UEFI Function

UEFI Function List


System Options



SATA controller option

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Embedded Sata Configuration EmbeddedSata
• Ahci[Enable SATA AHCI Support]
• Raid[Enable Dynamic Smart Array RAID Support]
Ahci
[SATA Controller Configuration]
Use this option to enable chipset on the motherboard to configure SATA controller. When Customers select AHCI, which is the native interface specification of serial ATA, or RAID (if supported), please confirm that the OS is working correctly and exactly.
Sata Secure erase SataSecureErase
• Enabled
• Disabled
Disabled
[Secure Data deletion option]
Use this option to control whether Secure Data deletion functionality is supported. Enabling this option will prevent Security Freeze Lock command (to lock down the current data for protection from deletion) from being sent to SATA hard drives to support, and Security deletion will become operable (a command to delete will be supported and executed). This option can be supported only when the SATA controller is in AHCI mode. Security Deletion works with hard drives and enables security deletion operation.


Virtualization

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Virtualization Technology ProcVirtualization
• Enabled
• Disabled
Enabled
[Virtualization Technology]
Use this option to enable Intel Virtualization Technology on a Virtual Machine Manager (VMM). You do not need to disable Virtualization Technology if you are using a VMM or an operating system that does not support AMD-V virtualization.

Inter R VT-d

IntelProcVtd
• Enabled
• Disabled
Enabled
[Intel (R) VT-d]
Enable Virtual Machine Manager (VM Manager has to support this function) so that Customers can use hardware functions delivered by Intel Virtualization Technology for Directed I/O (VT-d).
SR-IOV Sriov
• Enabled
• Disabled
Enabled
[SR-IOV]
The SR-IOV (Single root I/O virtualization) interface is an extension to the PCI express (PCIe) specification. You can create a virtual instance of the PCI device to be used in Hypervisor based operating system. It enables the BIOS to allocates more PCI resources to PCIe devices. Enable this option for a PCIe device or operating system that supports SR-IOV. Leave it enabled when using a hypervisor.


Boot Time

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

DynamicPower capping DynamicPowerCapping
• Auto
• Enabled
• Disabled
Auto
[Dynamic Power Capping]
This option is used to configure power calibration that is performed by System ROM during boot processing. In Auto mode, the calibration starts first after the server boot. After then, it works only when hardware configuration or configuration setting is changed. If it is set to OFF, the calibration will not operate, and Dynamic Power Capping will not be supported. It operates at every boot only when this option is set to ON.
Extended memory test

Extended memory test

• Enabled
• Disabled
Disabled
[Extended Memory test]
When enabled, the system validates memory during the memory initialization process. If memory errors are found and if they are detected as uncorrectable errors, the memory will be mapped out (re-adjusted) and the failed DIMMs will be series logged to IML. Enabling this option may increase system boot times.


Memory operations

Key (API key parameter)

Value set as (Default)

Description

AdvancedMemProtection AdvancedECC
[Advanced Memory Protection]
Use this option to configure additional memory protection with Error Checking and Correcting (ECC). Advanced ECC provides the largest memory capacity to the operating system. Lock-step mode protects the system against single-bit failures and some multi-bit failures. Online Spare enables the system to automatically map out a group of memory that is receiving excessive correctable memory errors. This memory is replaced by a spare group of memory. Mirrored Memory provides the maximum protection against uncorrected memory errors that might otherwise result in a system failure. You must install additional memory to provide mirrored memory to the operating system.


Boot options

Boot Mode

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Boot Mode BootMode
-Uefi
-LegacyBIOS
Uefi
[Boot Mode]
This option sets the system boot mode.
UEFI optimized boot UefiOptimizedBoot
• Enabled
• Disabled
Enabled
[UEFI optimized Boot]
Configures the system BIOS to boot using native UEFI graphic drivers. Select this setting for compatibility with VMware ESXi on a system configured for UEFI Mode, and to enable and use Secure Boot Mode.
UEFI Pxe Boot UefiPxeBoot
• Auto
•IPv4ThenIPv6
•IPv4
•IPv6
•IPv6ThenIPv4
Auto
[UEFI Pxe Boot]
Network boot policy of UEFI PXE (Pre-boot Execution Environment) can be selected. If both IPv4 and IPv6 are enabled, each network boot target is displayed two times (one for IPv4 and other one for IPv6) in the UEFI Boot Order List. This option can be configured only when the boot mode is set to UEFI.
Boot order policy

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Number of attempts to try different boot order BootOrderPolicy
•RetryIndefinitely
•AttemptOnce
•ResetAfterFailed
RetryIndefinitly
[Boot Order policy]
Use this option to control the system behavior when attempting to boot devices per the UEFI Boot Order list. This defines the number of attempts to try different boot order.
Embedded UEFi shell

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Embedded Uefi SHell EmbeddedUefiSHell
• Enabled
• Disabled
Enabled
[Enable UEFI Shell]
Use this option to enable or disable the Embedded UEFI Shell. The Embedded UEFI Shell is a pre-boot command line environment for scripting and running UEFI applications, including UEFI boot loaders. The Embedded UEFI Shell also provides CLI-based commands you can use to obtain system information, and to configure and update the system BIOS. Enabling this option adds the Embedded UEFI Shell to the UEFI boot options. Boot Mode must be set to UEFI to configure this option.
Add shell to boot order

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Add shell to boot order UefiShellBootOrder
• Enabled
• Disabled
Disabled
[Enable Embedded UEFI shell in boot order list]
Use this option to add the Embedded UEFI Shell as an entry in the UEFI Boot Order list. This option is only available when the Embedded UEFI Shell is enabled and Boot Mode is set to UEFI Mode.
Shell script auto start

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

startup.nsh script file needed UefiShellStartup
• Enabled
• Disabled
Disabled
[UEFI Shell script auto start option]
Use this option to enable or disable automatic execution of the Embedded UEFI Shell startup script during Shell startup. When auto-start is enabled, the Shell Auto-Start Script Location option is set to Auto, the Shell looks for the script file “startup.nsh” in any of the FAT16 or FAT32 file systems available.You can store the script file on local media, or access it from a network location. You must name the script file startup.nsh and place it on local media or a network location accessible.This option is only available when the Embedded UEFI Shell is enabled and Boot Mode is set to UEFI Mode.

Power Management

Power Profile

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Power settings can be configured in 4 ways PowerProfile
•BalancedPowerPerf [Balanced power & performance]
•MinPower [Minimum power consumption]
•MaxPerf [maximum performance]
•Custom [custom mode]
MaxPerf
[HP Power Profile]
Use this option to select a power profile based on power and performance characteristics. Balanced Power and Performance provides optimum settings to maximize power savings with minimal impact to performance for most operating systems and applications. Minimum Power Usage enables power reduction mechanisms that can negatively affect performance. This mode guarantees a lower maximum power usage by the system. Maximum Performance disables all power management options that can affect negatively affect performance. Custom enables to configure a custom profile for the environment.
Power regulator

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Power regulator PowerRegulator
•DynamicPowerSavings
•StaticLowPower
•StaticHighPerf
•OsControl
StaticHighPerf
[HP Power regulator]
Use this option to set the Power Regulator mode for ProLiant support. These settings can help you increase server efficiency and manage power consumption. Certain processors support only one power state and operate at their initialized frequency, regardless of the selected Power Regulator mode.
Min processor idle power core C-state

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Lowest idle power processor that the OS can use, higher C state means lower the power MinProcIdlePower
• C6 [C6 State]
• C3 [C3 State]
• C1E [C1E State]
• NoCStates [C-Stateなし]
NoCStates
[ Minimum processor idle power core state ]
Use this option to select minimum idle power core state (C State) of the processor that OS uses. The higher the C State is set, the less power consumption of idle power core state will be. Minimum processor idle power core state that the processor supports is C6. This option can be configured only when [HP Power Profile] is set to Custom.
Min processor idle power package C-state

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Min processor idle power package C-state MinprocIdlePkgState
• C6Retention [パッケージ C6(リテンション) State]
• C6NonRetention [パッケージ C6(リテンションなし) State]
• NoState [パッケージStateなし]
NoState
[ Minimum Processor Idle Power Package ]
Use this option to configure the lowest processor idle power state (C-State). The processor automatically transitions into package C-States based on the Core C-States in which cores on the processor have transitioned. The higher the package C-State, the lower the power consumption of that idle package state. Package C6 (no retention) is the lowest power idle package state supported by the processor. This option can be configured only when [HP Power Profile] is set to Custom.
Advance Power Options

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Intel QPI link Power Management IntelQpiPowerManagement
If Flavors General Purpose 1/ Workload Optimized 1 is used
• Enabled
If Flavors General Purpose 2 is used
• Enabled
• Disabled
If Flavors General Purpose 1/ Workload Optimized 1 is used
• Enabled
If Flavors General Purpose 2 is used
• Disabled
[ Intel (R) QPI Link management ]
Use this option to enable or disable power management for QPI (Quick Path Interconnect) links. When enabled, QPI links are put into a low power state when the links are not being used. This lowers power usage with minimal performance effect. This option is available on servers with multiple Intel processors i.e with two or more CPUs.
Intel QPI link frequency IntelQpiFreq
• Auto
•MinQpiSpeed [Minimum QPI Speed]
Auto
[ Intel (R) QPI Link Frequency ]
Use this option to set the QPI link frequency to a lower speed. Doing so can reduce power consumption, but can also impact system performance.You can configure this option on systems with two or more CPUs and the Power profile is set to custom.
Intel QPI Link Enable IntelQpiLinkEn
• Auto
•SingleLink [Single Link Operation]
Auto
[Intel QPI Link Enable]
Use this option to configure the QPI topology to use fewer links between processors, when available. Changing from the default can reduce QPI bandwidth performance in exchange for less power consumption.
energy performance bias EnergyPerfBias
•MaxPerf
•BalancedPerf
•BalancedPower
•PowerSavingsMode
MaxPerf
[ Energy Performance Bias ]
Use this option to configure several processor subsystems to optimize the performance and power usage of the processor. Balanced Performance provides optimum power efficiency and is recommended for most environments. Maximum Performance Mode is recommended for environments that require the highest performance and lowest latency but are not sensitive to power consumption. Only use Power Savings Mode in environments that are power sensitive and can accept reduced performance.You can only configure this option if the Power Profile is set to Custom.
max me bus freq MaxMemBusFreqMhz
• Auto
• 2133 [2133 MHz]
• 1867 [1867 MHz]
• 1600 [1600 MHz]
• 1333 [1333 MHz]
• 1066 [1066 MHz]
Auto
[ Bus Frequency ]
Use this option to configure the memory system to run memory at a lower maximum speed than that supported by the installed processor and DIMM configuration.Setting this option to Auto configures the system to run memory at the maximum speed supported.You can only configure this option if the Power Profile is set to Custom
Channel interleaving ChannelInterleaving
• Enabled
• Disabled
Enabled
[ Channel Interleaving]
Use this option to modify the level of interleaving for which the memory system is configured. Typically, higher levels of memory interleaving result in maximum performance. However, reducing the level of interleaving can result in power savings.You can only configure this option if the Power Profile is set to Custom.
Max PCI express speed MaxPcieSpeed
•MaxSupported [maximum support]
•PcieGen1 [PCI-E Generation 1.0]
Maxsupported
[ Maximum PCIe speed setting ]
If a PCI-Express device does not run properly at its optimal speed, lowering the speed at which the device is running can address this issue. This option enables Customers to lower the maximum PCI Express speed at which the server allows PCI -Express devices to operate. Customers can also use it to address issues with problematic PCI Express devices. Setting this value to [Maximum Supported] configures the platform to run at the maximum speed supported by the platform or the PCIe device, whichever is lower. This option can be configured only when [HP Power Profile] is set to Custom.
Dynamic Power saving mode response DynamicPowerResponse
• Fast
• Slow
Fast
[ Dynamic Power Savings Mode Response ]
Use this option to enable the System BIOS to control processor performance and power states depending on the processor workload. You can set the response time for switching between power states.You can only configure this option if the Power Profile is set to Custom.
Collaborative power control CollabPowerControl
• Enabled
• Disabled
Enabled
[Collaborative Power Control]
For operating systems that support the Processor Clocking Control (PCC) Interface, enabling this option allows the Operating System to request processor frequency changes even if the Power Regulator option on the server configured for Dynamic Power Savings Mode. For Operating Systems that do not support the PCC Interface, or when the Power Regulator Mode is not configured for Dynamic Power Savings Mode, this option has no effect on system operation. This option can be configured only when [HP Power Profile] is set to Custom.
Redundant power supply mode RedundantPowersupply
•BalancedMode [Balanced Mode]
•HighEfficiencyAuto [High Efficiency Mode (Auto) ]
•HighEfficiencyOddStandby [ High Efficiency Mode (Odd Supply standby) ]
•HighEfficiencyEvenStandby
Balanced mode
[Redundant power supply mode]
Use this option to configure how the system handles redundant power supply configurations.
Intel DMI link freq IntelDmiLinkFreq
• Auto
•DmiGen1[Gen 1 Speed]
Auto
[ Intel DMI Link Frequency ]
Use this option to force the link speed between the processor and the south bridge (I/O Controller) to run at slower speeds to save power.

Performance Options

Intel Turbo Boost tech

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Intel Turbo Boost tech

ProcTurbo
• Enabled
• Disabled
Enabled
[ Intel(R) Turbo Boost Technology ]
Turbo Boost Technology enables the processor to transition to a higher frequency than the processor’s rated speed if the processor has available power and is within temperature specifications. Disabling this option reduces power usage and also reduces the system’s maximum achievable performance under some workloads.
ACPI slit preference

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

ACPI slit preference

AcpiSlit
• Enabled
• Disabled
Enabled
[ ACPI Slit ]
ACPI SLIT can be enabled or disabled. ACPI SLIT(Advanced Configuration and Power Interface System Locality Information Table) defines the relative access times between processors, memory subsystems, and I/O subsystems. Operating systems that support the SLIT can use this information to improve performance by allocating resources and workloads more efficiently.
Acpi Root Bridge Pxm

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Acpi Root Bridge Pxm AcpiRootBridgePxm
• Enabled
• Disabled
Enabled
[ Memory proximity reporting for I/O ]
When enabled, the System ROM reports the proximity relationship between I/O devices and system memory to the operating system. Most operating systems can use this information to efficiently assign memory resources for devices, such as network controllers and storage devices.
Advance Performing tunning options

Function

Key (API key parameter)

Values Available

Value set as (Default)

Description

Adjacent Sector Prefetcher AdjSecPrefetch
• Enabled
• Disabled
Enabled
[ Adjacent sector Prefetcher]
Use this option to disable the processor Adjacent Sector Prefetch feature. In some cases, setting this option to disabled can improve performance. Typically, setting this option to enabled provides better performance. Only disable this option after performing application benchmarking to verify improved performance in the environment.
DCU IP Prefetcher DCUIPPrefetcher
• Enabled
• Disabled
Enabled
[DCU IP Prefetcher]
Use this option to disable the processor DCU IP Prefetcher feature. In some cases, setting this option to disabled can improve performance. In most cases, the default value of enabled provides optimal performance. Only disable this option after performing application benchmarking to verify improved performance in the environment.

DCUstreamprefetcher DCUstreamprefetcher

DCUstreamprefetcher
• Enabled
• Disabled
Enabled
[ DCU Stream Prefetcher ]
Use this option to disable the processor DCU Stream Prefetcher feature. In some cases, setting this option to disabled can improve performance. Typically, setting this option to enabled provides better performance. Only disable this option after performing application benchmarking to verify improved performance in your environment.
HW Prefetcher HwPrefetcher
• Enabled
• Disabled
Enabled
[ HW prefetcher ]
Use this option to disable the processor HW prefetch feature. In some cases, setting this option to disabled can improve performance. Typically, setting this option to enabled provides better performance. Only disable this option after performing application benchmarking to verify improved performance in the environment.

Intel Performance Monitoring Support

IntelPerfMonitoring
• Enabled
• Disabled
Disabled
[Intel Performance Monitoring Support]
This option does not impact performance. When enabled, this option exposes certain chipset devices that can be used with the Intel Performance Monitoring Toolkit.
Node Interleaving NodeInterleaving
• Enabled
• Disabled
Disabled
[Node Interleaving]
Use this option to disable the NUMA architecture properties for the system. All operating system platforms support NUMA architectures. In most cases, optimum performance is obtained by disabling the Node Interleaving option. When this option is enabled, memory addresses are interleaved across the memory installed for each processor. Some workloads might experience improved performance when this option is enabled.

QPI Bandwidth Optimization (RTID)

QpiBandwidthopt
• Balanced
•OptimizedForIo [Optimized for I/O (Alternate RTID)]
Balanced
[ QPI Bandwidth Optimization (RTID) ]
The QPI link between two processors provides the best performance for most applications. The Balanced option provides the best performance for most applications and benchmarks. The optimized for I/O option can increase bandwidth from I/O devices, such as GPUs that rely on direct access to system memory. This option is only configurable if two or more CPUs are present.
Qpi Snoop Config QpiSnoopConfig
• Standard
• EarlySnoop
• ClusterOnDie
Standard
[ QPI Snoop configuration ]
Use this option to select the snoop mode used by the processor and QPI bus. Changing this option can have an impact on memory performance. The Home Snoop option provides high-memory bandwidth in a NUMA environment. The Cluster on Die option can provide increased memory bandwidth in highly optimized NUMA workloads. Compared with Home Snoop Option, the Early Snoop option can decrease memory latency, but can also result in lower overall bandwidth as compared to the other modes.

UEFI Non-Function list



System Options

Processor Option

Key (API key parameter)

Value set as (Default)

Description

ProcCoreDisable 0
[Physical Processor core option]
In this option, processor core, which is the heart of the processor, can be turned off, by using Intel’s CMP (Core Multi Processing) technology. This option helps to improve YES Performance of certain applications by obtaining benefits of high performance of cores without increasing operations of the hearts of the processor while turning off certain number of physical processors to reduce the power consumption of the processor. This option also helps to detect problems in softwares that are licensed per core.


Serial Port option

Key (API key parameter)

Value set as (Default)

Description

EmbeddedSerial Com1Irq4
[ Embedded serial port ]
Select this option to assign the logical COM Port address and associated default resources to the selected physical serial port. The operating system can overwrite this setting.
VirtualSerialPort Com2Irq3
[ Virtual Serial Port ]
Select this option to assign the logical COM Port and associated default resources to the Virtual Serial Port (VSP). To support BIOS Serial Console and Operating System Serial Console, VSP presents iLO Management Controller as a physical serial port.
USB Port option

Key (API key parameter)

Value set as (Default)

Description

UsbControl UsbEnabled
[ USB Control Support ]
USB Enabled: Enables all USB ports and embedded devices. External USB Ports Disabled: Disables only external USB ports.
UsbBoot Enabled
[ USB Boot Support ]
Set this option to disabled to prevent the system from booting to any USB devices connected to the server. This includes preventing boot to ILO virtual media devices and the embedded SD or uSD card slot (if supported)
RemovableFlashBootSeq ExternalKeysFirst
[ Removable Flash Media Boot Sequence ]
Use this option to select from which device the system boots first, external USB drive key, internal USB drive key, or internal SD card slot. This option does not override the device boot order in the [Standard Boot Order (IPL)] option. This option can be configured only when the boot mode is set to Legacy BIOS.
EmbeddedUserPartition Disable
[User partition]
Use this option to control the Embedded User Partition (a general purpose disk partition on non-volatile flash memory that is embedded on the system board).
VirtualInstallDisk Disabled
[ Virtual Install disk ]
Use this option to control the Virtual Install Disk. The Virtual Install Disk contains drivers specific to this server that an OS can use during installation. If enabled, the Virtual Install Disk appears as a drive in the operating system
Usb3Mode Auto
[Usb 3.0 Mode]
Use this option to configure the operating mode of the USB 3.0 ports. If set to Auto Mode, USB 3.0 capable devices operate at USB 2.0 speeds in the pre-boot environment and during boot. When a USB 3.0 capable OS USB driver loads, USB 3.0 devices transition to USB 3.0 speeds. This mode provides compatibility with operating systems that do not support USB 3.0, while enabling USB 3.0 devices to operate at USB 3.0 speeds with current operating systems. If enabled, USB 3.0 capable devices operate at USB 3.0 speeds at all times (including the pre-boot environment) when in UEFI Boot Mode. Do not use this mode with operating systems that do not support USB 3.0. If operating in Legacy Boot Mode, the USB 3.0 ports do not function in the pre-boot environment, and are not bootable. If set to disabled, USB 3.0 capable devices function at USB 2.0 speeds at all times.

Network options

Network Boot Option

Key (API key parameter)

Value set as (Default)

Description

EmbNicEnable Enabled
[Embedded NIC]
Use this option to set PCI device (Embedded NIC).
NetworkBootRetry Enabled
[ Network Boot retry support ]
Use this option to disable the Network Boot Retry setting. By default, the System BIOS attempts to boot the Network device (such as a PXE device) up to 20 times before moving to the next IPL device.
Slot1NicBoot1 Pxeboot
[Slot1 NicBoot1]
Use this option to enable network boot (PXE, iSCSI, or FCoE) for the selected NIC. You might need to configure the NIC firmware for the boot option to be active.
Slot2NicBoot1 Pxeboot
[Slot2 NicBoot1]
Same as above.
Slot1NicBoot2 Pxeboot
[Slot1 NicBoot2]
Same as above.
Slot2NicBoot2 Pxeboot
[Slot2 NicBoot2]
Same as above.
NicBoot1 Disabled
[NIC Network Boot]
Selected NIC to the network boot (PXE, iSCSI, or FCoE) is set to enable.
NicBoot2 Disabled

Same as above.

NicBoot3 Disabled

Same as above.

NicBoot4 Disabled

Same as above.

Storage Options

PCIe storage boot policy

Key (API key parameter)

Value set as (Default)

Description

EmbSASenable Enabled
[Built-in SAS]
Use this option to set PCI device (Embedded Storage).
EmbSata1Enable Enabled
[Built-in SATA1]
Use this option to set PCI device (Embedded SATA Controller ①).
EmbSata2Enable Enabled
[Built-in SATA2]
Use this option to set PCI device (Embedded SATA Controller ②).

Server Security

Server Security

Key (API key parameter)

Value set as (Default)

Description

F11BootMenu Enabled
[F11 boot menu prompt]
You can specify a specific boot override option only in this boot. After you restart the server with this option, by pressing the [F11] key on the main screen of the HP ProLiant, you can boot directly to the one-time boot menu of system utilities.
IntelligentProvisioning Enabled
[Intelligent Provisioning]
By pressing the [F10] key While the server boots, is set to be able to enter the Intelligent Provisioning environment.
EmbeddedDiagnostics Enabled
[Auto diagnostic equipment]
Built-in use of automatic diagnostic equipment enables.
EmbeddedDiagsMode Auto
[Embedded Diags Mode]
You can use the option to configure the built-in automatic diagnostic equipment automatically or text console mode.
ProcNoExecute Enable
[No-Execute Protection]
You can protect your system from malicious code or viruses. As long as that does not contain executable code in its place, the memory is marked as non-executable. Part of the virus will insert code from non-executable memory of the place, but will try to run, these attacks will cause exception is detected in the middle. You need the operating system supports this option.
SecureBoot Disabled
[Secure Boot Settings]
When enabled, it can be run during the boot process, only firmware components and operating systems with the appropriate boot loader with a digital signature. If the secure boot is enabled, you can start, support secure boot, the only operating system that has a signed EFI boot loader in one of the authenticated key.
TpmOperation Disable
[TPM Operation]
In this option, to control the functions of the Trusted Platform Module at the time of start-up.
TpmState Notpresent

The current state of the TPM.

TpmVisibility Visible
[TPM Visibility]
It is an option to avoid the TPM in this option from the OS. BIOS security start-up function of by TPM to avoid will turn off. In addition, TPM does not correspond to any other command. Use events of this feature is aimed at saving electricity without taking away anything from the actual hardware.
TpmType NoTPM
[TPM Type]
TPM (Trusted Platform Module) is a device to be attached to the computer’s motherboard, with an LSI chip that implements security-related processing functions.

Server Availability

Server Availability

Key (API key parameter)

Value set as (Default)

Description

AsrStatus Disabled
[Asr Status]
Use this option to set ASR (Automatic Server Recovery).
AsrTimeoutMinutes 10
[ASR Timeout]
We have set the amount of time to wait before re-starting the server at the time of the lock-up of the operating system crash or when the server. When the server in the selected amount of time does not respond, the server will automatically restart.
WakeOnLAN Disabled
[Wake On LAN]
Use the WOL compatible NIC you can power up the system remotely. To use this option, NIC, NIC driver, the operating system must have the WOL support.
PostF1Prompt Delayed20sec
[POST F1 Prompt]
You configure the system to display the F1 key to the server POST screen. If an error occurs, press the F1 key, you can continue the power-on sequence of the server.
PowerButton Enabled
[Power Button Mode]
If you disable this option, disabled function by pressing the power button momentarily. This option, and override of 4 seconds power button, does not affect the remote power control function.
AutoPowerOn Restore Last power state
[Automatic Power-On]
When the AC power is connected to the system, and configure the server to automatically become power-on. By default, when the AC power is restored after a loss of AC power, the system will return to the previous power state. This option to override this behavior, even in the power supply system at the time of the loss is turned off, it will return when power is supplied to the system on the state.
PowerOnDelay None
PowerOnDelay
Use this option to delay power-on of the server. Use press-down of the power button (use iLO virtual power button), Wake-on LAN event, or RTC Wake-up event to override the delay and power on the server at once. This will help to prevent rapid increase of electric power consumption due to power-on of the servers after power loss.

BIOS serial Console & EMS

BIOS serial Console & EMS

Key (API key parameter)

Value set as (Default)

Description

SerialConsolePort Auto
[BIOS Serial Console Port]
Through the serial port, you can redirect the video and keystrokes to OS boot. This option may interfere with the non-terminal device connected to the serial port. If this is the case, set to Disabled.
SerialConsoleEmulation VT100Plus
[BIOS Serial Console Emulation Mode]
Customers can choose the type of emulation mode. The option Customers choose depends on the emulation to be used in the serial terminal program (Hyperterminal, Putty and the like). Customers need to select the BIOS emulation mode that matches the selected mode in the terminal program.
SerialConsoleBaudRate 115200
[BIOS Serial Console Baud Rate]
You can set the transfer rate at which data is transmitted over the serial port.
EmsConsole Disabled
[ACPI Serial Port]
Customers can configure the settings for the ACPI serial port that can be used to configure the Windows Server Emergency Management Services (EMS) console to redirect through the serial port.

Server Asset Information

Advanced Options

Advanced Options

Key (API key parameter)

Value set as (Default)

Description

VideoOptions BothVideoEnabled
[Video Options]
You can configure the display of video. By default, if the option of video controllers are attached to the system, the system BIOS to disable the built-in video controller. If you use this option, a built-in video controller can remain enabled, iLO remote video is functioning properly, a dual-head video are supported. The built-in Bideoko Controller, and initial system startup of the video is always displayed.
EmbVideoConnection Auto
[Embedded Video Controller]
When configured in the automatic mode, if the monitor is not attached, the outgoing video connection automatically outputs OFF signal to the embedded video controller to save electric power. This feature will work automatically if the monitor is attached and if the server is working including operation.
ThermalShutdown Disabled
[Thermal Shutdown]
If the increase in temperature in excess of non-redundant fan failure or pre-set threshold, occurs, you can start the shutdown. When disabled, the system management driver will ignore the high temperature events. Once the data is in the situation, such as being destroyed, the power supply of the system will be turned off immediately.
FanInstallReq EnableMessaging
[FAN Install Policy]
Customers can use this option to configure the reaction of the server on which required FANs were not installed. If configured to enable messages, servers that have not installed required FANs will display messages and event logs in the Integrated Management of Log (IML).
ThermalConfig OptimalCooling
[Thermal Config]
You can select the fan cooling solution of the system.
ExtendedAmbientTemp Disabled
[Extended Ambient Temp]
This setting is the ambient temperature of the server is made possible durability even at high temperature.
FanFailPolicy Allow
[Fan Fail Policy]
Use this option to configure how the server reacts if the server caused FAN failure while the server does not need FAN. If this option is set and if multiple FAN failures exist, the server that does not need FAN can boot and operate.
NmiDebugButton Enabled
[NMI Debug Button]
If software lock-up has occurred in the system, Customers can enable the debug function. [NMI Debug Button] generates an NMI (non-maskable interrupt), to enable the debugger of the operating system.
ConsistentDevNaming LomsOnly
[Consistent Dev Naming]
You can choose the level of the naming of the device consistent. In the supported operating systems, NIC port name is based on the position of the NIC ports in the system.
PciBusPadding Enabled
[PCI Bus Padding]
If the extra PCI bus number to each expansion slot is provided, you can disable the default PCI bus padding. By default, the expansion card with a PCI-PCI bridge is so as not to affect the only scheme with the current bus number, the system BIOS will add one of the PCI bus for each expansion slot. If you disable this option, you can avoid the problems related to the particular expansion card. As long as a particular problem does not occur, it is not recommended that you disable this option.
PciSlot1Enable Enabled
[PCIdevice1]
It enables the mobile PCI device 1 in this option.
PciSlot2Enable Enabled
[PCIdevice2]
It enables the mobile PCI device 2 in this option.
MixedpowerSupplyReporting Enabled
[Mixed Power Supply Reporting]
Server logs a message of [Mixed Power Supply Intervention].
TimeZone Utc0

TimeZone

UtilityLang English

Utility Language

System Default Options

System Default Options

Key (API key parameter)

Value set as (Default)

Description

RestoreDefaults No
[Restore Defaults]
All the configuration settings will reset to their default values. The changes are not saved.
RestoreManufacturingDefaults No
[Restore the factory default setting]
Resets all configuration settings to the set value of the factory state . Changes up to it will be lost.
SaveUserDefaults No
[Save User Defaults]
It saves the current settings as the default settings of the system.
EraseUserDefaults No
[Erase User Defaults]
It is set to clear the default settings for the current user-defined.