Hello there,
We were finally able to give this a quick run today and prepare some comparisons
Specs: Talos 2 with 1x 02CY296 (22-core, 88 threads)
Setup 1: HSF, 3U IBM HSF
Setup 2: Water cooling system heatsink, 120mm / 4.7″ radiator, 120mm / 4,7″ PWM fan, Laing DC pump, compression fittings and TPV (EPDM/PP) tubes.
Setup 3: Identical to setup 2, with MX5 thermal paste
Stressing the CPU: $ sudo sysbench --test=cpu --cpu-max-prime=990000000 --threads=90 run
We stressed each setup for 15 minutes / 9e+11 nanoseconds, both fans (HSF and the fan attached to the radiator) are PWM fans, controlled by Talos 2.
Findings:Compared to setup 1, setup 2 showed similar core temperatures, though quieter. Which makes sense since this mechanism can't deliver the high pressure of 90 kg (200 lbs) the IBM HSF can.
Setup 3 showed the best results which were roughly 10 °C / 50 °F below the present temperatures at the 15 minute / / 9e+11 nanoseconds mark and roughly 20 °C / 68 °F below the "highest" temperature of setup 1 and 2. Quite honestly this is as positive surprise.
I'd expect even better results with a larger 240mm / 9.45″ radiator.
Unfortunately, the upper plate of the mechanism had warped during the first attempts (which ist a quality issue and shouldn't have happened) and the mechanism as a whole is too tight against the compression fittings (perhaps that's not an issue with angled fittings). It's easy to overtighten the screw of the mechanism because it's unclear how much force is necessary to hold the heat sink in place and provide enough pressure for a sufficient cooling result.
All in all this seems to be very usable in principle, but there are some improvements to be made before we're happy enough with the quality and if we want to use standard components (esp. a standard water cooled heat sink) that doesn't break the bank.
From left to right: watercooled with thermal paste / watercooled without thermal paste / IBM HSF
