Unlocking Maximum Cooling Performance: 4 vs 6 Heatpipes for AM4 Ryzen 9 3900x

Table of Contents

1. Introduction
2. testing Six Pipes vs Three Pipes vs Stock Cooler vs Four Pipes
3. Features of the Four Pipe Cooler
4. Installation Process
5. Performance Testing with Blender
6. Comparison with Stock Cooler
7. Pros and Cons of the Four Pipe Cooler
8. Upgrading the Cooler with Prism Fan
9. Benchmark Results with Prism Fan
10. Conclusion

🔎 Introduction

In this video, we will be testing out different cooling options for our computer system. We will compare the performance of a six-pipe cooler, a three-pipe cooler, and a stock cooler against a four-pipe cooler. We will dive into the features of the four-pipe cooler and discuss the installation process. Furthermore, we will conduct performance testing using Blender to analyze the cooling efficiency. Finally, we will Present the pros and cons of the four-pipe cooler and explore the possibility of upgrading it with a Prism fan for even better cooling results. So, let's get started!

🔬 Testing Six Pipes vs Three Pipes vs Stock Cooler vs Four Pipes

To determine which cooling option is the most effective, we will conduct a thorough test involving four different coolers. These include a six-pipe cooler, a three-pipe cooler, a stock cooler, and our main focus, a four-pipe cooler. By comparing their performance, we can determine which one offers the best cooling capabilities.

Features of the Four Pipe Cooler

The four-pipe cooler we are evaluating stands out with its unique features. It is equipped with six millimeter-thick pipes, three fans, and a special adapter that connects all three wires to one controller. This design allows for efficient heat dissipation throughout the heat sinks. However, we will also consider its potential drawbacks, such as the wobbling fan and the attachment mechanism.

🛠️ Installation Process

Proper installation of the cooler is vital for optimal performance. We will guide you through the installation process, ensuring that the thermal paste is spread evenly and the processor is securely attached. Following these steps will guarantee that the cooler operates at its full potential.

🔄 Performance Testing with Blender

To push the coolers to their limits, we will conduct performance testing using Blender. With the CPU running at 4.2 gigahertz, we will monitor the temperature and fan RPM to assess the coolers' effectiveness. Through this test, we aim to determine the cooling abilities of each option and identify any potential shortcomings.

🔁 Comparison with Stock Cooler

One of the main aspects we will analyze is how the four-pipe cooler compares to the stock cooler. While the stock cooler is a common choice, we will evaluate whether investing in a four-pipe cooler offers significant improvements in keeping the system cool. We will compare factors such as temperature, noise levels, and overall performance to draw a comprehensive comparison.

👍👎 Pros and Cons of the Four Pipe Cooler

To provide an objective assessment, we will highlight the pros and cons of the four-pipe cooler. By evaluating its strengths and weaknesses, we can determine if this cooling option is worth considering. Factors such as cooling efficiency, affordability, and ease of installation will be taken into account.

🌟 Upgrading the Cooler with Prism Fan

To enhance the cooling capabilities of the four-pipe cooler, we will explore the possibility of upgrading it with a Prism fan. By utilizing the included clips, we will attach the Prism fan to the cooler and assess the impact on the overall cooling performance. This upgrade has the potential to make a noticeable difference in keeping the system cool.

📊 Benchmark Results with Prism Fan

With the Prism fan incorporated into the cooler, we will conduct benchmark tests to gauge its effectiveness. We will analyze the temperature readings during tasks such as Cinebench rendering, taking into account the fan RPM and power curbs. By reviewing the benchmark results, we can determine the efficiency of the upgraded cooler.

💡 Conclusion

After thoroughly testing different cooling options and analyzing the performance of the four-pipe cooler, we can draw our final conclusions. We will summarize the advantages of the four-pipe cooler over its alternatives and evaluate its overall value for money. Finally, we will encourage viewers to share their thoughts and opinions on the performance of these cooling solutions.

Highlights:

• Testing the effectiveness of different cooling options
• Features and installation process of the four-pipe cooler
• Performance testing using Blender and benchmark results
• Comparison with the stock cooler and evaluation of pros and cons
• Upgrading the cooler with a Prism fan for enhanced cooling efficiency

FAQ

Q: Is the four-pipe cooler better than the stock cooler? A: The four-pipe cooler offers improved cooling performance compared to the stock cooler, as demonstrated through our tests. However, the effectiveness may vary depending on individual system configurations.

Q: Can I upgrade my existing cooler with a Prism fan? A: Yes, you can upgrade your cooler with a Prism fan using the included clips. This upgrade has the potential to significantly improve cooling efficiency.

Q: How much does the four-pipe cooler cost? A: The four-pipe cooler is an affordable option, priced at $20 and offering free shipping. You can find the product link in the video description.

Q: Does the upgraded cooler with a Prism fan produce less noise? A: Yes, by adjusting the power curbs and optimizing fan RPM, the upgraded cooler with a Prism fan can run at lower noise levels while maintaining efficient cooling.

Resources:

• Product Link
• Video Link