Temperatures

We're using a Noctua NH-D15 for temperature measurements. Application temperatures are measured using Blender, a highly demanding rendering load, which will load all cores completely, but that's still realistic and not a synthetic stress test, like Prime95. For gaming, we picked Cyberpunk 2077, its modern engine is multi-thread aware and will try to spread as many tasks as possible over many CPU cores, when available. Even when a game uses multiple threads it doesn't load each CPU core as heavily as rendering, for example, so there's some scope for power savings here.

Note that unless indicated otherwise, all processors are tested at stock conditions with their power limit active, which is why some Intel temperatures are surprisingly low. As designed by Intel, these CPUs can exceed their TDP for a few seconds (PL2), but in the long term, the power limit (PL1) is respected, which brings temperatures down considerably. Both tests report the steady-state temperature after an extended runtime of at least 10 minutes. Temperatures are based on delta T, normalized to 25°C, that's why the temperature of some CPUs is higher than their throttle point, because the room temperature was below 25°C.

For recent Intel CPUs we've increased the temperature limit in BIOS from 100°C to 115°C, to get a better feel for temperatures without thermal throttle getting in the way.

Temperature testing on this page uses air-cooling, for consistency and to show comparable results. All performance testing on the other pages is done using a liquid cooling solution that keeps the temperatures well below 100°C, to ensure there is no thermal throttling.