Achieve an Incredible 5.6GHz Overclock on AMD Ryzen 2700X CPU with Liquid Nitrogen Cooling

Achieve an Incredible 5.6GHz Overclock on AMD Ryzen 2700X CPU with Liquid Nitrogen Cooling

Table of Contents

1. Introduction
2. Recap of the Livestream
3. Overview of the Gigabyte Zee 390 A RS Master Motherboard
4. Notable Overclockers and Guests in the Livestream
5. Cinebench Results and Performance Improvements
6. Comparison with Stock Cinebench Scores
7. Overclocking on Air vs Liquid Nitrogen Cooling
8. Voltage Adjustments for Stable Overclocking
9. Discussion on the Dewar and Alan to Usage
10. Implications of the Overclocking Results for AMD Processors

Introduction

In this article, we will be recapping a recent livestream where overclocking was done on the AMD Ryzen 7 2700X processor using liquid nitrogen cooling. We will discuss the results, including Cinebench scores, frequencies, and voltages. Additionally, we will cover the challenges encountered and the preparation involved in overclocking. Furthermore, we will highlight the presence of notable overclockers and guest appearances during the livestream. Finally, we will touch upon the implications of these overclocking results for AMD processors.

Recap of the Livestream

During the livestream, which was sponsored by the Gigabyte Zee 390 A RS Master motherboard, the hosts engaged in overclocking the AMD Ryzen 7 2700X processor. They achieved frequencies of 5.550 GHz, which is a significant increase from the stock clock speed of 4.2 GHz. The final Cinebench score reached 2512 points, showing a performance improvement of approximately 36%. The hosts Mentioned that the overclocking process was made enjoyable due to the presence of notable overclockers and guests, such as Roman "der8auer" Hartung and Joe "buildzoid" Stead, who added a fun element to the livestream.

Overview of the Gigabyte Zee 390 A RS Master Motherboard

The Gigabyte Zee 390 A RS Master motherboard used in the livestream is equipped with the Z390 VRM for heavy overclocks on the 9th gen Intel CPUs. It features a heatsink with high surface area fins and an aesthetics-oriented cover blox. The motherboard also boasts updated RGB illumination, allowing for customizable lighting options. These features make it an ideal choice for enthusiasts and overclockers looking to push their CPUs to the limit.

Notable Overclockers and Guests in the Livestream

The livestream saw the participation of renowned overclockers and guests, such as Roman "der8auer" Hartung and Joe "buildzoid" Stead. Their presence added an exciting and competitive atmosphere to the event, as they engaged in friendly banter and challenges. Additionally, the livestream featured an appearance by the EVGA OC lab's well-known overclocker, 10akx devs. These notable personalities elevated the livestream's entertainment value and attracted a larger audience.

Cinebench Results and Performance Improvements

The overclocking efforts resulted in a Cinebench score of 2512 points, a significant improvement compared to the stock score of 1848 points. This indicates a performance increase of approximately 36%. The hosts highlighted that this performance boost was achieved by pushing the processor to its limits with liquid nitrogen cooling. The substantial increase in frequency from the stock 4.2 GHz to 5.550 GHz played a crucial role in achieving such impressive results.

Comparison with Stock Cinebench Scores

To provide a reference point, the hosts compared the overclocked Cinebench score of 2512 points with the stock score of a Threadripper 1950X processor, which was approximately 3000 points. Considering that Cinebench heavily relies on multi-threaded performance, achieving 2512 points on a Ryzen 7 2700X is commendable. This comparison showcases the substantial performance gains that can be obtained through overclocking.

Overclocking on Air vs Liquid Nitrogen Cooling

During the livestream, the hosts also discussed the difference between overclocking on air cooling and using liquid nitrogen. They acknowledged that achieving high frequencies such as 5.550 GHz on air cooling is uncommon and usually requires more extreme methods. Liquid nitrogen cooling, in contrast, allows for much lower temperatures, facilitating higher frequency overclocking. The hosts explained that the Ryzen 7 2700X performed exceptionally well with liquid nitrogen cooling, pushing it beyond its usual limits.

Voltage Adjustments for Stable Overclocking

To maintain stability during the overclocking process, the hosts had to make voltage adjustments. They started with a voltage of 1.55 V but found that the processor started becoming unstable at around 5.475 GHz. To overcome this, they gradually increased the voltage to 1.60 V, eventually reaching a final voltage of 1.85 V for the maximum overclock of 5.550 GHz. The hosts emphasized the importance of finding the right balance between clock frequency, voltage, and stability to achieve optimal results.

Discussion on the Dewar and Alan to Usage

Throughout the livestream, the hosts utilized a Dewar filled with liquid nitrogen to cool the processor. They explained that a Dewar enables extended cooling, allowing for longer overclocking Sessions. The Dewar used in the livestream had a capacity of 180 liters and was filled twice, totaling around 20 liters of liquid nitrogen usage. The hosts also discussed the necessity of using appropriate containers and equipment when handling liquid nitrogen, ensuring safety and efficient cooling.

Implications of the Overclocking Results for AMD Processors

The overclocking results achieved in the livestream serve as a testament to the overclocking potential of AMD processors, specifically the Ryzen 7 2700X. Despite not reaching the same frequency levels as Intel processors, the Ryzen 7 2700X demonstrated a substantial performance gain through overclocking. This highlights the room for improvement in future AMD processor generations, and raises anticipation for higher clock speeds while maintaining stability.

Highlights

• Livestream recapped the overclocking of AMD Ryzen 7 2700X with liquid nitrogen cooling
• Achieved frequencies up to 5.550 GHz and a Cinebench score of 2512 points
• Gigabyte Zee 390 A RS Master motherboard provided optimal overclocking capabilities
• Notable overclockers and guests added entertainment value to the livestream
• Overclocking on air cooling yielded lower frequencies compared to liquid nitrogen cooling
• Voltage adjustments were necessary to maintain stability during overclocking
• Liquid nitrogen usage of approximately 20 liters in a 180-liter Dewar
• Implications for future overclocking potential in AMD processors

FAQ

Q: Can these overclocking results be achieved on air cooling? A: Achieving frequencies of 5.550 GHz on air cooling is highly unlikely. Liquid nitrogen cooling provides the necessary extreme temperatures for such high overclocks.

Q: Are there any risks involved in using liquid nitrogen for overclocking? A: While liquid nitrogen provides excellent cooling capabilities, it must be handled with caution due to its extremely low temperatures. Proper safety measures should be followed when working with liquid nitrogen.

Q: How do these overclocking results compare to Intel processors? A: While the Ryzen 7 2700X may not reach the same frequency levels as some Intel processors, it still delivers a significant performance boost through overclocking, showcasing the potential of AMD's processors.

Resources:

• Gigabyte Zee 390 A RS Master motherboard: https://www.gigabyte.com/Motherboard/Z390-AORUS-MASTER-rev-10#kf
• Bearded Hardware YouTube Channel: https://www.youtube.com/user/beardedhardware