Cut to the Chase - The Blog with Honest Laptop Assessments

Overheat no more! undervolt your razer blade 15 cpu for cooler, faster gaming

Overview

  • Undervolting your Razer Blade 15 CPU is an effective way to reduce heat, improve performance, and extend the life of your laptop.
  • This guide will provide you with a step-by-step process on how to undervolt your Razer Blade 15 CPU safely and effectively.
  • If your CPU temperatures are too high, increase the negative voltage offset value in Intel XTU and ThrottleStop by increments of -0.

Undervolting your Razer Blade 15 CPU is an effective way to reduce heat, improve performance, and extend the life of your laptop. This guide will provide you with a step-by-step process on how to undervolt your Razer Blade 15 CPU safely and effectively.

Prerequisites

Before you begin, ensure you have the following:

  • Razer Blade 15 laptop with an Intel Core i7 or i9 CPU
  • Intel XTU software (available for free download)
  • ThrottleStop software (available for free download)

Step 1: Enable Advanced BIOS Settings

1. Restart your Razer Blade 15 and press F2 to enter the BIOS.
2. Navigate to the “Advanced” tab.
3. Enable “Intel Extreme Tuning” and “VT-d” options.

Step 2: Install Intel XTU and ThrottleStop

1. Download and install Intel XTU from the Intel website.
2. Download and install ThrottleStop from the ThrottleStop website.

Step 3: Open Intel XTU

1. Launch Intel XTU.
2. Click on the “Core” tab.
3. Under “Core Voltage Offset,” enter a negative value (e.g., -0.100V).

Step 4: Open ThrottleStop

1. Launch ThrottleStop.
2. Click on the “FIVR” tab.
3. Under “Core Voltage Offset,” enter the same negative value as you did in Intel XTU.

Step 5: Stress Test

1. Click on the “Stress Test” button in ThrottleStop.
2. Run the stress test for at least 15 minutes.
3. Monitor your CPU temperatures using the “Monitoring” tab in ThrottleStop.

Step 6: Adjust Voltage Offset

1. If your CPU temperatures are too high, increase the negative voltage offset value in Intel XTU and ThrottleStop by increments of -0.005V.
2. If your CPU temperatures are too low, decrease the negative voltage offset value in Intel XTU and ThrottleStop by increments of -0.005V.

Step 7: Save and Exit

1. Once you have found a stable voltage offset value, click on the “Save” button in ThrottleStop.
2. Exit ThrottleStop and Intel XTU.

Monitoring and Troubleshooting

After undervolting, it is important to monitor your CPU temperatures and performance to ensure stability. If you experience any issues, such as crashes or blue screens, you may need to increase the negative voltage offset value.

Benefits of Undervolting

Undervolting your Razer Blade 15 CPU can provide several benefits:

  • Reduced CPU temperatures
  • Improved performance
  • Extended laptop life
  • Quieter fan operation

Wrap-Up: Unleashing the Potential of Your Razer Blade 15

Undervolting your Razer Blade 15 CPU is a simple and effective way to enhance its performance and longevity. By following the steps outlined in this guide, you can safely and successfully undervolt your CPU and experience the benefits it offers.

Frequently Asked Questions

Q: What is undervolting?
A: Undervolting is the process of reducing the voltage supplied to the CPU, which can lower temperatures and improve performance.

Q: Is undervolting safe?
A: Yes, undervolting is generally safe when done correctly. However, it is important to stress test your CPU to ensure stability.

Q: What is the optimal voltage offset value?
A: The optimal voltage offset value varies depending on the specific CPU and laptop model. It is best to start with a small negative offset and gradually increase it while monitoring temperatures and performance.

Q: Can I undervolt my AMD CPU Razer Blade 15?
A: No, this guide is only applicable to Razer Blade 15 laptops with Intel Core i7 or i9 CPUs.

Q: What are the risks of undervolting?
A: Undervolting can potentially lead to instability if the voltage offset value is too low. It is important to stress test your CPU and monitor temperatures to ensure stability.

Was this page helpful?No
K
About the Author