Overclocking
Manual overclocking with air cooling is average, if you can withstand the fan, which then operates at maximum speed at over 3500 rpm. On the one hand, of course, as always, we have the GPU lottery, on the other hand it is difficult with air to reach the 2.1 GHz limit even in closed enclosures and, if so, to keep it permanently. The memory was also moderately overclocked, but it is also getting quite hot, so you should think about this carefully.
Temperatures and clock rates
First, we compare the achieved start and end values for temperatures and GPU clock (boost) in tabular form:
Initial |
Final value |
|
---|---|---|
Open Benchtable | ||
GPU Temperatures |
39 °C | 70 °C |
GPU clock | 1962 MHz | 1873-1887 MHz |
Ambient temperature | 22 °C | 22 °C |
Closed Case | ||
GPU Temperatures |
41 °C | 73 °C |
GPU clock | 1936 MHz | 1860-1873 MHz |
Air temperature in the housing | 25°C | 41°C |
OC (Open Benchtable) | ||
GPU temperatures (3550 rpm) | 28 °C | 63 °C |
GPU clock | 2012 MHz | 2055 MHz |
Ambient temperature | 22°C | 22°C |
Overview Graphs: Temperatures vs. Clock
For better illustrations now again the respective courses considering our timeline of a total of 15 minutes each for the warm-up time.
Thermal analysis of the back of the board
Finally, we consider the thermal analysis of the respective load states. We see that the VRM area and memory modules are getting very hot, with the waste heat moving very strongly towards the GPU over time due to the lack of a direct cooling VRM heat sink and heating up the memory modules along the way.
- 1 - Einführung und Übersicht
- 2 - Platine und Spannungsversorgung im Detail
- 3 - Gaming Performance: 2560 x 1440 Pixel (WQHD)
- 4 - Gaming Performance: 3840 x 2160 Pixel (UHD)
- 5 - Leistungsaufnahme im Detail
- 6 - Temperaturen, Taktraten, OC und Wärmebildanalyse
- 7 - Kühlerdetails und Geräuschentwicklung
- 8 - Zusammenfassung und Fazit
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