for XV Core on CZ A0,

setting MSRC001_1029 Decode Conguration (DE_CFG) bit 14

[DecfgNoRdrctForReturns] to 1.

Options available: Auto/1/0. Default option is Auto.

Platform First Error Warning

Enable/Disable PFEH, cloak individual banks, and mask deferred error

interrupts from each bank.

Options available: Enabled/Disabled/Auto. Default option is Enabled.

Core Performance Boost Allows you to disable CPB.

Options available: Disabled/Auto. Default option is Auto.

Global C-State Control Controls the IO based C-state generation and DF C-states.

Options available: Disabled/Enabled/Auto. Default option is Auto.

Power Supply Idle Control

Congures the power supply idle control.

Options available: Low Current Idle/Typical current Idle/Auto. Default

option is Auto.

Opcache Control Enables or disables the Opcache.

Options available: Disabled/Enabled/Auto. Default option is Auto.

SEV ASID Count

This eld species the max. valid ASID, which affects the maximum

system physical address space. 16TB of physical address space is

available for systems that support 253 ASIDs, while 8TB of physical

address space is available for systems that support 509 ASIDs.

Options available: 253 ASIDs/509 ASIDs/Auto. Default option is Auto.

SEV-ES ASID Space Limit

Control

Space limit control for SEV-ES ASIDs.

Options available: Auto/Manual. Default option is Auto.

Streaming Stores Control Enables or disables the streaming stores functionality.

Options available: Disabled/Enabled/Auto. Default option is Auto.

Local APIC Mode Sets the Local APIC mode.

Options available: xAPIC/x2APIC/Auto. Default option is Auto.

ACPI_CST C1 Decaration Determines whether or not to declare the C1 state to the OS.

Options available: Disabled/Enabled/Auto. Default option is Auto.

MCA error thresh enable Enable MCA error thresholding.

Options available: False/True/Auto. Default option is Auto.

SMU and PSP Debug Mode

When this option is enabled, specic uncorrected errors detected by the

PSP FW or SMU FW will hand and not reset the system.

Options available: Disabled/Enabled/Auto. Default option is Auto.

BIOS Setup - 96 -

Parameter Description

Xtrig7 Workaround

By default (Auto) the bronze workaround is applied.

Bronze workaround: DbReq and PDM function as expected, breakpoint

redirect capability compromised.

Silver workaround: DbReq, PDM, and breakpoint redirect function as

expected, SCAN capability compromised.

Options available: Auto/No Workaround/Bronze Workaround/Silver

Workaround. Default option is Auto.

PPIN Opt-in Turns on PPIN feature.

Options available: Disabled/Enabled/Auto. Default option is Auto.

- 97 - BIOS Setup

5-3-2 DF Common Options

Parameter Description

Scrubber

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

DRAM scrub time

– Provides a value that is the number of hours to scrub memory.

– Options available: Disabled/1 hour/4 hours/8 hours/16 hours/24

hours/48 hours/Auto. Default option is Auto.

Poison scrubber control

– Allows you to enable or disable poison scrubber control.

– Options available: Disabled/Enabled/Auto. Default option is Auto.

Redirect scrubber control

– Allows you to enable or disable redirect of scrubber control.

– Options available: Disabled/Enabled/Auto. Default option is Auto.

Redirect scrubber limit

– Allows you to set the redirect scrubber limit.

– Options available: 2/4/8/Innite/Auto. Default option is Auto.

BIOS Setup - 98 -

Parameter Description

Memory Addressing

Press [Enter] for more options.

NUMA notes per socket

– Species the number of desired NUMA (Non-uniform Memory

Access) notes per socket. Zero will attempt to interleave the two

sockets together.

– Options available: NPS0/NPS1/NPS2/NPS4/Auto. Default option

is Auto.

Memory interleaving

– Allows for disabling memory interleaving. Note that NUMA nodes

per socket will be honored regardless of this setting.

– Options available: Disabled/Auto. Default option is Auto.

Memory interleaving size

– Controls the memory interleaving size. The valid value are AUTO,

256 bytes, 512 bytes, 1Kbytes or 2Kbytes. This determines the

starting address of the interleave (bit 8, 9, 10 or 11).

– Options available: 256 Bytes/512 Bytes/1 KB/2KB/Auto. Default

setting is Auto.

1TB remap

– Attempt to remap DRAM out of the space just below the 1TB

boundary. The ability to remap depends on DRAM conguration,

NPS, and interleaving selection, and may not always be possible.

– Options available: Do not remap/Attempt to remap.Auto. Default

option is Auto.

DRAM map inversion

– Inverting the map will cause the highest memory channels to get

assigned the lowest addresses in the system.

– Options available: Disabled/Enabled/Auto. Default option is Auto.

ACPI

Press [Enter] for more options.

ACPI SRAT L3 Cache as NUMA Domain

– Enabled: Each CCX in the system will be declared as a separate

NUMA domain.

– Disabled: Memory Addressing \ NUMA nodes per socket will be

declared.

– Options available: Disable/Enable/Auto. Default option is Auto.

ACPI SLIT Distance Control

– Determines how the SLIT distances are declared.

– Options available: Manual/Auto. Default option is Auto.

ACPI SLIT remote relative distance

– Set the remote socket distance for 2P systems as near (2.8) or far

(3.2).

– Options available: Near/Far/Auto. Default option is Auto.

- 99 - BIOS Setup

Parameter Description

Link

Press [Enter] for more options.

GMI encryption control

– Control GMI link encryption.

– Options available: Disable/Enable/Auto. Default option is Auto.

xGMI encryption control

– Control xGMI link encryption.Options available: Disable/Enable/

Auto. Default option is Auto.

CAKE CRC perf bounds control

– Control CAKE CRC perf bounds

– Options available: Auto/Manual. Default option is Auto.

4-link xGMI max speed

– Set 4-link xGMI max speed.

– Options available: 10.667Gbps/13Gbps/16Gbps/18Gbps/Auto.

Default option is Auto.

3-link xGMI max speed

– Set 3-link xGMI max speed.

– Options available: 10.667Gbps/13Gbps/16Gbps/18Gbps/Auto.

Default option is Auto.

xGMI TXEQ Mode

– Select XGMI TXEQ/RX vetting Mode.

– Options available: TXEQ_Disabled/TXEQ_LAne/TXEQ_Link/

TXEQ_RX_Vet/Auto. Default option is Auto.

Disable DF to external IP

Sync Flood Propagation

Disable SyncFlood to UMC & downstream slaves.

Options avaialble: Sync ood disabled/Sync ood enabled/Auto.

Default option is Auto.

Disable DF sync ood

propagation

Enable/Disable DF SyncFlood.

Options avaialble: Sync ood disabled/Sync ood enabled/Auto.

Default option is Auto.

Freeze DF module queues on

error

Controls DF PIE Cong. Disabling this options sets DF:PIECong.

Options available: Disable/Enable/Auto. Default option is Auto.

CC6 memory region encryption Control whether or not the CC6 save/restore memory is encrypted.

Options available: Disable/Enable/Auto. Default option is Auto.

System probe lter

Controls whether or not the probe lter is enabled. Has no effect on parts

where the probe lter is fuse disabled.

Options available: Disable/Enable/Auto. Default option is Auto.

Memory Clear

When this feature is disabled, BIOS does not implement MemClear after

memory training (only if non-ECC DIMMs are used).

Options available: Disable/Enable/Auto. Default option is Auto.

PSP error injection support Select True to enable error injection.

Options available: False/True. Default option is False.

BIOS Setup - 100 -

5-3-3 UMC Common Options

Parameter Description

DDR4 Common Options

Press [Enter] for more options.

Enforce POR

– Press [Enter] to congure the enforcement of Plan Of Record

(POR) which enables enforcement of POR restrictions for DDR4

frequency and voltage programming.

DRAM Controller Conguration

– Press [Enter] to congure DRAM controller options.

CAD Bus Conguration

– Press [Enter] to congure CAD Bus options.

Data Bus conguration

– Press [Enter] to congure Data Bus options.

Common RAS

– Press [Enter] to congure Common RAS options.

Security

– Press [Enter] to congure UMC security options.

- 101 - BIOS Setup

Parameter Description

DRAM Memory Mapping

Press [Enter] for more options

Chipselect Interleaving

– Interleave memory blocks across the DRAM chip slects for node 0

– Options available: Disabled/Auto. Default option is Auto.

BankGroupSwap

– Congures the BankGroupSwap. BankGroupSwap (BGS) is a

memory mapping option in AGESA that alters how applications get

assigned to physical locations within the memory modules. When

this option sets to Auto, it is null.

– Options available: Enabled/Disabled/Auto. Default option is Auto.

BankGroupSwapAlt

– Congures the BankGroupSwapAlt.

– Options available: Enabled/Disabled/Auto. Default option is Auto.

Address Hash Bank

– Enable or disable bank address hashing.

– Options available: Disabled/Enabled/Auto. Default option is Auto.

Address Hash CS

– Enable or disable CS address hashing.

– Options available: Auto/Enabled/Disabled. Default option is Auto.

Address Hash Rm

– Enable or disable RM address hashing.

– Options available: Auto/Enabled/Disabled. Default option is Auto.

SPD Read Optimization

– Enable or disable SPD Read Optimization. Enabled = SPD reads

are skipped for Reserved elds and most of upper 256 Bytes,

Disabled = read all 512 SPD Bytes.

– Options available: Auto/Enabled/Disabled. Default option is Auto.

NVDIMM Press [Enter] for more options.

Memory MBIST

Press [Enter] for more options

MBIST Enable

– Enable or disable Memory MBIST.

– Options available: Disabled/Enabled. Default option is Disabled.

Data Eye

– Press [Enter] for more options.

BIOS Setup - 102 -

5-3-4 NBIO Common Options

Parameter Description

NBIO Common Options

IOMMU Enable/Disable IOMMU.

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

ACS Enable AER must be enabled for ACS enable to work.

Options available: Enable/Disabled/Auto. Default option is Auto.

PCIe ARI Support Enables Alternative Routing ID Interpretation.

Options available: Disable/Enable/Auto. Default option is Auto.

PCIe Ten Bit Tag Support Enables PCIe ten bit tags for supported devices. Auto = Disabled

Options available: Disable/Enable/Auto. Default option is Auto.

HD Audio Enable Enables or disables HD Audio.

Options available: Enable/Disabled/Auto. Default option is Auto.

- 103 - BIOS Setup

Parameter Description

SMU Common Options

Press [Enter] for more options.

Determinism Control

– Auto = Use the fused determinism, Manual = User can set

customized determinism.

– Options available: Manual/Auto. Default option is Manual.

cTDP Control

– Auto = Use the fused TDP, Manual = User can set customized

TDP. TDP is used to dene the RC thermal model only.

– Options available: Manual/Auto. Default option is Manual.

Fan Control

– Press [Enter] to congure the fan control table.

CLD0_VDDP Control

– Manual = User can set customized CLD0_VDDP voltage.

– Options available: Auto/Manual. Default option is Auto.

EfciencyModeEn

– 0 = use performance optimized CCLK DPM settings, 1 = use

power efciency optimized CCLK DPM settings.

– Options available: Auto/Enabled. Default option is Auto.

Package Power Limit Control

– Auto = Use the fused PPT, Manual = User can set PPT. PPT will

be used as the ASIC power limit.

– Options available: Manual/Auto. Default option is Manual.

xGMI Link Width Control

– Auto = Use degault xGMI link width controller, Manual = User can

set custom xGMI link width controller settings.

– Options available: Manual/Auto. Default option is Auto.

APBDIS

– 0 = not APBDIS (mission mode), 1 = APBDIS.

– Options available: 0/1/Auto. Default option is Auto.

DF Cstates

– Enable or disable DF C-states.

– Options available: Disabled/Enabled/Auto. Default option is Auto.

CPPC

– Enable or disable CPPC.

– Options available: Disabled/Enabled/Auto. Default option is Auto.

BoostFmaxEn

– Auto = Use degault Fmax, Manual = User can set boost Fmax.

– Options available: Manual/Auto. Default option is Auto.

BIOS Setup - 104 -

Parameter Description

NBIO RAS Common Options

Press [Enter] for more options.

NBIO RAS Global Control

– Options available: Manual/Auto. Default option is Auto.

NBIO RAS Control

– 0 = Disabled, 1 = MCA, 2 = Legacy.

– Options available: Disabled/MCA/Legacy. Default option is MCA.

Egress Poison Severity High

– Enter a value. Each bit set to 1 enables high severity on the

associated IOHC egress port. A bit of 0 indicates low severity.

Egress Poison Severity Low

– Enter a value. Each bit set to 1 enables high severity on the

associated IOHC egress port. A bit of 0 indicates low severity.

NBIO SyncFlood Generation

– This value may be used to mask SyncFlood caused by NBIO RAS

options. When set to TRUE SyncFlood from NBIO is masked.

When set to FALSE NBIO is capable of generating SyncFlood.

– Options available: Enabled/Disabled/Auto. Default option is Auto.

NBIO SyncFlood Reporting

– This value may be used to enable SyncFlood reporting to APML.

When set to TRUE SyncFlood will be reported to APML. When set

to FALSE that reporting will be disabled.

– Options available: Enabled/Disabled. Default option is Disabled.

Egress Poison Mask High

– Enter a value. These set the enable mask for masking of errors

logged in EGRESS_POISON_STATUS. For each bit set to 1,

errors are masked. For each bit set to 0, errors trigger response

actions.

Egress Poison Mask Low

– Enter a value. These set the enable mask for masking of errors

logged in EGRESS_POISON_STATUS. For each bit set to 1,

errors are masked. For each bit set to 0, errors trigger response

actions.

Uncorrected Converted to Poison Enable Mask High

– Enter a value. These set the enable mask for masking of

uncorrectable parity errors on internal arrays. For each bit set to

1, a system fatal error event is triggered for UCP errors on arrays

associated with that egress port. For each bit set to 0, errors are

masked.

Uncorrected Converted to Poison Enable Mask Low

– Enter a value. These set the enable mask for masking of

uncorrectable parity errors on internal arrays. For each bit set to

1, a system fatal error event is triggered for UCP errors on arrays

associated with that egress port. For each bit set to 0, errors are

masked.

- 105 - BIOS Setup

Parameter Description

NBIO RAS Common Options

(continued)

System Hub Watchdog Timer

– Enter a value. This value species the timer interval of the

SYSHUB watchdog timer in miliseconds.

SLINK Read Response OK

– This value species whether SLINK read response errors are

converted to an Okay response. When this value is set to TRUE,

read response errors are converted to Okay responses with data

of all FFs. When set to FALSE read response errors are not

converted.

– Options available: Enabled/Disabled. Default option is Disabled.

SLINK Read Response Error Handling

– This value species whether SLINK write response errors are

converted to an Okay response. When this value is set to 0, write

response errors will be logged in the MCA. When set to 1, write

response errors will trigger an MCOMMIT error. When this value is

set to 2, write response errors are converted to Okay responses.

– Options available: Enabled/Trigger MCOMMIT Error/Log Errors in

MCA. Default option is Log Errors in MCA.

Log Poison Data from SLINK

– This value species whether poison data propogated from SLINK

will generate a deferred error. When this value is set to TRUE,

deferred errors are enabled. When set to FALSE, errors are not

generated.

– Options available: Enabled/Disabled. Default option is Disabled.

PCIe Aer Reporting Mechanism

– This value selects the method of reporting AER errors from PCI

Express. A value of 0 indicates that the hardware will report the

error through MCA. A value of 1 allows OS First handling of the

errors through generation of a system control interrupt (SCI). A

value of 2 provides for Firmware First handling of errors through

generation of a system management interrupt (SMI).

– Options available: OS First/MCA/Auto. Default option is Auto.

Edpc Control

– (0) Disabled; (1) Enabled; (3) Auto.

– Options available: Disabled/Enabled/Auto. Default option is

Disabled.

NBIO Poison Consumption

– Options available: Auto/Enabled/Disabled. Default option is Auto.

BIOS Setup - 106 -

Parameter Description

NBIO RAS Common Options

(continued)

Sync Flood on PCIe Fatal Error

– When 'Sync Flood on PCIe Fatal Error' is True,

PcdAmdPcieSyncFloodOnFatal should be set to True. When 'Sync

Flood on PCIe Fatal Error' is False, PcdAmdPcieSyncFloodOnFatal

should be set to False. When 'Sync Flood on PCIe Fatal Error' is

Auto, PcdAmdPcieSyncFloodOnFatal should retain its AGESA

default.

– Options available: Auto/True/False. Default option is Auto.

Enable AER Cap Enables Advanced Error Reporting Capabilty.

Options available: Enable/Disabled/Auto. Default option is Auto.

Early Link Speed Sets Early Link Speed.

Options available: Auto/Gen1/Gen2. Default option is Auto.

Hot Plug Handling mode

Controls the Hot Plug Handling mode.

Options available: A0 Mode/OS First (No Error Handling)/OS First (Error

Handling - Not Implementd/Firmware First (Not Implemented)/Auto.

Default option is Auto.

Presence Detect Select mode Controls the Presence Detect Select mode.

Options available: OR/And/Auto. Default option is Auto.

Preferred IO Device

Enter a value for the preferred IO device.

[23:16] Bus Number

[15:8] Dev Number

[7:0] Fun Number

- 107 - BIOS Setup

5-3-5 FCH Common Options

Parameter Description

FCH Common Options

SATA Conguration Options

SATA Enable

– Enable or disable OnChip SATA controller.

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

SATA RAS Support

– Enable or disable SATA RAS support.

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Sata Disabled AHCI Prefetch Function

– Enable or disable Sata Disabled AHCI Prefetch Function.

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Aggressive SATA Device Sleep Port 0

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Aggressive SATA Device Sleep Port 1

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

BIOS Setup - 108 -

Parameter Description

USB Conguration Options

Press [Enter] for more options.

XHCI Controller0 Enable

– Enable or disable USB3 controller.

– Options available: Enabled/Disabled/Auto. Default setting is Auto.

XHCI Controller1 Enable

– Enable or disable USB3 controller.

– Options available: Enabled/Disabled/Auto. Default setting is Auto.

USB ecc SMI Enable

– Options available: Enabled/Off/Auto. Default setting is Auto.

MCM USB enable

– Press [Enter] for advanced congurations.

SD Dump Options

Press [Enter] for more options.

SD Conguration Mode

– Select SD Mode.

– Options available: SD Dump disabled/SD Dump Enabled. Default

setting is SD Dump disabled.

AC Power Loss Options

Press [Enter] for more options.

AC Loss Control

– Select AC Loss Control Method.

– Options available: Power Off/Power On/Last State. Default setting

is Last State.

I2C Conguration Options

Press [Enter] for more options.

I2C 0/1/2/3/4/5 Enable

– Enable or disable I2C 0/1/2/3/4/5.

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Uart Conguration Options

Press [Enter] for more options.

Uart 0 Enable

– Uart 0 has no HW FC if Uart 2 is enabled.

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Uart 1 Enable

– Uart 1 has no HW FC if Uart 3 is enabled.

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Uart 2 Enable (no HW FC)

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Uart 3 Enable (no HW FC)

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

ESPI Conguration Options

Press [Enter] for more options.

ESPI Enable

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

- 109 - BIOS Setup

Parameter Description

eMMC Options

Press [Enter] for more options.

eMMC/SD Congure

– Options available: Disabled/SD Normal Speed/SD High Speed/SD

UHSI-SDR50/SD UHSI-DDR50/SDUHSI-SDR104/eMMC Emmc

Backward Compatibility/eMMC High Speed SDR/eMMC High

Speed DDR/eMMC HS200/eMMCHS400/eMMC HS300/Auto.

Default setting is Auto.

Driver Type

– BIOS will select MS driver for SD selections.

– Options available: AMD eMMC Driver/MS Driver/Auto. Default

setting is Auto.

D3 Cold Support

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

eMMC Boot

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

FCH RAS Options

Press [Enter] for more options.

ALink RAS Support

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

Reset after sync ood

– Enable AB to forward downstream sync-ood message to system

controller.

– Options available: Disabled/Enabled/Auto. Default setting is Auto.

BIOS Setup - 110 -

5-3-6 NTB Common Options

Parameter Description

NTB Common Options

NTB Enable Enable or disable OnChip SATA controller.

Options available: Auto/Enable. Default setting is Auto.

- 111 - BIOS Setup

5-3-7 SOC Miscellaneous Control

Parameter Description

Soc Miscellaneous Control

ABL Console Out Control

Enable = Enable ConsoleOut Function for ABL

Disable = Disable ConsoleOut Function for ABL

Auto = Keep default behavior

Options available: Disable/Enable/Auto. Default setting is Auto.

BIOS Setup - 112 -

5-4 AMD PBS Option Menu

AMD PBS Option menu displays submenu options for configuring the function of AMD PBS. Select a

submenu item, then press [Enter] to access the related submenu screen.

Parameter Description

AMD PBS

RAS Press [Enter] for advanced congurations.

SPI Locking Enable or disable SPI Locking for protect ROM part.

Options Available: Enabled/Disabled. Default option is Disabled.

- 113 - BIOS Setup

5-4-1 RAS

Parameter Description

RAS Periodic SMI Control Enable or disable Periodic SMI for polling [MCA Threshold] error.

Options Available: Disabled/Enabled. Default option is Enabled.

SMI Threshold

Enter a value.

Limits the number of [MCA Threshold and Deferred Error SMI source]

per a unit of time (Dened by [SMI Scale]).

Default value is 5 dec interrupts.

SMI Scale

Enter a value.

Denes the time scale.

Default value is 1000 dec.

SMI Scale Unit

Denes the unit of time scale.

Options available: millisecond/second/minute.

Default option is millisecond.

SMI Period

Enter a value.

Denes the polling interval in milliseconds.

Default option is 1000 dec. Maximum value is 32767 dec. 0 = disable.

GHES Notify Type Notication type for deferred/corrected errors.

Options Available: Polled/SCI. Default option is Polled.

GHES UnCorr Notify Type Notication type for uncorrected errors.

Options Available: Polled/NMI. Default option is NMI.

PCIe GHES Notify Type Notication type for PCIe corrected errors.

Options Available: Polled/SCI. Default option is Polled.

BIOS Setup - 114 -

Parameter Description

PCIe UnCorr GHES Notify

Type

Notication type for PCIe uncorrected errors.

Options Available: Polled/NMI. Default option is NMI.

PCIe Root Port Corr Err Mask

Reg

Enter a value.

Intialize the PCIe AER Corrected Error Mask register of Root Port.

PCIe Root Port UnCorr Err

Mask Reg

Enter a value.

Intialize the PCIe AER Uncorrected Error Mask register of Root Port.

PCIe Root Port UnCorr Error

Sev Reg

Enter a value.

Intialize the PCIe AER Uncorrected Error Severity register of Root Port.

PCIe Device Corr Err Mask

Reg

Enter a value.

Intialize the PCIe AER Corrected Error Mask register of PCIe Device.

PCIe Device UnCorr Err Mask

Reg

Enter a value.

Intialize the PCIe AER Uncorrected Error Mask register of PCIe Device.

PCIe Device UnCorr Error Sev

Reg

Enter a value.

Intialize the PCIe AER Uncorrected Error Severity registers of PCIe

Device.

CCIX GHES Deferred Err

Notify Type

Notication type for CCIX deferred errors.

Options Available: Polled/SCI. Default option is Polled.

CCIX GHES Corrected Err

Notify Type

Notication type for CCIX corrected errors.

Options Available: Polled/SCI. Default option is Polled.

DDR4 DRAM Hard Post

Package Repair

This feature allows spare DRAM rows to replace malfunctioning rows via

an in-eld repair mechanism.

Options Available: Disabled/Enabled. Default option is Disabled.

HEST DMC Structure Support HEST DMC (Deferred Machine Check) Structure Support.

Options Available: Disabled/Enabled. Default option is Disabled.

- 115 - BIOS Setup

5-5 Chipset Setup Menu

Chipset Setup menu displays submenu options for conguring the function of the SoC. Select a submenu

item, then press [Enter] to access the related submenu screen.

Parameter Description

PCIe Link Training Type PCIe Link training in 1 or 2 steps.

Options available: 1 Step/2Step. Default setting is 1 Step.

PCIe Compliance Mode Options available: On/Off. Default setting is Off.

Program All VR Enables or disables program all VR on MB.

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

North Bridge Press [Enter] for more information on the North Bridge.

BIOS Setup - 116 -

5-6 Server Management Menu

Parameter Description

FRB-2 Timer FRB-2 timer (POST timer).

FRB-2 Timer

timeout

Congure the FRB2 Timer timeout.

Options available: 3 minutes/4 minutes/5 minutes/6 minutes. Default setting is 6

minutes.

(NOTE) This item is congurable when FRB-2 Timer is set to Enabled.

FRB-2 Timer Policy

Congure the FRB2 Timer policy.

Options available: Do Nothing/Reset/Power Down. Default setting is Do Nothing.

(NOTE ) This item is congurable when FRB-2 Timer is set to Enabled.

OS Watchdog Timer Enable/Disable OS Watchdog Timer function.

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

OS Wtd Timer

Timeout

Congure OS Watchdog Timer.

Options available: 5 minutes/10 minutes/15 minutes/20 minutes. Default setting is 10

minutes.

(NOTE) This item is congurable when OS Watchdog Timer is set to Enabled.

OS Wtd Timer

Policy

Congure OS Watchdog Timer Policy.

Options available: Reset/Do Nothing/Power Down. Default setting is Reset.

(NOTE) This item is congurable when OS Watchdog Timer is set to Enabled.

Wait BMC Ready

Congure time to wait BMC ready.

Options available: Disabled/2 minutes/4 minutes/6 minutes. Default setting is 2

minutes.

System Event Log Press [Enter] to congure advanced items.

- 117 - BIOS Setup

Parameter Description

View FRU

Information Press [Enter] to view the advanced items.

BMC network

conguration Press [Enter] to congure advanced items.

IPv6 BMC Network

Conguration Press [Enter] to congure advanced items.

BIOS Setup - 118 -

5-6-1 System Event Log

Parameter Description

Enabling / Disabling Options

SEL Components

Change this item to enable or disable all features of System Event

Logging during boot.

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

Erasing Settings

Erasing SEL

Choose options for erasing SEL.

Options available: No/Yes, On next reset/Yes, On every reset. Default

setting is No.

When SEL is Full

Choose options for reactions to a full SEL.

Options available: Do Nothing/Erase Immediately. Default setting is Do

Nothing.

Custom EFI Logging Options

Log EFI Status Codes

Enable/Disable the logging of EFI Status Codes (if not already converted

to legacy).

Options available: Disabled/Both/Error code/Progress code. Default

setting is Error code.

- 119 - BIOS Setup

5-6-2 View FRU Information

The FRU page is a simple display page for basic system ID information, as well as System product

information. Items on this window are non-congurable.

(Note) The model name will vary depends on the product you purchased.

BIOS Setup - 120 -

5-6-3 BMC Network Conguration

Parameter Description

BMC network conguration

Lan Channel 1

Conguration Address source

Select to congure LAN channel parameters statically or dynamically

(DHCP). Do nothing option will not modify any BMC network parameters

during BIOS phase.

Options available: Unspecied/Static/DynamicBmcDhcp. Default setting is

DynamicBmcDhcp.

Station IP address Displays IP Address information.

Subnet mask Displays Subnet Mask information.

Router IP address Displays the Router IP Address information.

Station MAC address Displays the MAC Address information.

Real-time synchronize BMC

network parameter values Press [Enter] to synchronize the BMC network parameter values.

- 121 - BIOS Setup

5-6-4 IPv6 BMC Network Conguration

Parameter Description

IPv6 BMC Network Conguration

IPv6 BMC Lan Channel 1

IPv6 BMC Lan Option

Enable/Disable IPv6 BMC LAN channel function. When this item is

disabled, the system will not modify any BMC network during BIOS phase.

Options available: Unspecied/Disable/Enable. Default setting is Enable.

IPv6 BMC Lan IP Address

Source

Select to congure LAN channel parameters statically or dynamically (by

BIOS or BMC).

Options available: Unspecied/Static/Dynamic-Obtained by BMC running

DHCP.

Default setting is Dynamic-Obtained by BMC running DHCP.

IPv6 BMC Lan IP Address/

Prex Length

Check if the IPv6 BMC LAN IP address matches those displayed on the

screen.

BIOS Setup - 122 -

5-7 Security Menu

The Security menu allows you to safeguard and protect the system from unauthorized use by setting up

access passwords.

There are two types of passwords that you can set:

• Administrator Password

Entering this password will allow the user to access and change all settings in the Setup Utility.

• User Password

Entering this password will restrict a user’s access to the Setup menus. To enable or disable

this eld, a Administrator Password must rst be set. A user can only access and modify the

System Time, System Date, and Set User Password elds.

Parameter Description

Administrator Password Press [Enter] to congure the administrator password.

User Password Press [Enter] to congure the user password.

Secure Boot Press [Enter] to congure advanced items.

- 123 - BIOS Setup

5-7-1 Secure Boot

Parameter Description

System Mode Displays the system is in User mode or Setup mode.

Secure Boot

Enables/Disables Secure Boot. The mode change requires a platform

reset.

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

Secure Boot Mode(Note)

Secure Boot requires all the applications that are running during the

booting process to be pre-signed with valid digital certicates. This way,

the system knows all the les being loaded before Windows loads and

gets to the login screen have not been tampered with.

When set to Standard, it will automatically load the Secure Boot keys form

the BIOS databases.

When set to Custom, you can customize the Secure Boot settings and

manually load its keys from the BIOS database.

Options available: Standard/Custom. Default setting is Custom.

Restore Factory Keys Forces the system to user mode and installs factury default Secure Boot

key database.

Key Management

Press [Enter] to congure advanced items.

Please note that this item is congurable when Secure Boot Mode is

set to Custom.

(Note) Advanced items prompt when this item is set to Custom.

BIOS Setup - 124 -

Parameter Description

Key Management

(continued)

Factory Key Provision

– Installs factory default Secure Boot keys after the platform resets and

the system is in Setup Mode.

– Options available: Disabled/Enabled. Default setting is Disabled.

Restore Factory Keys

– Installs factory default Secure Boot key databases. It will force the

system in User Mode.

– Options available: Yes/No.

Enroll E Image

– Press [Enter] to enroll SHA256 hash of the binary into Authorized

Signature Database (db).

Restore DB defaults

– Press [Enter] to restore DB variable to factory defaults.

– Options available: Yes/No.

Secure Boot variable

– Displays the current status of the variables used for secure boot.

Platform Key (PK)

– Displays the current status of the Platform Key (PK).

– Press [Enter] to congure a new PK.

– Options available: Set Update.

Key Exchange Keys (KEK)

– Displays the current status of the Key Exchange Key Database (KEK).

– Press [Enter] to congure a new KEK or load additional KEK from

storage devices.

– Options available: Set Update/Append.

Authorized Signatures (DB)

– Displays the current status of the Authorized Signature Database.

– Press [Enter] to congure a new DB or load additional DB from storage

devices.

– Options available: Set Update/Append.

Forbidden Signatures (DBX)

– Displays the current status of the Forbidden Signature Database.

– Press [Enter] to congure a new dbx or load additional dbx from storage

devices.

– Options available: Set Update/Append.

Authorized TimeStamps (DBT)

– Displays the current status of the Authorized TimeStamps Database.

– Press [Enter] to congure a new DBT or load additional DBT from

storage devices.

– Options available: Set Update/Append.

OsRecovery Signatures

– Displays the current status of the OsRecovery Signature Database.

– Press [Enter] to congure a new OsRecovery Signature or load

additional OsRecovery Signature from storage devices.

– Options available: Set Update/Append.

- 125 - BIOS Setup

5-8 Boot Menu

The Boot menu allows you to set the drive priority during system boot-up. BIOS setup will display an error

message if the legacy drive(s) specied is not bootable.

Parameter Description

Boot Conguration

Setup Prompt Timeout

Number of seconds to wait for setup activation key. 65535 (0xFFFF)

means indenite waiting.

Press the numeric keys to input the desired values.

Bootup NumLock State Enable/Disable the Bootup NumLock function.

Options available: On/Off. Default setting is On.

Quiet Boot Enable/Disable showing the logo during POST.

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

Boot mode select Selects the boot mode.

Options available: LEGACY/UEFI. Default setting is UEFI.

FIXED BOOT ORDER Priorities

Boot Option #1 / #2 / #3 / #4 /

Press [Enter] to congure the boot priority.

By default, the server searches for boot devices in the following sequence:

1. Hard drive.

2. CD-COM/DVD drive.

3. USB device.

4. Network.

5. UEFI.

BIOS Setup - 126 -

Parameter Description

UEFI Network Drive BBS

Priorities Press [Enter] to congure the boot priority.

UEFI Application Boot Priorities Press [Enter] to congure the boot priority.

- 127 - BIOS Setup

5-8-1 UEFI NETWORK Drive BBS Priorities

The UEFI network drive BBS priorities submenu allows you to specify the boot device priority from the

available UEFI network drives during system boot-up. BIOS setup will display an error message if the legacy

drive(s) specied is not bootable.

BIOS Setup - 128 -

5-8-2 UEFI Application Boot Priorities

The UEFI application boot priorities submenu allows you to specify the boot device priority from the available

UEFI applications during system boot-up. BIOS setup will display an error message if the legacy drive(s)

specied is not bootable.

- 129 - BIOS Setup

5-9 Save & Exit Menu

The Exit menu displays the various options to quit from the BIOS setup. Highlight any of the exit options then

press [Enter].

Parameter Description

Save Options

Save Changes and Exit Saves changes made and closes the BIOS setup.

Options available: Yes/No.

Discard Changes and Exit Discards changes made and exits the BIOS setup.

Options available: Yes/No.

Save Changes Save changes done so far to any of the setup options.

Options available: Yes/No.

Default Options

Restore Defaults

Loads the default settings for all BIOS setup parameters. Setup Defaults

are quite demanding in terms of resources consumption. If you are using

low-speed memory chips or other kinds of low-performance components

and you choose to load these settings, the system might not function

properly.

Options available: Yes/No.

Boot Override Press [Enter] to congure the device as the boot-up drive.

Launch EFI Shell from

lesystem device

Attempts to Launch EFI Shell application (Shell.e) from one of the

available lesystem devices.

BIOS Setup - 130 -

5-10 ABL POST Codes

5-10-1 StartProcessorTestPoints

Entry used for range testing for @b Processor related TPs 0xE000

5-10-2 Memory test points

Memory structure initialization (Public interface) 0xE001

SPD Data processing (Public interface) 0xE002

Memory conguration (Public interface) Phase 1 0xE003

DRAM initialization 0xE004

ProcMemSPDChecking 0xE005

ProcMemModeChecking 0xE006

Speed and TCL conguration 0xE007

ProcMemSpdTiming 0xE008

ProcMemDramMapping 0xE009

ProcMemPlatformSpecicCong 0xE00A

ProcMemPhyCompensation 0xE00B

ProcMemStartDcts 0xE00C

ProcMemBeforeDramInit (Public interface) 0xE00D

ProcMemPhyFenceTraining 0xE00E

ProcMemSynchronizeDcts 0xE00F

ProcMemSystemMemoryMapping 0xE010

ProcMemMtrrConguration 0xE011

ProcMemDramTraining 0xE012

ProcMemBeforeAnyTraining(Public interface) 0xE013

5-10-3 PMU Test Points

ABL Mem - PMU - Before PMU Firmware load 0xE014

ABL Mem - PMU - After PMU Firmware load 0xE015

ABL Mem - PMU Populate SRAM Timing 0xE016

ABL Mem - PMU Populate SRAM Cong 0xE017

ABL Mem - PMU Write SRAM Msg Block 0xE018

ABL Mem - Wait for Phy Cal Complete 0xE019

ABL Mem - Phy Cal Complete 0xE01A

ABL Mem - PMU Start 0xE01B

ABL Mem - PMU Started 0xE01C

ABL Mem - PMU Waiting for Complete 0xE01D

ABL Mem - PMU Stage Dec Init 0xE01E

ABL Mem - PMU Stage Training Wr Lvl 0xE01F

ABL Mem - PMU Stage Training Rx En 0xE020

ABL Mem - PMU Stage Training Rd Dqs 0xE021

ABL Mem - PMU Stage Training Rd 2D 0xE022

- 131 - BIOS Setup

ABL Mem - PMU Stage Training Wr 2D 0xE023

ABL Mem - PMU Queue Empty 0xE024

ABL Mem - PMU US message Start 0xE025

ABL Mem - PMU US message End 0xE026

ABL Mem - PMU Complete 0xE027

ABL Mem - PMU - After PMU Training 0xE028

ABL Mem - PMU - Before Disable PMU 0xE029

5-10-4 Original Post Code

ProcMemTransmitDqsTraining 0xE02A

ABL Mem - Start write sweep 0xE02B

ABL Mem - Set Transmit DQ delay 0xE02C

ABL Mem - Write test pattern 0xE02D

ABL Mem - Read Test pattern 0xE02E

ABL Mem - Compare Test pattern 0xE02F

ABL Mem - Update results 0xE030

ABL Mem - Start Find passing window 0xE031

ABL Mem - ProcMemMaxRdLatencyTraining 0xE032

ABL Mem - Start sweep 0xE033

ABL Mem - Set delay 0xE034

ABL Mem - Write test pattern 0xE035

ABL Mem - Read Test pattern 0xE036

ABL Mem - Compare Test pattern 0xE037

ABL Mem - Online Spare init 0xE038

ABL Mem - Chip select Interleave Init 0xE039

ABL Mem - Node Interleave Init 0xE03A

ABL Mem - Channel Interleave Init 0xE03B

ABL Mem - ECC initialization 0xE03C

ABL Mem - Platform Specic Init 0xE03D

ABL Mem - Before callout for "AgesaReadSpd" 0xE03E

ABL Mem - After callout for "AgesaReadSpd" 0xE03F

ABL Mem - Before optional callout "AgesaHookBeforeDramInit" 0xE040

ABL Mem - After optional callout "AgesaHookBeforeDramInit" 0xE041

ABL Mem - Before optional callout "AgesaHookBeforeDQSTraining" 0xE042

ABL Mem - After optional callout "AgesaHookBeforeDQSTraining" 0xE043

ABL Mem - Before optional callout "AgesaHookBeforeDramInit" 0xE044

ABL Mem - After optional callout "AgesaHookBeforeDramInit" 0xE045

ABL Mem - After MemDataInit 0xE046

ABL Mem - Before InitializeMCT 0xE047

ABL Mem - Before LV DDR3 0xE048

ABL Mem - Before InitMCT 0xE049

BIOS Setup - 132 -

ABL Mem - Before OtherTiming 0xE04A

ABL Mem - Before UMAMemTyping 0xE04B

ABL Mem - Before SetDqsEccTmgs 0xE04C

ABL Mem - Before MemClr 0xE04D

ABL Mem - Before On DIMM Thermal 0xE04E

ABL Mem - Before DMI 0xE04F

ABL MEM - End of phase 3 memory code 0xE050

5-10-5 CPU test points

Entry point CPU init after training 0xE051

Exit point CPU init after training 0xE052

Entry point CPU APOB CCX map init 0xE053

Exit point CPU APOB CCX map init 0xE054

Entry point CPU Optimized boot init 0xE055

Exit point CPU Optimized boot init 0xE056

Entry point CPU APOB EDC info init 0xE057

Exit point CPU APOB EDC info init 0xE058

5-10-6 Topology test points

ProcTopologyEntry 0xE071

ProcTopologyDone 0xE07C

5-10-7 Extended memory test point

ProcMemSendMRS2 0xE080

Sedding MRS3 0xE081

Sending MRS1 0xE082

Sending MRS0 0xE083

Continuous Pattern Read 0xE084

Continuous Pattern Write 0xE085

Mem: 2d RdDqs Training begin 0xE086

Mem: Before optional callout to platform BIOS to change External

Vref during 2d Training

0xE087

Mem: After optional callout to platform BIOS to change External

Vref during 2d Training

0xE088

Congure DCT For General use begin 0xE089

Congure DCT For training begin 0xE08A

Congure DCT For Non-Explicit 0xE08B

Congure to Sync channels 0xE08C

Allocate C6 Storage 0xE08D

Before LV DDR4 0xE08E

Before LV DDR3 0xE08F

- 133 - BIOS Setup

5-10-8 Gnb Earlier init

TP0x90 0xE090

GNB earlier interface 0xE091

GNB internal debug code 0xE092

GNB internal debug code 0xE093

GNB internal debug code 0xE094

GNB internal debug code 0xE095

GNB internal debug code 0xE096

GNB internal debug code 0xE097

GNB internal debug code 0xE098

GNB internal debug code 0xE099

GNB internal debug code 0xE09A

GNB internal debug code 0xE09B

GNB internal debug code 0xE09C

GNB internal debug code 0xE09D

GNB internal debug code 0xE09E

GNB internal debug code 0xE09F

TP0xA0 0xE0A0

GNB internal debug code 0xE0A1

GNB internal debug code 0xE0A2

GNB internal debug code 0xE0A3

GNB internal debug code 0xE0A4

GNB internal debug code 0xE0A5

GNB internal debug code 0xE0A6

GNB internal debug code 0xE0A7

GNB internal debug code 0xE0A8

GNB internal debug code 0xE0A9

GNB internal debug code 0xE0AA

GNB internal debug code 0xE0AB

GNB internal debug code 0xE0AC

GNB internal debug code 0xE0AD

GNB internal debug code 0xE0AE

GNB internal debug code 0xE0AF

ABL 1 Begin 0xE0B0

ABL 1 Initialization 0xE0B1

ABL 1 DF Early 0xE0B2

ABL 1 DF Pre Training 0xE0B3

ABL 1 Debug Synchronization 0xE0B4

ABL 1 Error Detected 0xE0B5

ABL 1 Global memory error detected 0xE0B6

ABL 1 End 0xE0B7

BIOS Setup - 134 -

ABL 2 Begin 0xE0B8

ABL 2 Initialization 0xE0B9

ABL 2 After Training 0xE0BA

ABL 2 Debug Synchronization 0xE0BB

ABL 2 Error detected 0xE0BC

ABL 2 Global memory error detected 0xE0BD

ABL 2 End 0xE0BE

ABL 3 Begin 0xE0BF

ABL 3 Initialziation 0xE0C0

ABL 3 GMI/xGMI Initialization Stage 1 0xB1C0

ABL 3 GMI/xGMI Initialization Stage 1 Warning 0xF1C0

ABL 3 GMI/xGMI Initialization Stage 2 Error 0xE2C0

ABL 3 GMI/xGMI Initialization Stage 2 0xB2C0

ABL 3 GMI/xGMI Initialization Stage 2 Warning 0xF2C0

ABL 3 GMI/xGMI Initialization Stage 2 Error 0xE3C0

ABL 3 GMI/xGMI Initialization Stage 3 0xB3C0

ABL 3 GMI/xGMI Initialization Stage 3 Warning 0xF3C0

ABL 3 GMI/xGMI Initialization Stage 3 Error 0xE4C0

ABL 3 GMI/xGMI Initialization Stage 4 0xB4C0

ABL 3 GMI/xGMI Initialization Stage 4 Warning 0xF4C0

ABL 3 GMI/xGMI Initialization Stage 4 Error 0xE5C0

ABL 3 GMI/xGMI Initialization Stage 5 0xB5C0

ABL 3 GMI/xGMI Initialization Stage 5 Warning 0xF5C0

ABL 3 GMI/xGMI Initialization Stage 5 Error 0xE6C0

ABL 3 GMI/xGMI Initialization Stage 6 0xB6C0

ABL 3 GMI/xGMI Initialization Stage 6 Warning 0xF6C0

ABL 3 GMI/xGMI Initialization Stage 6 Error 0xE7C0

ABL 3 GMI/xGMI Initialization Stage 7 0xE8C0

ABL 3 GMI/xGMI Initialization Stage 8 0xE9C0

ABL 3 GMI/xGMI Initialization Stage 9 0xF9C0

ABL 3 GMI/xGMI Initialization Stage 9 Error 0xEAC0

ABL 3 GMI/xGMI Initialization Stage 10 0xFAC0

ABL 3 GMI/xGMI Initialization Stage 10 Error 0xE0C1

ABL 3 ProgramUmcKeys 0xE0C2

ABL 3 DF Finial Initalization 0xE0C3

ABL 3 Execute Synchronization Function 0xE0C4

ABL 3 Debug Synchronization Function 0xE0C5

ABL 3 Error Detected 0xE0C6

ABL 3 Global memory error detected 0xE0C7

ABL 4 Initialization - cold boot 0xE0C8

ABL 4 Memory test - cold boot 0xE0C9

- 135 - BIOS Setup

ABL 4 APOB Initialization - cold boot 0xE0CA

ABL 4 Finalize memory settings - cold boot 0xE0CB

ABL 4 CPU Initialize Optimized Boot - cold boot 0xE0CC

ABL 4 Gmi Pcie Training - cold boot 0xE0CD

ABL 4 Cold boot End 0xE0CE

ABL 4 Initialization - Resume boot 0xE0CF

ABL 4 Resume End 0xE0D0

ABL 4 End Cold/Resume boot 0xE0D1

ABL 2 memory initialization 0xE0D2

ABL 3 memory initialization 0xE0D3

ABL 3 End 0xE0D4

ABL 1 Enter Memory Flow 0xE0D5

Memory ow memory clock synchronization 0xE0D6

IfAmdReadEventLogEntry 0xE0D7

Exiting from AmdReadEventLog 0xE0D8

Entry to AmdGetApicId 0xE0D9

Exiting from AmdGetApicId 0xE0DA

Entry to AmdGetPciAddress 0xE0DB

Exiting from AmdGetPciAddress 0xE0DC

Entry to AmdIdentifyCore 0xE0DD

TExiting from AmdIdentifyCore 0xE0DE

After IDS calls out to run code on an AP 0xE0DF

After IDS calls out to run code on an AP 0xE0E0

Before IDS calls out to get IDS data 0xE0E1

After IDS calls out to get IDS data 0xE0E2

Before the heap manager calls out to allocate a buffer 0xE0E3

After the heap manager calls out to allocate a buffer 0xE0E4

Before the heap manager calls out to deallocate a buffer 0xE0E5

After the heap manager calls out to deallocate a buffer 0xE0E6

Before the heap manager calls out to locate a buffer 0xE0E7

After the heap manager calls out to locate a buffer 0xE0E8

Memory ow P-State synchronization 0xE0E9

After the BSP calls out to run code on an AP 0xE0EA

Before the BSP calls out to run code on an AP 0xE0EB

After the BSP calls out to run code on an AP 0xE0EC

Before the S3 save code calls out to allocate a buffer 0xE0ED

After the S3 save code calls out to allocate a buffer 0xE0EE

Before the memory S3 save code calls out to allocate a buffer 0xE0EF

After the memory S3 save code calls out to allocate a buffer 0xE0F0

Before the memory code calls out to locate a buffer 0xE0F1

After the memory code calls out to locate a buffer 0xE0F2

BIOS Setup - 136 -

Before the memory code calls out to locate a buffer 0xE0F3

After the memory code calls out to locate a buffer 0xE0F4

Before the memory code calls out to locate a buffer 0xE0F5

After the memory code calls out to locate a buffer 0xE0F6

Before the memory code calls out to locate a buffer 0xE0F7

After the memory code calls out to locate a buffer 0xE0F8

Ready to boot event

5-10-9 PMU test points

Failed PMU training 0xE0F9

End of phase 1 memory code 0xE0FA

End of phase 2 memory code 0xE0FB

5-10-10 ABL0 test points

Abl0Begin 0xE0FC

ABL 0 End 0xE0FD

5-10-11 ABL5 test points

ABL 5 End 0xE100

sume boot 0xE101

ABL 6 End 0xE102

ABL 6 Initialization 0xE103

End of phase 1b memory code 0xE104

ABL 1b memory initialization 0xE105

ABL 6 Global memroy error detected 0xE106

ABL 1b Debug Synchronization Function 0xE107

ABL 4b Debug Synchronization Function 0xE108

AblbBegin 0xE109

Ab4bBegin 0xE10A

BSP encountered HMAC fail on APOB Header 0xE10B

ABL Eroor General ASSERT 0xE2A0

Unknown Error 0xE2A1

ABL Error Log Inig Error 0xE2A2

ABL Error for On DIMM thermal Heap allocation error 0xE2A3

ABL Error for memory test error 0xE2A4

ABL Error while executing memory test error 0xE2A5

ABL Error DDR Post Packge Repair Mem Auto Heap Alloc error 0xE2A6

ABL Error for DDR Post Package repair Apob Heap Alloc error 0xE2A7

ABL Error for DDR Post Package Repair No PPR Table Heap Aloc

error

0xE2A8

ABL Error for Ecc Mem Auto Aloc Error error 0xE2A9

ABL Error for Soc Scan Heap Aloc error 0xE2AB

- 137 - BIOS Setup

ABL Error for Soc Scan No Die error 0xE2AC

ABL Error for Nb Tech Heap Aloc error 0xE2AD

ABL Error for No Nb Constructor error 0xE2AE

ABL Error for No Tech Constructor error 0xE2AE

ABL Error for ABL1b Auto Alocation error 0xE2B0

ABL Error for ABL1b No NB Constructor error 0xE2B1

ABL Error for ABL2 No Nb Constructor error 0xE2B2

ABL Error for ABL3 Auto Allocation error 0xE2B3

ABL Error for ABL3 No Nb Constructor error 0xE2B4

ABL Error for ABL1b General error 0xE2B5

ABL Error for ABL2 General error 0xE2B6

ABL Error for ABL3 General error 0xE2B7

ABL Error for Get Target Speed error 0xE2B8

ABL Error for Flow P1 Family Support error 0xE2B9

ABL Error for No Valid Ddr4 Dimms error 0xE2BA

ABL Error for No Dimm Present error 0xE2BB

ABL Error for Flow P2 Family Supprot error 0xE2BC

ABL Error for Heap Deallocation for PMU Sram Msg Block error 0xE2BD

ABL Error for DDR Recovery error 0xE2BE

ABL Error for RRW Test error 0xE2BF

ABL Error for On Die Thermal error 0xE2C1

ABL Error for Heap Allocation For Dct Struct Amd Ch Def structure

error

0xE2C2

ABL Error for Heap Allocation for PMU SRAM Msg block error 0xE2C3

ABL Error for Heap Phy PLL lock Flure error 0xE2C4

ABL Error for Pmu Training error 0xE2C5

ABL Error for Failure to Load or Verify PMU FW error 0xE2C6

ABL Error for Allocate for PMU SRAM Msg Block No Init error 0xE2C7

ABL Error for Failure BIOS PMU FW Mismatch AGESA PMU FW

version error

0xE2C8

ABL Error for Deallocate for PMU SRAM Msg Block error 0xE2CA

ABL Error for Module Type Mismatch RDIMM error 0xE2CB

ABL Error for Module type Mismatch LRDIMM error 0xE2CC

ABL Error for MEm Auto NVDIM error 0xE2CD

ABL Error for Unknowm Responce error 0xE2CE

ABL Error for Over Clock Error RRW Test Results Error 0xE2CF

ABL Error for Over Clock Error PMU Training Error 0xE2D0

ABL Error for ABL1 General Error 0xE2D1

ABL Error for ABL2 General Error 0xE2D2

ABL Error for ABL3 General Error 0xE2D3

ABL Error for ABL4 General Error 0xE2D4

BIOS Setup - 138 -

ABL Error over clock Mem Init Error 0xE2D5

ABL Error over clock Mem Other Error 0xE2D6

ABL Error for ABL6 General Error 0xE2D7

ABL Error Event Log Error 0xE2D8

ABL Error FATAL ABL1 Log Error 0xE2D9

ABL Error FATAL ABL2 Log Error 0xE2DA

ABL Error FATAL ABL3 Log Error 0xE2DB

ABL Error FATAL ABL4 Log Error 0xE2DC

ABL Error Slave Sync function execution Error 0xE2DD

ABL Error Slave Sync communicaton with data set to master Error 0xE2DE

ABL Error Slave broadcast communication from master to slave

Error

0xE2DF

ABL Error FATAL ABL6 Log Error 0xE2E0

ABL Error Slave Ofine Error 0xE2E1

ABL Error Slave Informs Master Error Info Error 0xE2E2

ABL Error Error Heap Locate for PMU SRAM Msg Block Error 0xE2E3

ABL Error ABL2 Auto Error 0xE2E4

ABL Error Flow P3 Family support Error 0xE2E5

ABL Error Abl 4 Gen Error 0xE2EB

ABL Error MBIST Heap Allocation Error 0xE2EC

ABL Error MBIST Results Error 0xE2EE

ABL Error NO Dimm Smcus Info Error 0xE2EE

ABL Error Por Max Freq Table Error 0xE2EF

ABL Error Unsupproted DIMM Cong Error 0xE2F0

ABL Error No Ps Table Error 0xE2F1

ABL Error Cad Bus Timing Not Found Error 0xE2F2

ABL Error Data Bus Timing Not Found Error 0xE2F3

ABL Error LrDIMM IBT Not Found Error 0xE2F4

ABL Error Unsupprote Dimm Cong Max Freq Error Error 0xE2F5

ABL Error Mr0 Not Found Error 0xE2F6

ABL Error Obt Pattern Not found Error 0xE2F7

ABL Error Rc10 Op Speed Not FOund Error 0xE2F8

ABL Error Rc2 Ibt Not Found Error 0xE2F9

ABL Error Rtt Not Found Error 0xE2FA

ABL Error Checksum ReStrt Results Error 0xE2FB

ABL Error No Chipselect Results Error 0xE2FC

ABL Error No Common Cas Latency Results Error 0xE2FD

ABL Error Cas Latecncy exceeds Taa Max Error 0xE2FE

ABL Error Nvdimm Arm Missmatch Power Policy Error 0xE2FF

ABL Error Nvdimm Arm Missmatch Power Source Error 0xE300

ABL Error ABL 1 Mem Init Error 0xE301

- 139 - BIOS Setup

ABL Error ABL 2 Mem Init Error 0xE302

ABL Error ABL 4 Mem Init Error 0xE303

ABL Error ABL 6 Mem Init Error 0xE304

ABL Error ABL 1 error repor Error 0xE305

ABL Error ABL 2 error repor Error 0xE306

ABL Error ABL 3 error repor Error 0xE307

ABL Error ABL 4 error repor Error 0xE308

ABL Error ABL 6 error repor Error 0xE30A

ABL Error message slave sync function execution Error 0xE30B

ABL Error slave ofine Error 0xE30C

ABL Error Sync Master Error 0xE30D

ABL Error Slave Informs Master Info Message Error 0xE30E

ABL Error General Assert Error 0xE30F

ABL Error No Dimms On Any Channel in sysem 0xE310

ABL Alert PMU Major Message captured 0xE311

ABL Alert PMU REsults Rx Timing captured 0xE312

ABL Alert PMU REsults Tx Timing captured 0xE313

ABL Alert PMU REsults Rx Vref captured 0xE314

ABL Alert PMU REsults Tx Vref captured 0xE315

EndAgesas 0xEFFF

BIOS Setup - 140 -

5-11 Agesa POST Codes

5-11-1 Universal Post Code

Universal ACPI entry 0xA001

Universal ACPI exit 0xA002

Universal ACPI abort 0xA003

Universal SMBIOS entry 0xA004

Universal SMBIOS exit 0xA005

Universal SMBIOS abort 0xA006

5-11-2 [0xA1XX] For CZ only memory Postcodes

Memory structure initialization (Public interface) 0xA101

SPD Data processing (Public interface) 0xA102

Memory conguration (Public interface) 0xA103

DRAM initialization 0xA104

TpProcMemSPDChecking 0xA105

TpProcMemModeChecking 0xA106

Speed and TCL conguration 0xA107

TpProcMemSpdTiming 0xA108

TpProcMemDramMapping 0xA109

TpProcMemPlatformSpecicCong 0xA10A

TPProcMemPhyCompensation 0xA10B

TpProcMemStartDcts 0xA10C

(Public interface) 0xA10D

TpProcMemPhyFenceTraining 0xA10E

TpProcMemSynchronizeDcts 0xA10F

TpProcMemSystemMemoryMapping 0xA110

TpProcMemMtrrConguration 0xA111

TpProcMemDramTraining 0xA112

(Public interface) 0xA113

TpProcMemWriteLevelizationTraining 0xA114

Below 800Mhz rst pass start 0xA115

Above 800Mhz second pass start 0xA116

Target DIMM congured 0xA117

Prepare DIMMS for WL 0xA118

Congure DIMMS for WL 0xA119

TpProcMemReceiverEnableTraining 0xA11A

Start sweep loop 0xA11B

Set receiver Delay 0xA11C

Write test pattern 0xA11D

Read test pattern 0xA11E

Compare test pattern 0xA11F

- 141 - BIOS Setup

Calculate MaxRdLatency per channel 0xA120

TpProcMemReceiveDqsTraining 0xA121

Set Write Data delay 0xA122

Write test pattern 0xA123

Start read sweep 0xA124

Set Receive DQS delay 0xA125

Read Test pattern 0xA126

Compare Test pattern 0xA127

Update results 0xA128

Start Find passing window 0xA129

TpProcMemTransmitDqsTraining 0xA12A

Start write sweep 0xA12B

Set Transmit DQ delay 0xA12C

Write test pattern 0xA12D

Read Test pattern 0xA12E

Compare Test pattern 0xA12F

Update results 0xA130

Start Find passing window 0xA131

TpProcMemMaxRdLatencyTraining 0xA132

Start sweep 0xA133

Set delay 0xA134

Write test pattern 0xA135

Read Test pattern 0xA136

Compare Test pattern 0xA137

Online Spare init 0xA138

Bank Interleave Init 0xA139

Node Interleave Init 0xA13A

Channel Interleave Init 0xA13B

ECC initialization 0xA13C

Platform Specic Init 0xA13D

Before callout for "AgesaReadSpd" 0xA13E

After callout for "AgesaReadSpd" 0xA13F

Before optional callout "AgesaHookBeforeDramInit" 0xA140

After optional callout "AgesaHookBeforeDramInit" 0xA141

Before optional callout "AgesaHookBeforeDQSTraining" 0xA142

After optional callout "AgesaHookBeforeDQSTraining" 0xA143

Before optional callout "AgesaHookBeforeDramInit" 0xA144

After optional callout "AgesaHookBeforeDramInit" 0xA145

After MemDataInit 0xA146

Before InitializeMCT 0xA147

Before LV DDR3 0xA148

BIOS Setup - 142 -

Before InitMCT 0xA149

Before OtherTiming 0xA14A

Before UMAMemTyping 0xA14B

Before SetDqsEccTmgs 0xA14C

Before MemClr 0xA14D

Before On DIMM Thermal 0xA14E

Before DMI 0xA14F

End of memory code 0xA150

Entry point S3Init 0xA151

Sending MRS2 0xA180

Sedding MRS3 0xA181

Sending MRS1 0xA182

Sending MRS0 0xA183

Continuous Pattern Read 0xA184

Continuous Pattern Write 0xA185

Mem: 2d RdDqs Training begin 0xA186

Mem: Before optional callout to platform BIOS to change External

Vref during 2d Training

0xA187

Mem: After optional callout to platform BIOS to change External

Vref during 2d Training

0xA188

Congure DCT For General use begin 0xA189

Congure DCT For training begin 0xA18A

Congure DCT For Non-Explicit 0xA18B

Congure to Sync channels 0xA18C

Allocate C6 Storage 0xA18D

Before LV DDR4 0xA18E

// BR CPU

BR before AP launch 0xA190

Install AP launched PPI 0xA191

BR after AP launch 0xA192

Before CPU PM 0xA193

Enable IO Cstate 0xA194

Enable C6 0xA195

Install CCX PEI complete PPI 0xA196

BR CPU memory done call back entry 0xA197

Before APM weights 0xA198

After APM weights 0xA199

BR CPU memory done call back end 0xA19A

BR Init Mid entry 0xA19B

BR enable APM 0xA19C

BR Init Mid install protocol 0xA19D

- 143 - BIOS Setup

BR Init Mid end 0xA19E

BR Init Late entry 0xA19F

BR Init Late install protocol 0xA1A0

BR Init Late end 0xA1A1

BR DXE install complete protocol 0xA1A2

UNB install complete PPI 0xA1A3

UNB AfterApLaunch callback entry 0xA1A4

UNB AfterApLaunch callback end 0xA1A5

5-11-3 S3 Interface Post Code

Before the S3 save code calls out to allocate a buffer 0xA1EC

After the S3 save code calls out to allocate a buffer 0xA1ED

Before the memory S3 save code calls out to allocate a buffer 0xA1EE

After the memory S3 save code calls out to allocate a buffer 0xA1EF

Before the memory code calls out to locate a buffer 0xA1F0

After the memory code calls out to locate a buffer 0xA1F1

Before the memory code calls out to locate a buffer 0xA1F2

After the memory code calls out to locate a buffer 0xA1F3

Before the memory code calls out to locate a buffer 0xA1F4

After the memory code calls out to locate a buffer 0xA1F5

Before the memory code calls out to locate a buffer 0xA1F6

After the memory code calls out to locate a buffer 0xA1F7

5-11-4 PMU Post Code

Failed PMU training 0xA1F9

5-11-5 [0xA5XX] assigned for AGESA PSP Module

// PSP V1 Modules

PspPeiV1 entry 0xA501

PspPeiV1 exit 0xA502

MemoryDiscoveredPpiCallback entry 0xA503

MemoryDiscoveredPpiCallback exit 0xA504

PspDxeV1 entry 0xA507

PspDxeV1 exit 0xA508

PspDxeV1 PspPciEnumerationCompleteCallBack entry 0xA50A

PspDxeV1 PspPciEnumerationCompleteCallBack exit 0xA50B

PspDxeV1 ready to boot entry 0xA50C

PspDxeV1 ready to boot exit 0xA50D

PspSmmV1 entry 0xA50E

PspSmmV1 exit 0xA50F

PspSmmV1 SwSmiCallBack entry, build the S3 save area for

resume

0xA510

BIOS Setup - 144 -

PspSmmV1 SwSmiCallBack exit, build the S3 save area for resume 0xA511

PspSmmV1 BspSmmResumeVector entry 0xA512

PspSmmV1 BspSmmResumeVector exit 0xA513

PspSmmV1 ApSmmResumeVector entry 0xA514

PspSmmV1 ApSmmResumeVector exit 0xA515

PspP2CmboxV1 entry 0xA516

PspP2CmboxV1 exit 0xA517

// PSP V2 Modules

PspPeiV2 entry 0xA521

PspPeiV2 exit 0xA522

PspDxeV2 entry 0xA523

PspDxeV2 exit 0xA524

PspDxeV2 PspMpServiceCallBack entry 0xA525

PspDxeV2 PspMpServiceCallBack exit 0xA526

PspDxeV2 FlashAccCallBack entry 0xA527

PspDxeV2 FlashAccCallBack exit 0xA528

PspDxeV2 ready to boot entry 0xA529

PspDxeV2 ready to boot exit 0xA52A

PspDxeV2 exit boot serivce entry 0xA52B

PspDxeV2 exit boot serivce exit 0xA52C

PspSmmV2 entry 0xA52D

PspSmmV2 exit 0xA52E

PspSmmV2 SwSmiCallBack entry, build the S3 save area for

resume

0xA52F

PspSmmV2 SwSmiCallBack exit, build the S3 save area for resume 0xA530

PspSmmV2 BspSmmResumeVector entry 0xA531

PspSmmV2 BspSmmResumeVector exit 0xA532

PspSmmV2 ApSmmResumeVector entry 0xA533

PspSmmV2 ApSmmResumeVector exit 0xA534

PspP2CmboxV2 entry 0xA535

PspP2CmboxV2 exit 0xA536

TpPspRecoverApcbFail 0xA537

// PSP fTpm modules

PspfTpmPei entry 0xA540

PspfTpmPei exit 0xA541

PspfTpmPei memory callback entry 0xA542

PspfTpmPei memory callback exit 0xA543

PspfTpmDxe entry 0xA544

PspfTpmDxe exit 0xA545

// P2C mailbox Handling [0xA59X]

PspP2Cmbox Command SpiGetAttrib Handling entry 0xA591

- 145 - BIOS Setup

PspP2Cmbox Command SpiSetAttrib Handling entry 0xA592

PspP2Cmbox Command SpiGetBlockSize Handling entry 0xA593

PspP2Cmbox Command SpiReadFV Handling entry 0xA594

PspP2Cmbox Command SpiWriteFV Handling entry 0xA595

PspP2Cmbox Command SpiEraseFV Handling entry 0xA596

PspP2Cmbox Command Handling exit 0xA59E

PspP2Cmbox Command Handling Fail exit 0xA59F

// C2P mailbox Handling

PSP C2P mailbox entry base [0xA5BX | Cmd] 0xA5B0

Before send C2P command MboxBiosCmdDramInfo 0xA5B1

Before send C2P command MboxBiosCmdSmmInfo 0xA5B2

Before send C2P command MboxBiosCmdSleep SxInfo 0xA5B3

Before send C2P command MboxBiosCmdRsmInfo 0xA5B4

Before send C2P command MboxBiosCmdQueryCap 0xA5B5

Before send C2P command MboxBiosCmdBootDone 0xA5B6

Before send C2P command MboxBiosCmdClearS3Sts 0xA5B7

Before send C2P command MboxBiosCmdS3DataInfo 0xA5B8

Before send C2P command MboxBiosCmdNop 0xA5B9

Before send C2P command MboxBiosCmdHSTIQuery 0xA5C4

Before send C2P command MboxBiosCmdClrSmmLock 0xA5C7

Before send C2P command MboxBiosCmdPcieInfo 0xA5C8

Before send C2P command MboxBiosCmdGetVersion 0xA5C9

PSP C2P mailbox exit base [0xA5DX | Cmd] 0xA5D0

Wait C2P command MboxBiosCmdDramInfo nished 0xA5D1

Wait C2P command MboxBiosCmdSmmInfo nished 0xA5D2

Wait C2P command MboxBiosCmdSleep SxInfo nished 0xA5D3

Wait C2P command MboxBiosCmdRsmInfo nished 0xA5D4

Wait C2P command MboxBiosCmdQueryCap nished 0xA5D5

Wait C2P command MboxBiosCmdBootDone nished 0xA5D6

Wait C2P command MboxBiosCmdClearS3Sts nished 0xA5D7

Wait C2P command MboxBiosCmdS3DataInfo nished 0xA5D8

Wait C2P command MboxBiosCmdNop nished 0xA5D9

Wait C2P command MboxBiosCmdHSTIQuery nished 0xA5E4

Wait C2P command MboxBiosCmdClrSmmLock nished 0xA5C7

Wait C2P command MboxBiosCmdPcieInfo nished 0xA5C8

Wait C2P command MboxBiosCmdGetVersion nished 0xA5C9

// fTPM command Handling [0xA5FX]

PspfTpm send TPM command entry 0xA5F0

PspfTpm send TPM command exit 0xA5F1

PspfTpm receive TPM command entry 0xA5F2

PspfTpm receive TPM command exit 0xA5F3

BIOS Setup - 146 -

5-11-6 [0xA9XX, 0xAAXX] assigned for AGESA NBIO Module

// NbioBase

AmdNbioBase PEIM driver entry 0xA900

AmdNbioBase PEIM driver exit 0xA901

AmdNbioBase DXE driver entry 0xA902

AmdNbioBase DXE driver exit 0xA903

// PCIe

AmdNbioPcie PEIM driver entry 0xA904

AmdNbioPcie PEIM driver exit 0xA905

AmdNbioPcie DXE driver entry 0xA906

AmdNbioPcie DXE driver exit 0xA907

// GFX

AmdNbioGfx PEIM driver entry 0xA908

AmdNbioGfx PEIM driver exit 0xA909

AmdNbioGfx DXE driver entry 0xA90A

AmdNbioGfx DXE driver exit 0xA90B

// IOMMU

AmdNbioIommu DXE driver entry 0xA90C

AmdNbioIommu DXE driver exit 0xA90D

// ALIB

AmdNbioALIB DXE driver entry 0xA90E

AmdNbioALIB DXE driver exit 0xA90F

// SMU

AmdSmuV8 PEIM driver entry 0xA910

AmdSmuV8 PEIM driver exit 0xA911

AmdSmuV8 DXE driver entry 0xA912

AmdSmuV8 DXE driver exit 0xA913

AmdSmuV9 PEIM driver entry 0xA914

AmdSmuV9 PEIM driver exit 0xA915

AmdSmuV9 DXE driver entry 0xA916

AmdSmuV9 DXE driver exit 0xA917

AmdSmuV10 PEIM driver entry 0xA918

AmdSmuV10 PEIM driver exit 0xA919

AmdSmuV10 DXE driver entry 0xA91A

AmdSmuV10 DXE driver exit 0xA91B

// IOMMU PEIM

AmdNbioIommu PEIM driver entry 0xA920

AmdNbioIommu PEIM driver exit 0xA921

// APCB DXE

APCB DXE Entry 0xA922

APCB DXE Exit 0xA923

- 147 - BIOS Setup

// APCB SMM

APCB SMM Entry 0xA924

APCB SMM Exit 0xA925

// [0xA950, 0xA99F] NBIO PPI/PROTOCOL Callback

NbioTopologyCongureCallback entry 0xA950

NbioTopologyCongureCallback exit 0xA951

MemoryCongDoneCallbackPpi entry 0xA952

MemoryCongDoneCallbackPpi exit 0xA953

DxioInitializationCallbackPpi entry 0xA954

DxioInitializationCallbackPpi exit 0xA955

DispatchSmuV9Callback entry 0xA956

DispatchSmuV9Callback exit 0xA957

DispatchSmuV10Callback entry 0xA958

DispatchSmuV10Callback exit 0xA959

AmdPcieMiscInit Event entry 0xA95A

AmdPcieMiscInit Event exit 0xA95B

NbioBaseHookReadyToBoot Event entry 0xA95C

NbioBaseHookReadyToBoot Event exit 0xA95D

NbioBaseHookPciIO Event entry 0xA95E

NbioBaseHookPciIO Event exit 0xA95F

// [0xA980, 0xA99F] BR GNB Task

GnbEarlyInterfaceCZ entry 0xA970

GnbEarlyInterfaceCZ exit 0xA971

PcieCongurationInit entry 0xA972

PcieCongurationInit exit 0xA973

GnbEarlierInterfaceCZ entry 0xA974

GnbEarlierInterfaceCZ exit 0xA975

PcieEarlyInterfaceCZ entry 0xA976

PcieEarlyInterfaceCZ exit 0xA977

PciePostEarlyInterfaceCZ entry 0xA978

PciePostEarlyInterfaceCZ exit 0xA979

GfxCongPostInterfaceCZ entry 0xA97A

GfxCongPostInterfaceCZ exit 0xA97B

GfxPostInterfaceCZ entry 0xA97C

GfxPostInterfaceCZ exit 0xA97D

GnbPostInterfaceCZ entry 0xA97E

GnbPostInterfaceCZ exit 0xA97F

PciePostInterfaceCZ entry 0xA980

PciePostInterfaceCZ exit 0xA981

GnbEnvInterfaceCZ entry 0xA982

GnbEnvInterfaceCZ exit 0xA983

BIOS Setup - 148 -

GfxCongEnvInterface entry 0xA984

GfxCongEnvInterface exit 0xA985

GfxEnvInterfaceCZ entry 0xA986

GfxEnvInterfaceCZ exit 0xA987

GfxMidInterfaceCZ entry 0xA988

GfxMidInterfaceCZ exit 0xA989

GfxIntInfoTableInterfaceCZ entry 0xA98A

GfxIntInfoTableInterfaceCZ exit 0xA98B

PcieMidInterfaceCZ entry 0xA98C

PcieMidInterfaceCZ exit 0xA98D

GnbMidInterfaceCZ entry 0xA98E

GnbMidInterfaceCZ exit 0xA98F

GnbSmuMidInterfaceCZ entry 0xA990

GnbSmuMidInterfaceCZ exit 0xA991

InvokeAmdInitLate entry 0xA992

InvokeAmdInitLate exit 0xA993

GnbSmuServiceRequestV8 entry 0xA994

GnbSmuServiceRequestV8 exit 0xA995

5-11-7 [0xACXX] assigned for AGESA CCX Module

CCX IDS IDS_HOOK_CCX_AFTER_AP_LAUNCH 0xAC10

CCX PEI entry 0xAC50

CCX downcore entry 0xAC51

CCX DXE entry 0xAC55

CCX MP service callback entry 0xAC56

CCX Read To Boot callback entry 0xAC57

CCX SMM entry 0xAC5D

CCX PEI start to launch APs for S3 0xAC70

CCX PEI end of launching APs for S3 0xAC71

CCX start to launch AP 0xAC90

CCX launch AP is ended 0xAC91

CCX launch AP abort 0xAC92

CCX MP service abort 0xAC93

CCX cac weights 0xAC94

CCX PEI exit 0xACE0

CCX downcore exit 0xACE1

CCX DXE exit 0xACE5

CCX MP service callback exit 0xACE6

CCX Read To Boot callback exit 0xACE7

CCX SMM exit 0xACED

BIOS Setup - 149 -

5-11-8 [0xADXX] assigned for AGESA DF Module

DF PEI entry 0xAD50

DF DXE entry 0xAD55

DF Ready to Boot entry 0xAD56

DF PEI exit 0xADE0

DF DXE exit 0xADE5

DF Ready to Boot exit 0xADE6

5-11-9 [0xAFXX] assigned for AGESA FCH Module

FCH InitReset dispatch point 0xAF01

FCH InitEnv dispatch point 0xAF06

FCH InitMid dispatch point 0xAF07

FCH InitLate dispatch point 0xAF08

FCH InitS3Early dispatch point 0xAF0B

FCH InitS3Late dispatch point 0xAF0C

FCH InitS3Early dispatch nished 0xAF0D

FCH InitS3Late dispatch nished 0xAF0E

FCH Pei Entry 0xAF10

FCH Pei Exit 0xAF11

FCH MultiFch Pei Entry 0xAF12

FCH MultiFch Pei Exit 0xAF13

FCH Dxe Entry 0xAF14

FCH Dxe Exit 0xAF15

FCH MultiFch Dxe Entry 0xAF16

FCH MultiFch Dxe Exit 0xAF17

FCH Smm Entry 0xAF18

FCH Smm Exit 0xAF19

FCH Smm Dispatcher Entry 0xAF20

FCH Smm Dispatcher Exit 0xAF21

FCH InitReset HwAcpi 0xAF40

FCH InitReset AB Link 0xAF41

FCH InitReset LPC 0xAF42

FCH InitReset SPI 0xAF43

FCH InitReset eSPI 0xAF44

FCH InitReset SD 0xAF45

FCH InitReset eMMC 0xAF46

FCH InitReset SATA 0xAF47

FCH InitReset USB 0xAF48

FCH InitReset xGbE 0xAF49

FCH InitReset HwAcpiP 0xAF4F

FCH InitEnv HwAcpi 0xAF50

BIOS Setup - 150 -

FCH InitEnv AB Link 0xAF51

FCH InitEnv LPC 0xAF52

FCH InitEnv SPI 0xAF53

FCH InitEnv eSPI 0xAF54

FCH InitEnv SD 0xAF55

FCH InitEnv eMMC 0xAF56

FCH InitEnv SATA 0xAF57

FCH InitEnv USB 0xAF58

FCH InitEnv xGbE 0xAF59

FCH InitEnv HwAcpiP 0xAF5F

FCH InitMid HwAcpi 0xAF60

FCH InitMid AB Link 0xAF61

FCH InitMid LPC 0xAF62

FCH InitMid SPI 0xAF63

FCH InitMid eSPI 0xAF64

FCH InitMid SD 0xAF65

FCH InitMid eMMC 0xAF66

FCH InitMid SATA 0xAF67

FCH InitMid USB 0xAF68

FCH InitMid xGbE 0xAF69

FCH InitLate HwAcpi 0xAF70

FCH InitLate AB Link 0xAF71

FCH InitLate LPC 0xAF72

FCH InitLate SPI 0xAF73

FCH InitLate eSPI 0xAF74

FCH InitLate SD 0xAF75

FCH InitLate eMMC 0xAF76

FCH InitLate SATA 0xAF77

FCH InitLate USB 0xAF78

FCH InitLate xGbE 0xAF79

End of TP range for FCH 0xAFFF

Last dened AGESA PCs 0xFFFF

- 151 - BIOS Setup

5-12 BIOS POST Beep code (AMI standard)

5-12-1 PEI Beep Codes

# of Beeps Description

1 Memory not Installed.

1 Memory was installed twice (InstallPeiMemory routine in PEI Core called

twice)

2 Recovery started

3DXEIPL was not found

3DXE Core Firmware Volume was not found

4Recovery failed

4S3 Resume failed

7 Reset PPI is not available

5-12-2 DXE Beep Codes

# of Beeps Description

1 Invalid password

4 Some of the Architectural Protocols are not available

5 No Console Output Devices are found

5 No Console Input Devices are found

6 Flash update is failed

7 Reset protocol is not available

8 Platform PCI resource requirements cannot be met

BIOS Setup - 152 -

5-13 BIOS Recovery Instruction

The system has an embedded recovery technique. In the event that the BIOS becomes corrupt the boot block

can be used to restore the BIOS to a working state. To restore your BIOS, please follow the instructions listed

below:

Recovery Instruction:

1. Change xxx.ROM to amiboot.rom.

2. Copy amiboot.rom and AFUDOS.exe to USB diskette.

3. Setting BIOS Recovery jump to enabled status.

4. Boot into BIOS recovery.

5. Run Proceed with ash update.

6. BIOS update.