UEFI Firmware Settings for Windows 10 – Sometimes it is necessary to change the UEFI firmware settings on your computer in order to get the best performance. This can be done through the Settings app on your Windows 10 computer, or through the UEFI firmware settings utility that comes with your computer’s motherboard.
Windows 10 – Accessing the UEFI BIOS Setup [Tutorial]
UEFI firmware settings in Windows
Before we start, let me just clarify that Windows 10 is not limited to UEFI firmware. You can also use the traditional BIOS firmware on your computer. This guide will focus specifically on using UEFI firmware in Windows 10.
UEFI firmware is a type of firmware that is designed to manage and configure hardware in a modern computer. It provides an interface to the operating system, and helps to provide a secure and consistent user experience.
In Windows 10, UEFI firmware can be used to configure various settings, including boot options, boot priority, and security options. UEFI firmware can also be used to configure hardware features, such as overclocking and UEFI boot support.
To use UEFI firmware in Windows 10, you first need to enable the feature in the Settings app. To do this, open the Settings app, click System, and under Hardware, click Device Manager. Under the System Devices section, you should see a list of hardware devices. If you see a device called UEFI Controller, you can enable the feature by clicking it and clicking Yes.
Now that we have enabled UEFI firmware in Windows 10, we can start to configure it. To do this, open the Settings app, click System, and under Boot Options, click UEFI Boot. In the UEFI Boot Options window, you can configure various boot options, such as the boot order and the boot priority.
You can also use UEFI firmware to configure various security
What is UEFI firmware?
UEFI firmware, short for Universal Embedded Firmware Interface, is a computer hardware standard that defines how a computer’s operating system should access hardware resources. In simpler terms, UEFI firmware allows the operating system to access hardware devices directly, bypassing the traditional BIOS interface. This allows for more flexible and customized system installation and booting, particularly for modern PCs with multiple hardware components.
Windows 10’s UEFI firmware is based on the Unified Extensible Firmware Interface specification, which was originally developed by Intel and Dell. Microsoft released a preview of the UEFI firmware for Windows 10 in September 2014. The final version of Windows 10’s UEFI firmware was released on April 14, 2016.
Microsoft offers UEFI firmware updates for Windows 10 Professional, Enterprise, and Education. The updates are free of charge, and they are released periodically. Windows 10 Home users do not benefit from UEFI firmware updates.
UEFI firmware offers several advantages over traditional BIOS firmware:
UEFI firmware can access more hardware devices than traditional BIOS firmware.
UEFI firmware is more flexible and customizable than traditional BIOS firmware.
UEFI firmware can be updated more frequently than traditional BIOS firmware.
UEFI firmware can be installed on more hardware devices than traditional BIOS firmware.
UEFI firmware is more secure than traditional BIOS firmware.
UEFI firmware can boot faster than traditional BIOS firmware.
UEFI firmware is more reliable than traditional BIOS firmware.
How to change UEFI firmware settings in Windows
Windows 10 comes with a pre-installed UEFI firmware which, by default, ships with a small number of UEFI-specific settings. Even though the Windows 10 UEFI firmware is quite basic, it can be customized quite a bit by using the UEFI firmware settings in the Control Panel.
To change UEFI firmware settings in Windows 10, open the Control Panel and go to System and Security > System. In the System window, under System type, click on the UEFI firmware settings. On the UEFI firmware settings window, you can see a number of tab pages, each of which provides different settings for the UEFI firmware.
In this article, we will discuss the following settings in the UEFI firmware settings window:
1. Boot settings
- System startup
- Boot options
- System configuration
The Boot settings tab page provides options for booting the operating system. You can choose between two modes, MBR or GPT.
The MBR mode is the default mode and it uses the Windows 10 bootloader. The GPT mode is useful if you have a Linux or another operating system installed on your computer and you want to dual-boot the Windows 10 operating system with that other operating system.
The System startup tab page is where you can configure the ways in which the computer starts. You can choose between the following three types of startup:
What are the benefits of UEFI over BIOS?
UEFI Firmware Settings
There are many benefits to using UEFI firmware over BIOS, the most obvious of which is that UEFI firmware is more secure. BIOS firmware can be easily compromised by malware, which can then be used to access and control the computer. UEFI firmware, on the other hand, is immune to this kind of attack.
Another major benefit of using UEFI firmware is that it is more user-friendly. With BIOS firmware, users are typically limited to options that are provided by the manufacturer. UEFI firmware, however, allows users to customize their computer to their own preferences. This allows users to take advantage of features that are specific to their needs, rather than being limited to the options that are available from the manufacturer.
Finally, UEFI firmware is more efficient than BIOS firmware. This is because UEFI firmware is designed to take advantage of the hardware that is present on a computer. BIOS firmware, on the other hand, is typically not as adept at using hardware resources as UEFI firmware. As a result, UEFI firmware can typically perform tasks faster than BIOS firmware.
Drawbacks of UEFI firmware settings
UEFI firmware settings can be a powerful tool for customizing your system. However, there are several potential drawbacks to using UEFI firmware settings.
First, UEFI firmware settings can be difficult to navigate. This can be especially true if you are not familiar with the terminology used in UEFI firmware settings.
Second, UEFI firmware settings can be unpredictable. This can be due to the way in which UEFI firmware settings are determined, or because of the way in which they are implemented.
Third, UEFI firmware settings can be unstable. This can be due to the way in which they are implemented, or to the way in which the underlying operating system is configured.
Fourth, UEFI firmware settings can be difficult to understand. This can be due to the way in which they are written, or to the way in which they are implemented.
Finally, UEFI firmware settings can be expensive. This can be due to the way in which they are implemented, or to the way in which they are accessed.
How to troubleshoot UEFI issues in Windows
UEFI firmware has been designed to make setup and configuration of your computer easier. In theory, it should be very reliable. However, in practice, UEFI can sometimes have problems. When this happens, you may be able to resolve the issue by following the steps in this article.
First and foremost, if you are having problems with your computer, it is important to ensure that the UEFI firmware is properly installed. To do this, you will need to access the BIOS or UEFI firmware setup utility. The utility will usually be found in the boot menu or boot option screen. Once you have accessed the utility, make sure that the UEFI firmware is properly installed and configured.
If you are still having problems, you can try troubleshooting the issue using the UEFI diagnostic tool. This tool can be found in the Windows OS boot menu. After you have started the diagnostic tool, you will be able to select different options to test the UEFI firmware.
If you are still having problems, you may need to contact your computer manufacturer for support.
UEFI firmware settings in Windows 10 can make or break your system’s compatibility with UEFI-based hardware. Follow these guidelines to ensure that your system is configured correctly: