Agree with beanflying here.
There's no watercooled stuff in our DC or offices. Why? It's more expensive, more complicated and less reliable. And it doesn't matter a damn to the end user.
My last two desktops were air cooled and near silent when flat out and those were a 3700X and a 10400. Yeah stuff hits 60oC - so what?
Water cooling, apart from specialist applications, is just dick jewelry. Also it doesn't matter which vendor. It's the TDP that is important. Both vendors have products with good and shit TDPs...
I think you have missed the argument, it's not if liquid cooling is NEEDED, it's if a liquid cooling system is better at cooling.
First, bd, you are comparing a DC which is designed and expects to have shitloads of high-velocity fans screaming like NASA JPL 24/7 with a end-user's box that sits next to/under a desk and has close to zero workload 98% of the time. These DCs work great, provided you A) can get the fuck out of the wailing banshee room most of the time for the sake of your sanity and 2) can ensure that the airflow into and out of said room is very well chilled and filtered.
Also, just because your DC is air-cooled, does not mean all are. Many of my biggest clients in Houston were also FinTech, and all the servers I dealt with for them were in fact liquid-cooled, with high-capacity AiO coolers purpose-made for server use by Corsair. These are not even custom made; they are now so common as to be a generic, modular product that server manufacturers design around, just like modular high-CFM fan clusters.As for whether it is needed here... yes, it is. I run a Auto OC'd Ryzen 7 and a OC'd RTX2080Super for a high-resolution VR gaming setup (Odyssey+ goggles; were bleeding edge, now middle of the road). I tried running it with the stock Wraith cooler, and I tried a borrowed air-cooled RTX2080 first. Logs showed that both thermal-throttled with any prolonged gameplay; even on games as simple as Beat Saber. It is not just the complexity of the imagery that matters; it is the demands of the timing required to render 2K video at 90-100 FPS and have enough overhead that you can discard unneeded frames and still keep that framerate. This system literally runs right at the AMD/NVidia bus bottleneck speeds pretty much
any time it is doing the job I built it for.So yes, liquid cooling is better in this scenario, and it deals better with the heat-soak that prolonged processing
in a desktop-grade PC running right at its limits generates.
And there is something that nobody here is considering, which really does make a big difference in water-cooling's favor: The difference in velocity of airflow required for effective cooling: You guys all talk aboot how "huge unrestricted airflow" in a case is critical... with air-cooling, you need that airflow to be as close to a wind-tunnel as you can get. This is because your CPU and GPU are dumping all their heat inside the case, and you have to get that heat outside as quickly as possible or the CPU and GPU just heat each other and your MB up with their waste air.
With liquid cooling, this really is not necessary. You need to be able to flow large volumes of air, yes; but it does not need to move fast. It can come in from the bottom, flow nice and leisurely around stuff in the basement, up around the MB, GPU, accessories and schizz... it doesn't matter.
The fact of being able to choose exactly where the waste air dumps, combined with the exponentially greater surface area and efficiency of a liquid-cooling rad is so much better that you can design such that the CPU and GPU
both are dumping their heat
directly outside the case, and none of it is in there with the MB. This means your VRM and high-speed chipset controllers and NVMe drives stay nice & cool, since they aren't dealing with the waste heat from the CPU & GPU.
This is why my rig has both CPU and GPU liquid-cooled, and each with its own rad. It is also why I'm rebuilding in a case which has a great big filter on the bottom; this design lends itself much better to the reverse-flow build I've been using for 2 years now.
Another pro for liquid-cooled in a home environment; something I've found from experience over the years: Because the air moves much slower most of the time, liquid-cooled PCs accumulate much less dust from the surrounding air, and even when they do, it matters less because the radiators deal with it so much better than the fins in an air-cooler.
This doesn't matter in a DC with ultra-filtered processed air; in a home it is a
huge problem.
Okay... I'm sure I'm gonna set off a huge
argument discussion with this latest installment... I guess I'd better go put muh flameproof jammies on.
Cheers,
mnem
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