What You Need to Know About NiBiTor 4.9 and BIOS Editing for NVIDIA Graphics Cards
PATCHED NVIDIA BIOS Editor (NiBiTor) 4.9
If you are looking for a way to tweak your NVIDIA graphics card's performance, you might want to try NVIDIA BIOS Editor (NiBiTor) 4.9, a patched version of the popular BIOS editing tool that supports the latest NVIDIA cards. In this article, we will explain what NiBiTor is, what it can do, how to use it, and how to compare different NVIDIA graphics cards using online tools.
PATCHED NVIDIA BIOS Editor (NiBiTor) 4.9
Download Zip: https://www.google.com/url?q=https%3A%2F%2Fvittuv.com%2F2ukGvm&sa=D&sntz=1&usg=AOvVaw1IMxpnHckPB_jW-zhfNhQF
What is NVIDIA BIOS Editor (NiBiTor) 4.9 and why use it?
NVIDIA BIOS Editor (or NiBiTor) is a software application that allows you to modify the firmware of your NVIDIA graphics card. By editing the BIOS, you can change various parameters such as clock speeds, voltage, memory timings, fan speed, temperature settings, and more. This can help you improve your graphics card's performance, stability, compatibility, and functionality.
NiBiTor is not an official tool from NVIDIA, but rather a third-party program developed by MVKTech. The original version of NiBiTor only supported older NVIDIA cards up to the GeForce GTX 200 series. However, thanks to some patches from other developers, NiBiTor has been updated to support newer cards such as the GeForce RTX 40 series, RTX 30 series, RTX 20 series, GTX 16 series, GTX 10 series, and more.
NiBiTor is one of the most comprehensive and user-friendly BIOS editing tools available for NVIDIA graphics cards. It has a simple interface that displays all the relevant information and options for your card. It also has some advanced features such as voltage unlocking, geometric delta clock adjustment, sign-on message customization, TV mode selection, and more.
What are the main features and benefits of NiBiTor 4.9?
Some of the main features and benefits of NiBiTor 4.9 are:
It supports a wide range of NVIDIA graphics cards from different generations and vendors.
It allows you to change various BIOS parameters such as core clock, memory clock, core voltage, memory timings, temperature settings, fan speed settings, boot settings, sign-on message, monitor parameters, TV mode, and more.
It allows you to unlock higher voltage ranges for some cards that have voltage limits in their stock BIOS.
It allows you to adjust the geometric delta clocks for some cards that have dynamic clock scaling based on load and temperature.
It allows you to enable or disable certain hidden features such as SBA (Side Band Addressing), SLI (Scalable Link Interface), or NVLink (NVIDIA Link).
It allows you to check the integrity of your BIOS file by verifying its checksum and structure.
It allows - It allows you to save and flash your modified BIOS file using GPU-Z or other flashing tools.
It has a built-in help file that explains the functions and meanings of each BIOS parameter.
By using NiBiTor 4.9, you can customize your graphics card's BIOS to suit your needs and preferences. You can overclock your card to boost its performance, undervolt your card to reduce its power consumption and heat output, tweak your card's fan speed and temperature settings to optimize its cooling and noise levels, enable or disable certain features to enhance its compatibility and functionality, and more.
What are the risks and precautions of BIOS editing?
While BIOS editing can offer many benefits, it also comes with some risks and precautions. BIOS editing is not a trivial task and should be done with care and caution. If you make a mistake or use an incompatible or corrupted BIOS file, you could damage your graphics card or render it unusable. You could also void your warranty or lose some features or stability.
Therefore, before you attempt to edit your BIOS, you should take some precautions such as:
Backup your existing BIOS file using GPU-Z or other tools. This way, you can restore your original BIOS if something goes wrong or if you want to revert to the stock settings.
Make sure you have a compatible and reliable BIOS file for your graphics card. You can use NiBiTor's checksum and structure verification feature to check the integrity of your BIOS file. You can also use online resources such as TechPowerUp's VGA BIOS database to find and download BIOS files for different graphics cards.
Make sure you have a stable power supply and avoid any interruptions during the BIOS flashing process. If the power goes out or the flashing process is interrupted, you could brick your graphics card.
Make small and gradual changes to your BIOS parameters and test them for stability and performance. Do not make drastic changes or use extreme values that could damage your graphics card or cause instability or artifacts.
Monitor your graphics card's temperature, voltage, fan speed, and performance using tools such as MSI Afterburner, HWiNFO, or GPU-Z. If you notice any abnormal readings or issues, stop the test and revert to the previous settings.
By following these precautions, you can minimize the risks and maximize the benefits of BIOS editing.
How to backup your existing BIOS using GPU-Z
Before you edit your BIOS using NiBiTor 4.9, you should backup your existing BIOS using GPU-Z. GPU-Z is a free tool that displays detailed information about your graphics card and allows you to save and flash its BIOS. Here are the steps to backup your existing BIOS using GPU-Z:
Download and install GPU-Z from its official website. You can choose between the standard version or the portable version that does not require installation.
Launch GPU-Z and click on the "BIOS" tab at the top of the window. You will see information about your graphics card's BIOS such as its version, date, size, vendor, device ID, subsystem ID, etc.
Click on the icon with a floppy disk and a green arrow next to "BIOS Version". This will open a dialog box that allows you to save your BIOS to your computer.
Select a location and a name for your BIOS file. You can use the default name that GPU-Z suggests or choose your own name. Make sure you use the ".rom" extension for your file.
Click on "Save" to save your BIOS file. You will see a confirmation message that says "BIOS successfully saved".
You have now backed up your existing BIOS using GPU-Z. You can use this file to restore your original BIOS if needed or compare it with other BIOS files using NiBiTor 4.9.
How to edit your BIOS using NiBiTor 4.9
Now that you have backed up your existing BIOS using GPU-Z, you can edit it using NiBiTor 4.9. NiBiTor 4.9 is a patched version of NiBiTor that supports newer NVIDIA graphics cards such as the GeForce RTX 40 series, RTX 30 series, RTX 20 series, GTX 16 series, GTX 10 series, and more. Here are the steps to edit your BIOS using NiBiTor 4.9:
Download and install NiBiTor 4.9 from this link. You will need to register an account on MVKTech's forum to access the download link.
Launch NiBiTor and click on the "File" menu and select "Open BIOS". This will open a dialog box that allows you to open your BIOS file.
Navigate to the location where you saved your BIOS file using GPU-Z and select it. Click on "Open" to open your BIOS file in NiBiTor.
You will see a window that displays the information and parameters of your BIOS file. You can use the tabs at the top of the window to switch between different sections such as "Info", "Clocks", "Voltages", "Temperatures", "Fan Control", "Boot Settings", "Monitor Parameters", "TV Mode", and more.
Edit the BIOS parameters using NiBiTor's interface. You can use the sliders, checkboxes, drop-down menus, text boxes, and buttons to change the values of each parameter. You can also use the "Tools" menu to access some advanced features such as voltage unlocking, geometric delta clock adjustment, sign-on message customization, etc.
After you have made the changes you want, click on the "File" menu and select "Save BIOS". This will open a dialog box that allows you to save your modified BIOS file to your computer.
Select a location and a name for your modified BIOS file. You can use the default name that NiBiTor suggests or choose your own name. Make sure you use the ".rom" extension for your file.
Click on "Save" to save your modified BIOS file. You will see a confirmation message that says "BIOS successfully saved".
You have now edited your BIOS using NiBiTor 4.9. You can use this file to flash your graphics card using GPU-Z or other flashing tools.
How to flash your modified BIOS using GPU-Z
After you have edited your BIOS using NiBiTor 4.9, you can flash it to your graphics card using GPU-Z. GPU-Z is a free tool that displays detailed information about your graphics card and allows you to save and flash its BIOS. Here are the steps to flash your modified BIOS using GPU-Z:
Launch GPU-Z and click on the "BIOS" tab at the top of the window. You will see information about your graphics card's BIOS such as its version, date, size, vendor, device ID, subsystem ID, etc.
Click on the icon with a floppy disk and a red arrow next to "BIOS Version". This will open a dialog box that allows you to flash your BIOS to your graphics card.
Select the option that says "Browse for a new BIOS image". This will open another dialog box that allows you to select your modified BIOS file.
Navigate to the location where you saved your modified BIOS file using NiBiTor and select it. Click on "Open" to load your modified BIOS file in GPU-Z.
Click on "Flash" to start the flashing process. You will see a warning message that says "Flashing a video card can be dangerous and result in a non-functional (bricked) card". Click on "Yes" to proceed with caution.
You will see a progress bar that shows the status of the flashing process. Do not interrupt or power off your computer during this process. Wait until the flashing process is completed.
You will see a confirmation message that says "BIOS successfully flashed". Click on "OK" to close the dialog box.
Restart your computer for the changes to take effect.
You have now flashed your modified BIOS using GPU-Z. You can check if the changes are applied by launching GPU-Z again and checking the information and parameters of your graphics card's BIOS.
How to compare different NVIDIA graphics cards using online tools
If you want to compare different NVIDIA graphics cards and see how they perform in various games and applications, you can use some online tools that provide useful information and benchmarks. Here are some of the online tools that you can use:
NVIDIA's official website
NVIDIA's official website is a good place to start if you want to compare current and previous GeForce series of graphics cards. You can use this link to access NVIDIA's product comparison page. You can select up to four graphics cards from different series and compare their specifications, features, performance, power consumption, price, and more. You can also use this link to access NVIDIA's game performance page. You can select a game title, resolution, quality settings, and graphics card model and see how many frames per second (FPS) you can expect from that configuration.
Tom's Hardware's GPU benchmarks hierarchy
Tom's Hardware is a reputable website that provides reviews, news, guides , and benchmarks for various hardware and software products. You can use this link to access Tom's Hardware's GPU benchmarks hierarchy, which ranks graphics cards by performance based on their average FPS in various games and applications. You can select a graphics card model and see how it compares to other models in terms of performance, price, power consumption, and efficiency. You can also use this link to access Tom's Hardware's GPU reviews, which provide detailed analysis and testing of different graphics cards.
Other websites and resources
There are many other websites and resources that you can use to compare different NVIDIA graphics cards and find more information and reviews. Some of them are:
UserBenchmark, which allows you to compare the performance of different graphics cards based on user-submitted benchmarks and ratings.
TechSpot, which provides reviews, news, guides, and benchmarks for various graphics cards and other hardware and software products.
AnandTech, which provides reviews, news, guides, and benchmarks for various graphics cards and other hardware and software products.
Guru3D, which provides reviews, news, guides, and benchmarks for various graphics cards and other hardware and software products.
YouTube, which has many videos that showcase the performance, features, and reviews of different graphics cards.
By using these online tools, you can compare different NVIDIA graphics cards and find the best one for your needs and budget.
Conclusion
In this article, we have explained what NiBiTor 4.9 is, what it can do, how to use it, and how to compare different NVIDIA graphics cards using online tools. NiBiTor 4.9 is a patched version of the popular BIOS editing tool that supports the latest NVIDIA graphics cards. By using NiBiTor 4.9, you can customize your graphics card's BIOS to improve its performance, stability, compatibility, and functionality. However, you should also be aware of the risks and precautions of BIOS editing and backup your existing BIOS before making any changes. You should also use online tools such as NVIDIA's official website, Tom's Hardware's GPU benchmarks hierarchy, and other websites and resources to compare different NVIDIA graphics cards and find more information and reviews.
We hope you have found this article useful and informative. If you have any questions or feedback, please feel free to leave a comment below. We would love to hear from you.
FAQs
Here are some frequently asked questions about NiBiTor 4.9 and BIOS editing:
What is the difference between NiBiTor and other BIOS editing tools?
NiBiTor is one of the most comprehensive and user-friendly BIOS editing tools available for NVIDIA graphics cards. It has a simple interface that displays all the relevant information and options for your card. It also has some advanced features such as voltage unlocking, geometric delta clock adjustment, sign-on message customization, TV mode selection, and more. NiBiTor is also updated regularly by its developers to support newer graphics cards.
Other BIOS editing tools may have different features, interfaces, or compatibility levels. Some of them are:
Maxwell II BIOS Tweaker, which is a tool that allows you to edit the BIOS of NVIDIA Maxwell II based graphics cards such as the GeForce GTX 900 series.
Pascal BIOS Editor, which is a tool that allows you to edit the BIOS of NVIDIA Pascal based graphics cards such as the GeForce GTX 10 series.
Turing BIOS Editor, which is a tool that allows you to edit the BIOS of NVIDIA Turing based graphics cards such as the GeForce RTX 20 series.
Red BIOS Editor, which is a tool that allows you to edit the BIOS of AMD Radeon based graphics cards.
How can I restore my original BIOS if something goes wrong?
If something goes wrong after flashing your modified BIOS or if you want to revert to the stock settings, you can restore your original BIOS using GPU-Z or other flashing tools. You will need to have a backup of your original BIOS file that you saved before editing it with NiBiTor 4.9. Here are the steps to restore your original BIOS using GPU-Z:
Launch GPU-Z and click on the "BIOS" tab at the top of the window. You will see information about your graphics card's BIOS such as its version, date, size, vendor, device ID, subsystem ID, etc.
Click on the icon with a floppy disk and a red arrow next to "BIOS Version". This will open a dialog box that allows you to flash your BIOS to your graphics card.
Select the option that says "Browse for a new BIOS image". This will open another dialog box that allows you to select your original BIOS file.
Navigate to the location where you saved your original BIOS file using GPU-Z and select it. Click on "Open" to load your original BIOS file in GPU-Z.
Click on "Flash" to start the flashing process. You will see a warning message that says "Flashing a video card can be dangerous and result in a non-functional (bricked) card". Click on "Yes" to proceed with caution.
You will see a progress bar that shows the status of the flashing process. Do not interrupt or power off your computer during this process. Wait until the flashing process is completed.
You will see a confirmation message that says "BIOS successfully flashed". Click on "OK" to close the dialog box.
Restart your computer for the changes to take effect.
You have now restored your original BIOS using GPU-Z. You can check if the changes are reverted by launching GPU-Z again and checking the information and parameters of your graphics card's BIOS.
What are the best settings for overclocking my graphics card with NiBiTor?
Overclocking is the process of increasing the clock speeds of your graphics card's core and memory to boost its performance. However, overclocking also increases the power consumption, heat output, and noise levels of your graphics card. Therefore, you should overclock your graphics card with caution and moderation.
The best settings for overclocking your graphics card with NiBiTor depend on several factors such as your graphics card model, cooling system, power supply, monitor resolution, game settings, and personal preference. There is no universal or optimal setting that works for everyone. You will need to experiment and test different settings to find the best balance between performance and stability.
However, here are some general tips and guidelines for overclocking your graphics card with NiBiTor:
Backup your existing BIOS file using GPU-Z before making any changes with NiBiTor.
Use the "Clocks" tab in NiBiTor to change the core clock and memory clock of your graphics card. You can use the sliders or type in the values manually. You can also use the "Tools" menu to access some advanced features such as geometric delta clock adjustment.
Increase the core clock and memory clock gradually by small increments (e.g., 10 MHz or 20 MHz) and test them for stability and performance using tools such as MSI Afterburner, HWiNFO, or GPU-Z. If you notice any instability or artifacts, lower the clocks until they are stable again.
Use the "Voltages" tab in NiBiTor to change the core voltage and memory voltage of your graphics card. You can use the sliders or type in the values manually. You can also use the "Tools" menu to access some advanced features such as voltage unlocking.
Increase the core voltage and memory voltage slightly by small increments (e.g., 0.01 V or 0.02 V) and test them for stability and performance using tools such as MSI Afterburner, HWiNFO, or GPU-Z. Increasing the voltage can help you achieve higher clocks, but it also increases the power consumption, heat output, and noise levels of your graphics card. If you notice any overheating or overloading issues, lower the voltages until they are safe again.
Use the "Temperatures" tab in NiBiTor to change the temperature settings of