Cooler Master Seidon 240M and 12 More Coolers: The Retest and Mega-Roundup
by Dustin Sklavos on April 26, 2013 6:01 AM ESTSilent Running Performance
There was a tremendous amount of data on the previous page; we need to make it easier and condense it into more readily useful information. So we'll start by culling all of the test results where the coolers had to run at higher than 34dB, leaving us with a healthy cross-section of quieter cooling solutions.
This is where Swiftech makes their move. The H220 offers essentially the best low noise performance out of all of the coolers we've tested. Unfortunately, load noise takes the Cooler Master Seidon 240M out of the equation at any level; even with PWM enabled, the 240M went up to 38dB.
You'll also notice that while the top four positions are held by closed loop coolers, air cooling essentially makes its comeback here as a quieter solution overall. The air coolers we've tested are all, outside of SilverStone's HE-01, designed to be silent, so this isn't a surprise. The surprise is more that closed loop coolers running at quiet settings are having a much harder time competing.
Culling all of our data down to the lowest noise settings is even more interesting. Swiftech's H220 continues to do well, but the Seidon 240M sort of cheats: this may be its quietest, but it's still running at 38dB, 5dB higher than the more expensive H220. The NZXT Kraken X40 turns out to do much better in a push-pull configuration, though, and its noise level is just 31.2dB, 2dB quieter than the H220 in exchange for running about 2-3C warmer. The second fan turns the Kraken X40 into a dark horse contender and brings it into the overall conversation; adding the second fan doesn't actually increase load noise at the Kraken's silent setting, but it does bring thermals down by a healthy 5C.
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spidey81 - Friday, April 26, 2013 - link
This article was to test the performance of the coolers at a certain clock speed. However, I think you would find that when pushing the overclock higher you would see some coolers wouldn't be able to keep the temps in check while others could. There's a difference between efficiently transferring the heat and the amount of heat capable of being transferred. That's why the D14 and TRUE are popular among overclockers who push higher than what we see in this test. To that end, the 240mm or 280mm closed loop coolers will also be able to handle higher overclocks.In this (http://www.overclock3d.net/reviews/cases_cooling/s... review of the H220, you can see that on the socket 2011 cpu the air coolers weren't able to maintain the extreme overclocks like the closed loop coolers could.
spidey81 - Friday, April 26, 2013 - link
sorry, link broke. http://tinyurl.com/cu24bwk That should work better :)epoon2 - Friday, April 26, 2013 - link
You meant that as the load/watt/heat produced by CPU increases, the order in this graph http://images.anandtech.com/graphs/graph6916/54390... changes?but in the above test, the fans are at constant, max speed already ... I know what you mean but I just can't figure out the science/reason behind why your scenario would happen.
BrightCandle - Friday, April 26, 2013 - link
Two key factors are at play:1) the amount of watts of heat the solution can dissipate at a given delta temperature to the air.
2) the thermal interface performance to the CPU itself and hence what temperature the CPU is running at.
Water is cooling the water block but then water itself is above ambient temperature. This often means the ambient temp CPU effectively sees is higher compared to what it was with air. But water warms and cools much faster than air by volume, and it can hold a lot more energy. Combining water with a substantially larger area to exchange its heat to air and you get a solution that cools better given a large number of watts of heat but does less well on low wattage where air cooling fits and is sufficient.
A 2600k pulls about 170W over clocked. A 3930k can be over 300W. 170W is about the point to consider water but you need an overspecced loop to show any advantage at all. Passed 200 watts however and water takes a clear lead and air stops being able to do the job.
epoon2 - Saturday, April 27, 2013 - link
Assuming the water pipes dissipates negligible heat, the role of the water system is equivalent to that of the thermal compounds: to transfer energy and heat to the sink and radiator.The difference in rate of heat exchange between the metal pieces and the external environment becomes the key.
In an open air test, the rankings should remain the same as amount of heat generated by the CPU increases. In the real world , the performance of air coolers depends on the effectiveness of the case's heat exchange system..
A5 - Friday, April 26, 2013 - link
For future reviews, I wouldn't mind seeing the Xigmatek SD1283 tested. A lot of people recommend it for people who want something better than the CM Evo but don't want to spend Noctua money. It typically runs ~$50 so it fits that niche price-wise as well.A5 - Friday, April 26, 2013 - link
I guess I meant the silly-named "Dark Knight 2" when I wrote this. Didn't know they had 2 different SD1283s. Guess I wouldn't mind seeing the cheaper, non-coated "Gaia" as well.Dr_b_ - Friday, April 26, 2013 - link
Does the U12 have socket 2011 mounting capability?epoon2 - Friday, April 26, 2013 - link
http://www.noctua.at/main.php?show=productview&...Dr_b_ - Friday, April 26, 2013 - link
thanks 4 link. NH-D14 is really too big, blocks a socket in my x79-UP4 gigabyte. U12 looks like it might work here.