Thermal Performance – Noise Normalized 25 dBA
IDLE Thermal Results
CPU_IDLE_Temperature_25DBA
GPU_IDLE_Temperature_25DBA
NVME_IDLE_Temperature_25DBA
VRM_IDLE_Temperature_25DBA
CHIPSET_IDLE_Temperature_25DBA
PSU_IDLE_Temperature_25DBA
CHASSIS_EXHAUST_IDLE_Temperature_25DBA
Torture (Prime95 + Furmark) Thermal Results
CPU_Torture_Temperature_25DBA
GPU_Torture_Temperature_25DBA
NVME_Torture_Temperature_25DBA
VRM_Torture_Temperature_25DBA
CHIPSET_Torture_Temperature_25DBA
PSU_Torture_Temperature_25DBA
CHASSIS_EXHAUST_Torture_Temperature_25DBA
Gaming Results
CPU_GAME_Temperature_25DBA
GPU_GAME_Temperature_25DBA
NVME_GAME_Temperature_25DBA
VRM_GAME_Temperature_25DBA
CHIPSET_GAME_Temperature_25DBA
PSU_GAME_Temperature_25DBA
CHASSIS_EXHAUST_GAME_Temperature_25DBA
CPU & GPU Average Clock Frequencies
We have to look at the average CPU and GPU clocks to get a complete picture since higher clocks mean more thermal load, which pushes the cooling system more. If we have two cooling systems with only a 1-2 degrees Celsius difference and a 100-200 MHz difference in the clock speeds of the CPU or the GPU, it is easy to find the best performer.
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