Preparing the system
Preparing the system
The cooler will be tested in various scenarios. For some users, the noise is the most important aspect. Others want to know what the performance is like in a non-overclocked system. But there are also enthusiast users, squeezing the CPU for maximum performance by overclocking.
Four things will be checked:
- dBA noise levels
- temperatures of the Core i7 8700K at default settings
- temperatures of the Core i7 8700K at 4.8 GHz, at 1.3 Volts
- temperatures of the Core i7 8700K at 4.8 GHz, with > 1.3 Volts
The room (ambient) temperature was about 23 degrees Celsius. We decided to go with the Core i7 8700K, because it was the “hottest” consumer Intel CPU that you could get when we were building the test system, providing 6 cores and 12 threads. When overclocked, it can generate very high temperatures. One remark though – the CPU that we used was delidded (the stock TIM under the IHS was replaced with Liquid Metal), so you need to keep in mind that this dropped the temps by about 16-17 °C compared with the retail part.
As with all other cooler tests that we do, the TIM that we used was Thermal Grizzly Kryonaut, to eliminate the influence of thermal paste performance from the equation.
Because we are using a “corrected” processor, it should be easier to show you the actual performance of the cooler, as the stock Intel TIM applied under the heat spreader can actually limit the differences between products (because of poor heat transfer design), and make the charts flatter. We’ll be testing the CPU at default clock frequencies, and also at 4.8 GHz, at 1.3 Volts. It’s the lowest voltage that provided stability for this i7 8700K at 4800 MHz. The reported temperatures come from the processor package sensor. There are some small variances between the cores in this particular CPU (2-3°C), so it’s on the safe side to just look at package sensor readings.
The components that we used are:
- Intel Core i7 8700K de-lidded @ 4.8 GHz @1.30 V
- Asus Strix Z390-E Gaming
- AORUS Waterforce GeForce® GTX 1080 Ti Xtreme Edition 11G
- Samsung 970 Evo 1 TB
- OCZ RD400 512 GB
- Seasonic Prime Titanium Ultra 850 W
What CPU stress program did we use?
We stressed the CPU using wPrime 2.10, which we ran three times at the 1024M setting. The measurements were taken at default CPU frequencies, and also with an OC (4.8 GHz @ 1.3 V). A security feature was enabled, which powers down the system after it reaches 95°C. We measured the package temperature, as per-core temps can differ slightly (though it also depends on the CPU type, and even on the particular chip). For LOAD testing, we recorded the maximum temperature reading after three full wPrime 1024M runs.