All About Bluescreen After Installing Drivers on Windows 11

All About Bluescreen After Installing Drivers on Windows 11

Windows 11 is the latest operating system developed by Microsoft and has been creating quite a buzz among tech enthusiasts. With its sleek design and updated features, it promises to provide a seamless user experience. However, like any other software, Windows 11 also has its share of issues that users may encounter. One such problem that has been reported by many users is the bluescreen after installing drivers. This frustrating issue can be a significant hindrance in using your computer and understanding its cause and solutions is crucial. In this article, we will delve into everything you need to know about bluescreen after installing drivers on Windows 11.

Fix: Bluescreen After Installing Drivers on Windows 11

If you’ve recently upgraded to Windows 11 and installed new drivers for your hardware, you may have encountered the dreaded blue screen of death (BSoD). This can be a frustrating experience, especially if you were excited to try out the new features of the latest Windows operating system.

So, what causes the blue screen error after installing drivers on Windows 11? There could be several reasons for this, including compatibility issues, faulty drivers, or outdated hardware. In this blog post, we’ll discuss some potential fixes for this issue.

1. Check for Compatibility Issues

Before installing any drivers, it’s essential to ensure that they are compatible with your system. If you’re not sure about the compatibility, you can check the manufacturer’s website for the latest driver updates.

You can also use Microsoft’s compatibility checker tool to determine if your hardware and drivers are compatible with Windows 11. If there are any compatibility issues, you may need to wait for the manufacturer to release an updated driver.

2. Uninstall Faulty Drivers

If you’ve installed a driver that is causing the blue screen error, you can try uninstalling it in safe mode. To do this, press the Windows key + R and type in “msconfig.” Go to the Boot tab and check the “Safe boot” option. Click on Apply and then OK.

Restart your computer, and it will boot into safe mode. Go to Device Manager, right-click on the problematic driver, and select “Uninstall device.” Restart your computer in normal mode, and Windows will install a generic driver for the hardware.

3. Update Outdated Drivers

Outdated drivers can also cause compatibility issues and blue screen errors. You can update your drivers manually by going to the manufacturer’s website and downloading the latest driver for your hardware. Alternatively, you can use a driver update software, such as Driver Booster, to automatically scan and update your drivers.

4. Check for System Updates

Sometimes, blue screen errors can be caused by system issues, and a simple update may fix the problem. Make sure your Windows 11 is up-to-date by going to Settings > Update & security > Windows Update. If there are any pending updates, click on “Install now.”

5. Run Windows Memory Diagnostic Tool

The Windows Memory Diagnostic Tool can help identify and fix any memory-related problems, which could be causing the blue screen error. To access this tool, press Windows key + R and type in “mdsched.exe.” Choose the option to restart now and check for problems.

6. Perform a Clean Boot

A clean boot can help determine if there are any software conflicts causing the blue screen error. To perform a clean boot, press Windows key + R and type in “msconfig.” Go to the Services tab and check the option to “Hide all Microsoft services.” Click on “Disable all” and then OK.

Restart your computer, and if the blue screen error does not occur, it means a third-party program is causing the issue. You can then narrow down the culprit by enabling services one by one and restarting your computer until you identify the problematic program.

In conclusion, a blue screen error after installing drivers on Windows 11 can be resolved by checking for compatibility issues, updating drivers, and performing system updates. If the issue persists, you may need to seek help from a professional or contact Microsoft support.

1. Install pending Windows updates

Windows updates are an essential part of maintaining your computer’s performance and security. These updates include bug fixes, security patches, and feature improvements that can keep your system running smoothly. However, despite their importance, many users tend to ignore or postpone installing pending updates. In this blog, I will guide you through the process of installing pending Windows updates on your system.

Step 1: Check for updates

The first step in installing pending Windows updates is to check whether there are any updates waiting to be installed. To do this, go to the Windows search bar and type “Windows Update.” Click on the first result and it will take you to the Windows Update page.

Step 2: Review available updates

Once you’re on the Windows Update page, click on the “Check for updates” button. This will initiate the search for available updates on your system. The search may take a few minutes to complete, depending on your internet speed and the number of pending updates.

Step 3: Start the installation process

After the search is completed, you will see a list of available updates. These updates are categorized into important, recommended, and optional. It’s advisable to install all the pending updates, but you can choose to install only the important ones if you’re short on time. Select the updates you want to install and click on “Install now.”

Step 4: Wait for the updates to download and install

Once you click on “Install now,” the updates will start downloading and installing. The time it takes for the updates to complete depends on the size of the updates and your internet speed. It’s essential to keep your computer connected to a stable internet connection during this process.

Step 5: Restart your computer

After the updates are installed, you will be prompted to restart your computer. It is necessary to restart your device to complete the installation process. Save any unsaved work before proceeding with the restart.

Step 6: Check for pending updates again

Sometimes, Windows updates are released in batches, and your computer may have pending updates even after you’ve installed the ones that were available earlier. To make sure your system is up to date, repeat the process mentioned above and check for any pending updates.

That’s it! You have successfully installed pending Windows updates on your system. It’s essential to keep your operating system up to date to ensure the best performance and security. By regularly checking for and installing pending updates, you can avoid potential system issues and keep your data safe.

2. Revert overclocked frequencies

2. Revert overclocked frequencies

Overclocking is the practice of increasing the operating frequency of a computer component, such as a CPU or GPU, beyond its factory-set limits. This can result in improved performance and faster processing speeds. However, overclocking also comes with the risk of damaging the component if done improperly. In this blog post, we will discuss the importance of reverting overclocked frequencies and how to do it safely.

Why revert overclocked frequencies?

Overclocking is a popular technique among tech enthusiasts and gamers who are looking to push their systems to the limits for maximum performance. However, there are a few reasons why reverting overclocked frequencies may be necessary.

Firstly, overclocking puts added stress on the components and can cause them to overheat. This can result in reduced lifespan and potential hardware failure. It is therefore important to keep an eye on your system’s temperatures and revert overclocked frequencies if necessary.

Secondly, if you are experiencing stability issues or crashes, it could be a sign that your system is not able to handle the overclocked frequencies. In such cases, reverting to factory settings can help resolve the issue.

Lastly, reverting overclocked frequencies can also be beneficial when upgrading to a new component. You may have overclocked your previous CPU or GPU to squeeze out more performance, but the new component may not be able to handle the same frequencies. In this case, it is important to revert to default settings to avoid any compatibility issues.

How to revert overclocked frequencies?

The process of reverting overclocked frequencies may vary depending on your system and the overclocking software used. However, here are some general steps that you can follow:

1. Identify the overclocking software: The first step is to identify the software used for overclocking. This can be a third-party tool such as MSI Afterburner or AMD Ryzen Master, or your motherboard’s BIOS settings.

2. Restore default settings: Once you have identified the software, look for an option to revert to default or factory settings. This will reset all overclocked frequencies and voltages to their default values.

3. Stress test: After reverting to default settings, it is important to stress test your system to ensure stability. Use software like Prime95 or AIDA64 to stress test your CPU and a graphics benchmark tool like Heaven or Valley for your GPU.

4. Make adjustments: If your system is not stable after the stress test, you may need to make adjustments to the frequencies and voltages manually. However, make sure to do this with caution and always keep an eye on your system’s temperatures.

5. Consider updating BIOS or drivers: It is also a good idea to update your BIOS and drivers to the latest versions, especially if you are experiencing compatibility or stability issues.

Final Thoughts

Overclocking can provide a significant performance boost to your system, but it comes with its own set of risks. Reverting overclocked frequencies is an important step in maintaining the health and stability of your system. Always be cautious when overclocking and make sure to stress test your system after making any changes. As the saying goes, “better safe than sorry”.

3. Test for faulty RAM

If you are experiencing frequent crashes, error messages, or unusual behavior while using your computer, there may be a problem with your RAM (random-access memory). RAM is a vital component of your computer’s hardware, and if it is faulty, it can cause a variety of issues. In this blog, we will discuss how to test for faulty RAM and steps you can take to fix the issue.

1. Use Windows Memory Diagnostic Tool
The first step in testing for faulty RAM is to use the Windows Memory Diagnostic Tool. This tool is built into Windows and can help identify any problems with your RAM. To access this tool, follow these steps:

1. Type “Memory Diagnostic” in your Windows search bar and select “Windows Memory Diagnostic” from the results.
2. A new window will pop up asking if you want to restart your computer now and check for problems or check for problems the next time you start your computer. Choose the option that works best for you.
3. Your computer will restart, and the diagnostic tool will run. This process may take several minutes, depending on the size of your RAM. You will see a status message informing you of any problems found.

2. Use Memtest86
If the Windows Memory Diagnostic Tool doesn’t detect any issues with your RAM, you can also use a third-party tool called Memtest86. This tool is more advanced and can provide more detailed information about potential RAM issues. To use this tool, follow these steps:

1. Download the Memtest86 ISO file and burn it to a CD or create a bootable USB using a tool like Rufus.
2. Insert the bootable CD or USB into your computer and restart it.
3. Your computer will boot into Memtest86 and start running the diagnostics on your RAM.
4. If there are any issues, you will see red or pink lines on your screen, indicating where the problem lies.
5. Once the test is completed, you can remove the CD or USB and restart your computer.

3. Check for Physical Damage
If both the Windows Memory Diagnostic Tool and Memtest86 detect no issues with your RAM, the next step is to physically inspect your RAM for any damage. Make sure your computer is turned off and unplugged and open the case. Locate the RAM sticks and make sure they are securely installed in their slots. Check for any physical damage, such as burns or corrosion on the contacts.

If you notice any physical damage, it is recommended to replace the faulty RAM stick. If there are no visible signs of damage, you can also try swapping your RAM sticks and re-running the diagnostic tests. This can help identify which specific RAM stick may be causing issues.

In conclusion, faulty RAM can cause various problems on your computer, but luckily there are ways to test and identify the issue. By using the Windows Memory Diagnostic Tool, Memtest86, and checking for physical damage, you can determine the source of the problem and take appropriate steps to fix it. In some cases, a simple reseating of your RAM sticks may fix the issue, but if the problem persists, it may be time to replace the faulty RAM stick.

4. Uninstall Bandwidth Control Filter Driver driver (if applicable)

If you have recently noticed a decrease in your internet speed or issues with your network connection, it could be due to the Bandwidth Control Filter Driver installed on your device. This driver is designed to regulate and limit the bandwidth usage of different applications and processes on your computer, but it can also cause problems and slow down your internet speed.

In this article, I will guide you through the steps to uninstall the Bandwidth Control Filter Driver to help improve your internet speed and network connection.

Step 1: Check if Bandwidth Control Filter Driver is installed

The first step is to check if the Bandwidth Control Filter Driver is actually installed on your device. To do this, follow these steps:

1. Right-click on the Windows Start menu and select “Device Manager.”

2. In the Device Manager window, click on “Network adapters” to expand the list.

3. Look for a driver with “Bandwidth Control” in its name. If you see one, it means that the driver is installed on your device.

Step 2: Uninstall the driver

Once you have confirmed that the Bandwidth Control Filter Driver is installed on your device, you can proceed with the uninstallation process. Follow these steps:

1. In the Device Manager, right-click on the driver with the “Bandwidth Control” name and select “Uninstall device.”

2. In the pop-up window, click on “Uninstall” to confirm the action.

3. Once the driver is uninstalled, restart your computer to complete the process.

Step 3: Update Windows

After uninstalling the Bandwidth Control Filter Driver, it is essential to update your Windows operating system to ensure that all necessary updates and patches are installed. This will help improve your network connection and overall performance. To check for updates, follow these steps:

1. Click on the Windows Start menu and select “Settings.”

2. In the Settings window, click on “Update & Security.”

3. Click on “Check for updates” and allow Windows to search and install any available updates.

Step 4: Install an alternative bandwidth control tool (optional)

If you still need a bandwidth control tool, there are various programs available that you can use as an alternative to the Bandwidth Control Filter Driver. These tools allow you to monitor and manage your bandwidth usage without causing any network issues. Some popular options include NetLimiter, NetBalancer, and GlassWire.

In conclusion, uninstalling the Bandwidth Control Filter Driver can help improve your internet speed and network connection. However, make sure to only do so if you are experiencing issues and need to free up your bandwidth. If you need to manage your bandwidth, consider using an alternative tool for better results.

5. Disable Driver Signature Enforcement (if applicable)

5. Disable Driver Signature Enforcement (if applicable)

If you are a Windows user, you may have come across the term “driver signature enforcement” while installing or updating device drivers. This feature is designed to ensure that the drivers being installed on your computer are digitally signed and verified by Microsoft. While this may seem like a good security measure, it can sometimes prevent the installation of unsigned drivers or drivers from third-party manufacturers. In such cases, it may be necessary to disable driver signature enforcement. Here’s how you can do it:

1. Open the Command Prompt as an administrator by right-clicking on the Windows Start button and selecting “Command Prompt (Admin)” from the menu.

2. In the Command Prompt, type “bcdedit /set nointegritychecks on” and press Enter. This command will disable driver signature enforcement until the next time you restart your computer.

3. If you only want to temporarily disable driver signature enforcement, you can use the command “bcdedit /set nointegritychecks off” to re-enable it.

4. Another option is to disable driver signature enforcement on every boot. To do this, open the Command Prompt as an administrator and type “bcdedit /set testsigning on”. This will allow you to install any drivers without the need for verification.

5. Lastly, if you want to completely disable driver signature enforcement, you can use the command “bcdedit /set loadoptions DISABLE_INTEGRITY_CHECKS”. This will permanently disable the feature, but keep in mind that it may pose a security risk.

Keep in mind that disabling driver signature enforcement is not recommended unless you have a valid reason for doing so. It is an important security measure to prevent the installation of malicious drivers and ensure the stability of your computer. However, if you do need to install unsigned or third-party drivers, following the steps above will allow you to do so without any issues. Always make sure to re-enable driver signature enforcement after completing the installation, to keep your computer secure.

6. Deploy SFC & DISM scans

As a tech blogger, I have talked about various tips and tricks to maintain the performance of your computer. In this article, I am going to discuss the importance and procedure of deploying SFC (System File Checker) and DISM (Deployment Imaging and Servicing Management) scans on your Windows computer.

SFC and DISM scans are two powerful built-in tools provided by Microsoft to help in identifying and fixing any issues with the system files and the overall health of the Windows installation. The SFC scan checks and repairs any corrupted system files, while the DISM scan checks and fixes any issues with the Windows operating system including its components.

Why should you deploy SFC and DISM scans?

Over time, your computer’s system files can get corrupted due to various reasons such as malware infections, inappropriate shutdowns, or outdated drivers. These corrupted files can cause your computer to slow down, freeze, or even crash. Manually troubleshooting and fixing these corrupted files can be a daunting task for non-technical users. This is where SFC and DISM scans come in handy. They can quickly and efficiently scan and fix any issues with your system files, keeping your computer running smoothly.

How to deploy SFC and DISM scans?

Here’s a step-by-step guide on how to deploy SFC and DISM scans on your Windows computer:

Step 1: Open Command Prompt as an administrator. To do this, type “cmd” in the search bar, right-click on “Command Prompt” and select “Run as administrator”.

Step 2: Type “sfc /scannow” and press Enter. This will start the System File Checker scan. Wait for the scan to complete. If any issues are found, the scan will attempt to fix them automatically. You may be prompted to reboot your computer after the scan is complete.

Step 3: If the SFC scan did not fix the issues, you can try the DISM scan. For this, type “dism /online /cleanup-image /restorehealth” and press Enter.

Step 4: Once the scan is complete, restart your computer and run the SFC scan again. This will ensure that all the issues are fixed.

If the scan still cannot fix the issues, you can try running the scans in Safe Mode or use the DISM tool to repair the Windows installation from a Windows installation media.

Benefits of deploying SFC and DISM scans

1. Saves time and effort: Manually troubleshooting and fixing corrupted system files can take a lot of time and effort. SFC and DISM scans can quickly scan and fix the issues, saving you time and effort.

2. Improves system performance: Corrupted system files can significantly affect the performance of your computer. By regularly running SFC and DISM scans, you can keep your computer running smoothly.

3. Fixes hidden issues: Sometimes, the symptoms of corrupted system files may not be visible. SFC and DISM scans can detect and fix these hidden issues, keeping your system in good health.


SFC and DISM scans are crucial tools for maintaining the health and performance of your Windows computer. By deploying these scans regularly, you can keep your system files in good condition and prevent any potential issues that may arise. I strongly recommend running these scans at least once a month to ensure the smooth functioning of your computer. With these simple steps, you can easily deploy SFC and DISM scans and keep your computer in top shape.

7. Perform an automatic repair

If you’re experiencing problems with your computer, such as random crashes, slow performance, or error messages, you may need to perform an automatic repair. This process checks for any issues with your system and attempts to fix them automatically. Here’s how to perform an automatic repair on Windows 10.

1. Start by restarting your computer. When it’s booting up, press and hold the power button to force it to shut down.

2. Repeat this process twice. This will trigger the automatic repair mode.

3. On the third restart, you’ll see the “Preparing Automatic Repair” screen. This may take a few minutes to complete.

4. Next, you’ll see the “Diagnosing your PC” screen. This is where the automatic repair tool will scan your system for any issues.

5. Once the scan is complete, you’ll see the “Automatic Repair” screen. Click on the “Advanced options” button to continue.

6. On the next screen, you’ll see a list of options. Click on “Startup Repair” to begin the repair process.

7. The automatic repair tool will now attempt to fix any issues with your system. This may take some time depending on the severity of the issue.

If the automatic repair tool is able to fix the problem, your computer will automatically restart and should boot up normally. If the repair is unsuccessful, you may need to try some other troubleshooting methods, such as restoring from a previous system restore point or using the System File Checker tool.

In addition, if you’re unable to access the automatic repair tool through the method above, you can also access it through the “Troubleshoot” menu in the Settings app. Simply go to Start > Settings > Update & Security > Recovery > Advanced startup and click on “Restart now.” This will boot your system into the Windows Recovery Environment, where you can access the automatic repair tool and other troubleshooting options.

Performing an automatic repair can help resolve various issues with your computer and is a great first step in troubleshooting any problems. If the repair is unsuccessful, it’s best to seek further assistance from a professional or contact the manufacturer for additional support.

8. Achieve a clean boot state

8. Achieve a clean boot state

A clean boot state is a troubleshooting technique used to isolate software conflicts and issues on a computer. It allows users to start their computer with only basic programs and services running, avoiding any unnecessary background processes that could be causing problems. In this blog, we will discuss how to achieve a clean boot state on Windows operating systems.

Step 1: Open System Configuration

The first step to achieving a clean boot state is to open the System Configuration utility. To do this, you can press the Windows key + R on your keyboard to open the Run dialog box. Then type “msconfig” and press Enter.

Step 2: Select the Services tab

Once the System Configuration utility is open, select the Services tab. This tab displays all the services that are currently running on your computer.

Step 3: Hide all Microsoft services

At the bottom of the Services tab, you will find a box that says “Hide all Microsoft services.” Check this box to hide all the Microsoft services that are essential for the proper functioning of your computer.

Step 4: Disable all services

After hiding all the Microsoft services, click on the “Disable all” button to disable all the remaining services.

Step 5: Select the Startup tab

Next, select the Startup tab. Here you will see a list of all the programs that start automatically when you boot up your computer.

Step 6: Disable all startup items

Similar to the Services tab, click on the “Disable all” button to disable all the startup items.

Step 7: Apply the changes and restart your computer

After disabling all the services and startup items, click on the “Apply” button and then click “OK.” You will be prompted to restart your computer for the changes to take effect.

Step 8: Perform troubleshooting

Once your computer has restarted, it will be in a clean boot state. This means that only necessary programs and services are running, and any conflicting or problematic software has been disabled. Now you can perform troubleshooting to identify the root cause of any issues you were facing.

If the issue no longer persists in the clean boot state, then you can slowly enable the services and startup items one by one to identify the problematic program. This way, you can achieve a clean boot state and troubleshoot any software conflicts on your computer.

In conclusion, achieving a clean boot state can be a useful troubleshooting technique for resolving software conflicts on your computer. It allows you to start your computer with only essential programs and services, which can help identify problematic programs and improve system performance.

9. Use System Restore

System Restore is a built-in feature in Windows operating systems that allows you to revert your computer back to a previous state in case of any issues or errors. This is especially useful if you have made any changes to your system that have negatively affected its performance or if you have been infected by a virus.

Here’s how to use System Restore in Windows:

1. Click on the Start button and type “system restore” into the search bar.

2. Open the System Restore tool from the search results.

3. In the System Restore window, click on the “Next” button.

4. You will now see a list of available restore points. These are points in time that your system has automatically created as a backup. Choose the most recent one or one that you know your system was working properly on.

5. Click on “Next” and then “Finish” to confirm your restore point selection.

6. Your computer will now restart and perform the system restore process. This may take a few minutes.

7. Once the process is complete, your computer will restart again and you will see a message confirming the success of the restore.

System Restore can also be accessed from the Advanced Startup Options menu if you are unable to access the normal Windows desktop. Here’s how to do it:

1. Restart your computer and continuously press the F8 key until you see the Advanced Startup Options menu.

2. Select “Troubleshoot” and then “Advanced Options.”

3. Choose “System Restore” and follow the same steps as mentioned earlier.

It is important to note that System Restore will not affect your personal files, but it will uninstall any programs or updates that were installed after the selected restore point was created. It is recommended to create a restore point before making any major changes to your system, such as installing new software or making system changes.

In conclusion, System Restore is a useful tool to have in case of any unexpected issues with your computer. It can save you time and frustration by quickly reverting your system back to a working state. However, it should not be used as a replacement for regular backups of important files.

10. Perform a clean install or repair install

A clean install or repair install is a process that involves re-installing the operating system on your computer in order to fix any issues or problems that may be causing your system to malfunction. It is also a way to start with a fresh and clean operating system, which can potentially improve the overall performance and stability of your device. This process is recommended if your computer is experiencing frequent crashes, errors, or slow performance.

Performing a clean install or repair install requires some preparation and basic understanding of how the operating system works. It is also important to back up your important files and data before proceeding, as the process will erase all your current programs and files.

Here are the steps to perform a clean install or repair install:

1. Backup your data: As mentioned, before starting the process, it is crucial to back up all your important files and documents to an external hard drive, USB, or cloud storage. This will ensure that you do not lose any important data during the re-installation process.

2. Download installation media: You will need to download the installation media (ISO file) for the version of the operating system you want to install. You can download it from the official website of the operating system or use a third-party tool like Windows Media Creation Tool.

3. Create a bootable USB or DVD: Once you have downloaded the installation file, you will need to create a bootable USB or DVD using a third-party tool like Rufus. This will allow you to boot your computer from the USB/DVD and start the installation process.

4. Boot from the installation media: Insert the bootable USB or DVD into the computer and restart it. Press the key that appears on the screen to enter into the BIOS or Boot Menu (usually F12 or Esc). From there, select the USB/DVD as the boot device and press Enter.

5. Select the installation type: Once the computer boots from the installation media, you will be prompted to choose between an upgrade or custom installation. Select custom installation to perform a clean install or repair install.

6. Format the hard drive: If you are doing a clean install, you will need to format the hard drive to erase all the data. Select the hard drive where the operating system is currently installed and click on the Format button. This will erase all the partitions and data on that drive.

7. Install the operating system: After formatting the hard drive, select the hard drive as the destination for the installation. The installation process will begin and it may take some time to complete. Follow the instructions on the screen to complete the installation.

8. Configure the installation: Once the installation is complete, you will be prompted to set up your computer. You can choose your language, time and currency format, and keyboard layout.

9. Install drivers and software: After completing the installation, you will need to install drivers for your hardware, such as graphics, sound, and network. You will also need to install all the software and programs you need on your computer.

10. Restore your data: Once everything is set up, you can now restore your data from the backup you created earlier. You can also manually transfer files from the backup to your computer.

Performing a clean install or repair install can help resolve many issues with your computer. It is recommended to regularly back up your data and perform a clean install every few years to keep your system running smoothly.


In conclusion, bluescreen after installing drivers on Windows 11 can be a frustrating and unexpected issue for users. However, by understanding the causes of this problem and following the steps mentioned above, it is possible to resolve bluescreen errors and ensure a smoother experience on the latest operating system. It is important to keep drivers updated and perform regular maintenance on your system to prevent such errors in the future. With a little patience and troubleshooting, you can overcome bluescreen issues and continue to enjoy the advanced features and functionalities of Windows 11.

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