The motherboard UEFI does the speed control for both I did not set up any fan curves in the EVGA software and disabled it from starting when Windows boots. I installed this AIO so the two Noctua fans are controlled by the primary CPU_FAN fan header the AIO pump is on the AIO fan header. However I am using different fans (Noctua NF-P12 redux-1700 PWM) than the EVGA originals. The EVGA Flow Control software displays the correct speed. If HWiNFO says 1500 rpm, the motor is actually running at 3000 rpm. The coolant pump is bipolar so third-party monitoring utilities like HWiNFO only show half the pump speed. There's EVGA Flow Control software to be installed which controls the fan speed and provides a readout of the pump speed and coolant temperature. This product's cooling block is intended to be connected via included USB cable to an internal motherboard USB header. While the GPU produced more heat than the 3700X, the TU104-410 GPU chip itself is smaller (die size about 24mm x 24mm) so the AIO's small cooling plate provided enough coverage. The original reason I bought the EVGA CLC 240 AIO (non-RGB version) was to cool an RTX 2070 Super Founders Edition graphics card with the NZXT Kraken G2 bracket. I currently have this AIO on my Ryzen 7 3700X (65W TDP) which maxes out at 82 ☌ during a Cinebench R23 benchmark (about 120 W PPT with PBO enabled). I'm not sure if it will provide adequate coverage for TR4 CPUs to provide satisfactory cooling. The cooling block is an older Asetek design with a bayonet mount and a small round copper cooling plate. That said, there's a reason why this AIO is cheap: the cooling performance isn't particularly stellar. Click to expand.If EVGA says that this product is compatible with the TR4 mount, I'm inclined to believe them.
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