Reduce Intel 13900KS CPU Temperatures by 10-15c with Delidding

Reduce Intel 13900KS CPU Temperatures by 10-15c with Delidding

Table of Contents

1. Introduction
2. Stock Temperatures of 13th Generation CPUs
3. The Importance of Proper Cooling
4. The Rocket Cool De-Lidding Kit
5. Removing the Indium Solder Residues
6. Applying Liquid Metal Thermal Interface Material
7. Installing the CPU and Checking Temperatures
8. Improved Performance and Stability
9. Considerations for Overclocking
10. Conclusion

Introduction

In this article, we will be discussing the stock temperatures and cooling issues of the 13th generation CPUs from Intel. We will explore the effects of high temperatures on the CPU's performance and the potential solutions to improve cooling efficiency. One such solution is the use of the Rocket Cool De-Lidding Kit, which allows for the removal of the indium solder residues and the application of liquid metal thermal interface material. We will also discuss the process of installing the CPU and checking the temperatures after applying these modifications. By the end of this article, you will have a better understanding of the importance of proper cooling and how it can enhance the performance and stability of your CPU.

Stock Temperatures of 13th Generation CPUs

Many users who have purchased the latest 13th generation CPUs from Intel, such as the 1300k, KF, or especially the 1300KS, have reported high temperatures even when running the CPU at stock settings. It is not uncommon to see temperatures reaching 100 degrees Celsius, especially during AVX-based workloads. This is primarily due to the high stock voltages set by Intel for these CPUs. Stock voltages of 1.35V or even 1.4V are not uncommon, which results in excessively high temperatures.

The Importance of Proper Cooling

Running a CPU at high temperatures for an extended period can have negative effects on its performance and longevity. It is crucial to ensure that the CPU is adequately cooled to prevent overheating. High temperatures can lead to thermal throttling, which reduces the CPU's performance and can cause instability issues. Additionally, prolonged exposure to high temperatures can shorten the CPU's lifespan.

The Rocket Cool De-Lidding Kit

To address the cooling issues of 13th generation CPUs, many enthusiasts turn to the Rocket Cool De-Lidding Kit. This kit allows for the removal of the CPU's integrated heat spreader (IHS), which is where the indium solder residues are located. By removing these residues, it is possible to improve the contact between the CPU die and the IHS, resulting in better heat dissipation.

Removing the Indium Solder Residues

The process of removing the indium solder residues requires precision and caution. The Rocket Cool De-Lidding Kit provides a Quick Silver kit that can be used to remove the residues effectively. It is important not to damage the small components on the CPU's PCB when performing this procedure. By following the instructions provided with the kit, it is possible to safely remove the residues without causing any harm.

Applying Liquid Metal Thermal Interface Material

After removing the indium solder residues, it is time to apply the liquid metal thermal interface material. The thermal Grizzly conductor, one of the best liquid metal thermal interface materials available, is recommended for this application. Care must be taken not to apply too much material, as it can lead to unwanted spillage. Liquid metal should only be applied when the CPU is removed from the socket, as it is conductive and can damage other components if it comes into contact with them.

Installing the CPU and Checking Temperatures

Once the CPU has been prepared with the liquid metal thermal interface material, it can be reinstalled on the motherboard. It is important to ensure that the CPU is mounted securely and that good contact is made between the CPU die and the cooling solution. After reinstalling the CPU, it is necessary to check the temperatures to evaluate the effectiveness of the modifications. Tools such as CPU-Z and Core Temp can be used for this purpose.

Improved Performance and Stability

With the modifications made using the Rocket Cool De-Lidding Kit and the application of liquid metal thermal interface material, it is possible to achieve improved performance and stability. By reducing the temperatures of the CPU, it becomes safer to run the CPU at higher frequencies without encountering thermal throttling issues. This is particularly beneficial for those who wish to overclock their CPUs.

Considerations for Overclocking

After the de-lidding process and the application of liquid metal thermal interface material, users may consider overclocking their CPUs to further improve performance. However, it is essential to understand the limitations of the cooling solution and the specific CPU model. Overclocking should be approached with caution and proper monitoring of temperatures to avoid causing damage to the CPU.

Conclusion

In conclusion, the 13th generation CPUs from Intel can suffer from high temperatures even when running at stock settings. This can lead to performance issues and reduced longevity. By using the Rocket Cool De-Lidding Kit and applying liquid metal thermal interface material, it is possible to significantly reduce temperatures and improve performance and stability. However, caution must be exercised during the de-lidding process to avoid damage to the CPU. Proper cooling and monitoring are essential for those who wish to push their CPUs to their limits.