Optimizing Cooling: AMD's Impressive Chip Performance and EVGA's Exceptional Support

Table of Contents

1. Introduction
2. The Issue with the Radiator
3. Switching to Be Quiet
4. The High GPU Temperature
5. Contacting EVGA Support
6. Troubleshooting Steps
7. The Importance of Orientation
8. The Role of Air Bubbles
9. The Water Temperature
10. AMD's Impressive Performance
11. Conclusion

Introduction

In this article, we will discuss two key aspects: the impressive advancements made by AMD and the exceptional customer support provided by EVGA. We will delve into the issues encountered with the radiator and GPU temperature, the solutions offered by EVGA, and the overall performance of the AMD chip.

The Issue with the Radiator

Initially, the system experienced higher temperatures and inadequate cooling for the GPU. The previous 1080 hybrid model managed to stay at a much lower temperature, prompting the need for investigation. The orientation of the radiator and the presence of air bubbles were identified as potential causes.

Switching to Be Quiet

A decision was made to move away from RGB components and focus on the efficiency and quietness offered by be quiet products. With this change, the RGB strip was retained while other components were switched to be quiet alternatives. This decision was a step towards achieving better thermals and a quieter system overall.

The High GPU Temperature

The GPU was consistently running at 65 degrees Celsius, which although not alarming, was higher than previous expectations. EVGA's support team confirmed that the components were not overheating, but further investigation was necessary to identify the cause behind this temperature discrepancy.

Contacting EVGA Support

To address the high GPU temperature, EVGA's support team was contacted. They asked Relevant questions to determine the orientation of the system and the possibility of air bubbles affecting the cooling mechanism. The support team provided valuable advice on troubleshooting steps and the optimal operating temperature range for the liquid cooling system.

Troubleshooting Steps

EVGA's support team recommended switching the orientation of the radiator and shaking the system to potentially dislodge any trapped air bubbles. They clarified that monitoring water temperature was not possible but assured that the GPU temperature was within acceptable limits.

The Importance of Orientation

The orientation of the radiator played a significant role in the efficiency of the liquid cooling system. Keeping the radiator at the top could starve the Pump of liquid flow, leading to suboptimal cooling. By correcting the radiator's orientation and ensuring proper airflow, the system's cooling performance could be improved.

The Role of Air Bubbles

Air bubbles within the liquid cooling system can impact its effectiveness by obstructing the flow and insulation properties. The support team recommended shaking the system gently and allowing it to rest in a flat position to encourage the release of air bubbles, ultimately enhancing the cooling efficiency.

The Water Temperature

Although measuring water temperature was not feasible, EVGA's support team provided insight into the expected temperature range for the liquid coolant. They explained that temperatures up to 60-65 degrees Celsius were considered safe, emphasizing that the components themselves were designed to withstand higher temperatures.

AMD's Impressive Performance

Throughout the troubleshooting process, it became evident that the AMD chip was performing exceptionally well. Despite the absence of a fan and relying solely on passive airflow from existing case fans, the GPU temperature remained within acceptable limits. This Speaks to the efficiency and effectiveness of the AMD chip, particularly for mid-range systems.

Conclusion

In conclusion, the combination of AMD's impressive chip performance and EVGA's exceptional customer support resulted in a successful resolution to the cooling issues. By understanding the importance of orientation, troubleshooting steps, and the impact of air bubbles, the system was optimized for better thermals and overall performance.