UEFI firmware settings can be a challenge for some people. In this article, we will discuss some uefi firmware settings that may be useful for you.
Windows 10 – Accessing the UEFI BIOS Setup [Tutorial]
UEFI firmware settings are essential to the successful operation of your computer. They allow you to customize your computer’s settings to ensure that it is optimized for your specific needs.
UEFI firmware settings are easily configured through the Windows 10 Settings app. You can access them by clicking the “System” button in the Windows 10 taskbar, and then clicking “Advanced System Settings”.
In Advanced System Settings, click “UEFI” in the “System Type” column. You will then be able to access the various UEFI firmware settings.
To configure your computer’s UEFI firmware settings, click the “UEFI Firmware Settings” button.
This will open the UEFI Firmware Settings window. Here, you will be able to customize a variety of aspects of your computer’s UEFI firmware.
Some of the important settings you will want to consider are:
• Boot Manager: This setting allows you to choose which computer bootloader to use. You can select from the default bootloader, or you can create your own bootloader.
• Legacy Boot: This setting allows you to choose whether your computer will boot using the older Windows 8 or Windows 10 bootloader.
• Security: This setting allows you to configure your computer’s UEFI security features.
• Start-Up Settings: This setting allows you to configure various start
UEFI vs. BIOS: What’s the Difference?
UEFI stands for Unified Extensible Firmware Interface. BIOS stands for Basic Input/Output System. UEFI is a new firmware interface that was designed to improve the user interface of booting and operating systems. BIOS was designed over 25 years ago and it doesn’t have many of the features that we take for granted in today’s UEFI-based systems. UEFI replaces the old MBR (Master Boot Record) with a new GPT (GUID Partition Table) and introduces newer bootloaders, such as GRUB 2, to the firmware environment.
UEFI debuted in 2007 with the release of the Intel X58 chipset. To date, almost all new PCs ship with UEFI-based firmware. UEFI is currently the dominant firmware interface for PC hardware. On the other hand, BIOS still accounts for the vast majority of desktop and laptop computers. BIOS is still the main firmware interface for many legacy devices, such as hard disks, optical drives, and motherboards.
UEFI has a number of advantages over BIOS. First, UEFI is much more user-friendly. UEFI’s graphical user interface (GUI) makes it much easier for users to navigate the firmware environment. UEFI also offers more advanced features, such as boot management and system partitioning. UEFI also allows for more flexible firmware installation. For example, users can install UEFI firmware on a partition that contains a Windows installation. BIOS does not offer this feature.
How to Change UEFI Firmware Settings
- Boot your computer and press the Esc key to enter the boot menu.
- Select your Legacy OS from the list and press Enter.
- Select your UEFI firmware and press Enter.
- Select your boot device from the list and press Enter.
- Select your UEFI firmware’s options and press Enter.
- Select your desired UEFI settings and press Enter.
- Select “Apply and Exit” to save your changes and restart your computer.
- Enjoy your new UEFI firmware settings!
How to Access UEFI Settings
UEFI firmware settings are accessed through a series of menus and sub-menus that can be found in the UEFI Setup utility. The most basic way to access UEFI firmware settings is by pressing the “F2” key during the system startup process. A list of all available UEFI firmware settings will be displayed, along with a description of each menu item.
Some of the more commonly accessed UEFI firmware settings include:
– System Password: This menu enables you to set a password to protect the UEFI settings.
– Boot Manager: This menu allows you to choose between the default boot manager (UEFI Boot Manager) or a custom boot manager.
– Boot Order: This menu allows you to configure the order in which the UEFI boot devices are searched.
– Advanced: This menu contains a number of advanced settings that are not typically needed by most users.
– Security: This menu allows you to configure system security features, including the ability to disable startup devices and enable secure boot.
UEFI Settings for Windows
The UEFI firmware settings for Windows 10 are located in the Windows 10 Settings app.
1. Open the Windows 10 Settings app.
2. On the left pane, click System.
3. On the System page, under Advanced system settings, click UEFI.
4. In the UEFI Settings section, under System security, click Security options.
5. In the Security options section, under System reboot, click Restart now.
6. Choose System restore.
7. In the System restore window, under Choose a restore point, select a restore point from the list.
8. Under Choose a restore point location, select a restore point from the list.
9. Under Important information, click Next.
10. Under Type of restore, select Recovery.
11. Under Choose a recovery mode, select UEFI File System (FAT32).
12. Under Select a startup disk, click Browse.
13. In the Select a startup disk window, under Select a disk to boot from, click Browse.
14. In the Select a disk to boot from window, under Windows 10 (x64), click the disk that you want to use to boot your computer.
15. Click OK.
16. Click Restart now.
UEFI Settings for Windows
UEFI firmware settings are specific to the Amlogic S905X SoC used in the Samsung Galaxy S8 and S8+. They can be tweaked to improve system performance and security.
Settings that can be tweaked include:
Boot Order: This setting determines which device will be used to start the PC. By default, the UEFI firmware will try to boot from the hard drive first, then from the USB drive, and finally from the network. You can change this setting to boot from any device.
Security: This setting allows you to specify whether the PC will boot from removable media (USB drives and SD cards) or not.
Boot Time: This setting determines how long the UEFI firmware will wait before starting the PC.
Boot Manager: This setting allows you to specify whether the UEFI firmware will use a boot manager or not.
Secure Boot: This setting allows you to specify whether the UEFI firmware will use secure boot or not.
Protected Boot: This setting allows you to specify whether the UEFI firmware will use protected boot or not.
Reinstall OS: This setting allows you to reinstall the OS using a USB drive after it has been deleted.
NOR Flash: This setting allows you to disable the use of the NOR flash in the S905X SoC.
Configuring UEFI Firmware Settings
To configure UEFI firmware settings, open the Settings app on your
UEFI Settings for Windows 7
UEFI is an abbreviation for “Unified Extensible Firmware Interface”. UEFI is a new type of firmware that was developed by Intel and Microsoft. UEFI replaces the old BIOS (Basic Input/Output System) that was used in earlier versions of Windows. UEFI provides a more intuitive interface that allows users to customize their computer. UEFI also allows you to upgrade your computer firmware without having to reinstall your operating system.
Some of the benefits of using UEFI are that it:
– Provides a more intuitive interface that allows users to customize their computer
– Allows you to upgrade your computer firmware without having to reinstall your operating system
– Is more secure than BIOS
There are three types of UEFI firmware that can be used in Windows 7:
– Legacy BIOS
– UEFI Boot firmware
– UEFI System firmware
Legacy BIOS firmware is the firmware that is used in earlier versions of Windows. Legacy BIOS firmware is not compatible with UEFI boot firmware or UEFI System firmware. Legacy BIOS firmware must be used to boot the computer from a CD or disk that is formatted in Legacy BIOS mode.
UEFI Boot firmware:
UEFI Boot firmware is a type of firmware that is used to boot the computer from a USB drive or from a hard drive that is formatted in UEFI mode. UEFI Boot firmware is compatible with UEFI System firmware.
UEFI firmware settings can be tweaked to improve performance on some systems. By changing these settings, you can improve boot times, system responsiveness, and overall system performance.