Swiftech H2O-120 Compact and Corsair Nautilus 500: Is Water Better?
by Wesley Fink on September 17, 2007 6:00 AM EST- Posted in
- Cases/Cooling/PSUs
New CPU Cooling Test Configuration
Cooling tests were first run on our existing test bed, which is the EVGA NVIDIA 680i SLI motherboard. Temperatures were measured using the NVIDIA Monitor temperature measurement utility, which is part of the nTune program.
All Cooling tests were then repeated on the new cooling test bed, which is a Rosewill R604-P-SL case sold without a power supply. The Rosewill is a www.Newegg.com brand typical of a moderately priced mid-tower case our readers might own. It was chosen because it is a Newegg top seller and includes a variable front intake louver and a quiet 120mm exhaust fan at the rear of the case. The case is also screw-less with components held in place by plastic holders instead of metal to metal connections. This appears to reduce case vibration and noise.
The new power supply is the Corsair HX620W, which has earned our respect as an exceptionally quiet PSU with a variable speed exhaust fan and a down facing intake fan mounted just above the CPU space in the case. To eliminate the video card as a source of noise we have moved to a fanless video card, currently a GeForce 7600 GS. Plans are to move to fanless DirectX 10 capable card in this test bed in the near future.
The new motherboard is the ASUS P5K Deluxe. This P35 chipset motherboard has exhibited outstanding overclocking capabilities in our testing, and it can also mount the newest 1333FSB Intel Core processors and can handle our existing high-speed DDR2 memory. The P5K3 uses heatsinks and heatpipes to cool board components so all motherboard cooling is passive.
Other components in the cooling test bed are generally the same as those used in our previous motherboard and memory test bed. We will feature the new test bed and its noise metrics in an upcoming cooling system review. The goal was to remove fans that might produce noise wherever possible, improve internal airflow, reduce the power supply noise floor, and eliminate the video card as a noise source. While we did add a 120mm exhaust fan to improve case airflow, the chosen exhaust fan is very low noise and will be replaced by the lowest noise 120mm fan when the 120mm fan roundup is completed.
All cooling tests are run with the components mounted in a standard mid-tower case. The idle and stress temperature tests are run with the case closed and standing as it would in most home setups. We do not use auxiliary fans in the test cooling case, except for the Northbridge fan attached to the 680i for overclocking. Room temperature is measured before beginning the cooler tests and is maintained in the 20 to 22C (68 to 72F) range for all testing.
Both Swiftech and Corsair provided a small tube of Arctic Silver Ceramic premium thermal grease with their water cooling kits. However, for consistency of test results we tested with our standard premium silver-colored thermal compound. In our experience the thermal compound used makes little to no difference in cooling test results. This is particularly true now that processors ship with a large manufacturer-installed heatspreader. Our current test procedure uses this standard high-quality silver-colored thermal paste for all cooler reviews.
We first test the stock Intel air cooler at standard X6800 speed, measuring the CPU temperature at idle. The CPU is then stressed by running continuous loops of the Far Cry River demo. The same tests are repeated at the highest stable overclock we can achieve with the stock cooler. Stable in this case means the ability to handle our Far Cry looping for at least 30 minutes.
The same benchmarks are then run on the coolers under test at stock, highest stock cooler OC speed (3.73GHz), and the highest OC that can be achieved in the same setup with the cooler being tested. This allows measurement of the cooling efficiency of the test unit compared to stock and the improvement in overclocking capabilities, if any, from using the test cooler.
The cooling test results of both water cooling kits are compared to a representative sample of air cooling results with the NVIDIA Monitor program on the EVGA 680i. This is done for a consistent comparison of water cooler test results to earlier air cooler results. We then repeated testing on the new test bed measuring results with both Intel TAT (Thermal Analysis Tool) and CoreTemp, a well-known and widely used shareware program for core temperature measurement. Both results are reported in additional test results so they can be compared and contrasted to each other and to NVIDIA Monitor results.
Noise Levels
In addition to cooling efficiency and overclocking abilities, users shopping for CPU cooling solutions may also be interested in the noise levels of the cooling devices they are considering. Noise levels are measured with the case on its side using a C.E.M. DT-8850 Sound Level meter. This meter allows accurate sound level measurements from 35bdB to 130dB with a resolution of 0.1dB and an accuracy of 1.5dB. This is sufficient for our needs in these tests, as measurement starts at the level of a relatively quiet room. Our own test room, with all computers and fans turned off, has a room noise level of 36.4dB. Procedures for measuring cooling system noise are described on page seven which reports measured noise results comparing the stock Intel cooler and recently tested CPU coolers to the Swiftech H2O-120 Compact and Corsair Nautilus 500 water cooling kits.
Cooling tests were first run on our existing test bed, which is the EVGA NVIDIA 680i SLI motherboard. Temperatures were measured using the NVIDIA Monitor temperature measurement utility, which is part of the nTune program.
All Cooling tests were then repeated on the new cooling test bed, which is a Rosewill R604-P-SL case sold without a power supply. The Rosewill is a www.Newegg.com brand typical of a moderately priced mid-tower case our readers might own. It was chosen because it is a Newegg top seller and includes a variable front intake louver and a quiet 120mm exhaust fan at the rear of the case. The case is also screw-less with components held in place by plastic holders instead of metal to metal connections. This appears to reduce case vibration and noise.
The new power supply is the Corsair HX620W, which has earned our respect as an exceptionally quiet PSU with a variable speed exhaust fan and a down facing intake fan mounted just above the CPU space in the case. To eliminate the video card as a source of noise we have moved to a fanless video card, currently a GeForce 7600 GS. Plans are to move to fanless DirectX 10 capable card in this test bed in the near future.
The new motherboard is the ASUS P5K Deluxe. This P35 chipset motherboard has exhibited outstanding overclocking capabilities in our testing, and it can also mount the newest 1333FSB Intel Core processors and can handle our existing high-speed DDR2 memory. The P5K3 uses heatsinks and heatpipes to cool board components so all motherboard cooling is passive.
Other components in the cooling test bed are generally the same as those used in our previous motherboard and memory test bed. We will feature the new test bed and its noise metrics in an upcoming cooling system review. The goal was to remove fans that might produce noise wherever possible, improve internal airflow, reduce the power supply noise floor, and eliminate the video card as a noise source. While we did add a 120mm exhaust fan to improve case airflow, the chosen exhaust fan is very low noise and will be replaced by the lowest noise 120mm fan when the 120mm fan roundup is completed.
Cooling Performance Test Configuration | |
Processor | Intel Core 2 Duo X6800 (Dual-core, 2.93GHz, 4MB Unified Cache) |
RAM | 2x1GB Corsair Dominator PC2-8888 (DDR2-1111) |
Hard Drive(s) | Hitachi 250GB SATA2 enabled (16MB Buffer) |
Video Card | NVIDIA 7600GS (fanless) - All Standard Tests |
Platform Drivers | NVIDIA 9.53 |
NVIDIA nTune Intel TAT CoreTemp |
5.05.22.00 (1/16/2007) Version 2.05.2006.0427 Version 0.95 |
Video Drivers | NVIDIA 93.71 |
CPU Cooling | Swiftech H2O-120 Compact Corsair Nautilus 500 Thermalright Ultima-90 ZEROtherm BTF90 Xigmatek AIO (AIO-S800P) Evercool Silver Knight Enzotech Ultra-X 3RSystem iCEAGE Thermaltake Big Typhoon VX Thermaltake MaxOrb Scythe Andy Samurai Master Cooler Master Gemini II Noctua NH-U12F Asus Silent Square Pro Scythe Ninja Plus Rev. B OCZ Vindicator Thermalright Ultra-120 Extreme Thermalright Ultra-120 Scythe Infinity Zalman CNS9700 Zalman CNS9500 Cooler Master Hyper 6+ Vigor Monsoon II Lite Thermalright MST-9775 Scythe Katana Tuniq Tower 120 Intel Stock HSF for X6800 |
Power Supply | Corsair HX620W OCZ PowerStream 520W |
Motherboards | Asus P5K Deluxe (Intel P35) EVGA nForce 680i SLI (NVIDIA 680i) |
Operating System(s) | Windows XP Professional SP2 |
BIOS | EVGA Award P26 (1/12/2007) Asus AMI 0501 (06/26/2007) |
All cooling tests are run with the components mounted in a standard mid-tower case. The idle and stress temperature tests are run with the case closed and standing as it would in most home setups. We do not use auxiliary fans in the test cooling case, except for the Northbridge fan attached to the 680i for overclocking. Room temperature is measured before beginning the cooler tests and is maintained in the 20 to 22C (68 to 72F) range for all testing.
Both Swiftech and Corsair provided a small tube of Arctic Silver Ceramic premium thermal grease with their water cooling kits. However, for consistency of test results we tested with our standard premium silver-colored thermal compound. In our experience the thermal compound used makes little to no difference in cooling test results. This is particularly true now that processors ship with a large manufacturer-installed heatspreader. Our current test procedure uses this standard high-quality silver-colored thermal paste for all cooler reviews.
We first test the stock Intel air cooler at standard X6800 speed, measuring the CPU temperature at idle. The CPU is then stressed by running continuous loops of the Far Cry River demo. The same tests are repeated at the highest stable overclock we can achieve with the stock cooler. Stable in this case means the ability to handle our Far Cry looping for at least 30 minutes.
The same benchmarks are then run on the coolers under test at stock, highest stock cooler OC speed (3.73GHz), and the highest OC that can be achieved in the same setup with the cooler being tested. This allows measurement of the cooling efficiency of the test unit compared to stock and the improvement in overclocking capabilities, if any, from using the test cooler.
The cooling test results of both water cooling kits are compared to a representative sample of air cooling results with the NVIDIA Monitor program on the EVGA 680i. This is done for a consistent comparison of water cooler test results to earlier air cooler results. We then repeated testing on the new test bed measuring results with both Intel TAT (Thermal Analysis Tool) and CoreTemp, a well-known and widely used shareware program for core temperature measurement. Both results are reported in additional test results so they can be compared and contrasted to each other and to NVIDIA Monitor results.
Noise Levels
In addition to cooling efficiency and overclocking abilities, users shopping for CPU cooling solutions may also be interested in the noise levels of the cooling devices they are considering. Noise levels are measured with the case on its side using a C.E.M. DT-8850 Sound Level meter. This meter allows accurate sound level measurements from 35bdB to 130dB with a resolution of 0.1dB and an accuracy of 1.5dB. This is sufficient for our needs in these tests, as measurement starts at the level of a relatively quiet room. Our own test room, with all computers and fans turned off, has a room noise level of 36.4dB. Procedures for measuring cooling system noise are described on page seven which reports measured noise results comparing the stock Intel cooler and recently tested CPU coolers to the Swiftech H2O-120 Compact and Corsair Nautilus 500 water cooling kits.
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geok1ng - Wednesday, July 23, 2008 - link
There is no reason to dump $120+ on a budget water cooling system for CPUs since most sub$50 air coolers will do a good jobbut with SLI/crossfire systems the typical air cooling solution are suboptimal to say the least. Even you have a board that can fit 2 VGA and 2 Acellero S1s, there is no way to put good airflow averthe humungous setup!
Someone plaese give us a water cooling solution for multi GPU systems that doesnt cost MORE than the VGAs!
Cregaune - Tuesday, March 25, 2008 - link
This review has given me lots of food for thought. Frankly, I find the conclusion incredible.Perhaps you guys are right, but before people jump to your conclusions I wonder why your ambient room temps were kept within such loose margins i.e 20'C to 22'C.........a full 3'C !!!
Controlling ambient room temperature is particularly important when reviewing a water cooled system, simply because it can take an hour or more for the coolant temperature to stabilise; before you can legitimately take a reading. If, in the meantime, you let the room temperature fluctuate within such grossly wide margins, your results are next to useless....especially given the relative performance figures in your findings.
Just a thought!
Cableaddict - Friday, April 11, 2008 - link
Wesley,As far as performance goes, I'd say you present a valid argument. The specific kits you tested are not worth investing, vs a few of the best air-coolers. So far, so good, but your conclusions and general tone seem to fail badly after that one true point.
You wrote, (in this thread) "We state you will likely need to spend more than $300 to possibly outperform current top air coolers."
Nonsense. As many have mentioned, the big problem with these kits is the use of a single "220" size radiator. Using a dual-rad, or two singles, has been shown in test after test to increase cooling dramatically (even with a "lowly" Swiftech rad) So, one could buy the H2O-120 and add another radiator for $42 more. That's WELL under $200, and the performance OC'ed & under load will slightly outperform the Ultra-120. AND , it will be much less noisy.
You conclusions about noise are correct, but only at lower fan speeds.You posted a chart showing high OC / high load performance, but failed to include noise specs under those conditions. The noise comparisons at lower cooling settings do not apply at all. I've been looking at TONS of tests, specifically weighing cooling vs noise. At the high speeds needed to make the Ultra-120 types perform their best (about equal to a low-end dual radiator WC) they are much, MUCH noisier than WC, according to every test I've read.
Last: Bear in mind that many folks cannot fit those big air-coolers, espially HTPC people, or those with rack-mount music & video pc's. For such rigs, the best air coolers that will actually fit are the Gemini II, the DuOrb, etc. Even a single-rad WC setup does better than those when OC'ed & under load. (according to many tests I've seen.) With a dual-rad, WC systems decimate these air-coolers. For instance, one test put a Gemini II / dual Noctua blower against the H2O-220 kit. At 3.7 Ghz, under load, the WC was 15º cooler.
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Regarding pump noise: Well again, your comparisons are fair if one is going to strictly obey the "rules" and not mod any system at all. However, One can pretty easily add sonex or other noise absorbtion to the inside of the case, and limit a good bit of that pump noise.
Going to a non-kit system, one can now choose the Lang D5 vario, dial it down a little, and add some sound isolation around it. Not so hard, and all reports say it is then virtually silent. With a dual-rad performance should still be excellent. Granted, that's approaching the $300 mark, but serious overclockers would certainly do better with such a set-up, and it would be LESS noisy.
I guess one last question must be addressed, and that is: Just how cool do we need to go? Let's say one want to OC a Q6600 (timeframe of this review) to 3.8 ghz. A $75 air-cooled rig will run under heavy load at (let's say) 60º, and a decent WC rig will run it at 50º. Is 60º safe enough, day after day, that the WC system is not worth the substantial cost? I don't know the answer. I wish I did.
-And when pushing the FSB really hard, one might worry about the rest of the mobo components. -So now we have to weight the WC advantage of being able to also cool the NB and GPU, vs the air-cooler advantage of cooling the ram,NB, mosfets, etc.
One might reasonably say that,with heavy OC, a WC set-up requires an additional case fan, and that means a little more noise.
Complicated...
Cableaddict - Friday, April 11, 2008 - link
Custom H2O-220 type system:Swiftech Apogee Drive 350 Pump / CPU water block combo $80
Swiftech MCR220-res: $55
2 Noctua fans: $50
non-evaporate hoses / clamps: ~ $20 MAX.
Hydrex: $3
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$210 or less.
Swap-in a Lang Vario D5 pump and an Apogee or Fuzion waterblock, instead of the Apogee Drive 350, and you still under $275.
Test either of these systems on a Q6600 @ 3.8 Ghz, against any air system, includng the Ultra-120, and then get back to me.
Also bear in mind that either of these systems will easily also cool a GPU, with another $50 of parts.
Cableaddict - Saturday, April 26, 2008 - link
One more noise consideration:Granted this is a review of the H2O single, but for very little more money one can get the H2O with a double rad. THAT system should slightly outcool even the ultra-120, but what;s most important is that it will be MUCH quieter.
Again, the Ultra-120 types require pretty high CFM's to give good results. A dual radiator can deliver excellent performance with a pair of Nocyua 1300 rpm fans. That's bloody silent.
perfectdarth - Sunday, December 30, 2007 - link
you cant say say that watercooling is bad because a 2 budget kits get beaten by an ultra 120. watercooling does cost more but radiators and pumps last years and for $300 (no more) you could make a custom kit that would be quite a bit better than the top air coolers when cooling an overclocked cpu.you harped on how watercooling costs more and takes more time/effort but you didnt state that people that are willing to spend the extra time/money dont always do it just for better temperatures and might find it fun and a bit of a challenge the first time. putting on a heatsink isnt very satisfying, you could train a monkey to do that. you could say people who spend $800 on a graphics card to play games at max are stupid because its still the same game at medium on a $350 graphics card but if you like to lay games that look nice you would think its worth it, it was like you had your mind made up before you wrote this article
people saying that the hassle of watercooling isnt worth it is just plain ignorance, some people enjoy maintaning their car themselves but other people would go meh and go pay someone to check their oil and water. that doesnt mean that people who dont care should tell the people that do it themselves that they are wasting time or the they should tell the lazy ones they shouldnt be lazy. watercooling is a hobby just as much as it is a way to better cool your computer.
i would like to see the swiftech h20-220 Apex Ultra tested against the top aircoolers since it is a very good kit and under $300 afaik. also watercooling seems to make a much bigger difference to graphics cards than cpus.
saying that you would rather buy a phase change over a good watercooling kit is rediculous. phase is more work and just as if not more risky than watercooling because of condensation.
also why farcry and not use tat or orthos? i didnt like this article much since it is very bias towards air. i read "water is useless air is so much better" all the way through.
rabident - Tuesday, September 25, 2007 - link
You could argue heatpipe coolers are closer to water coolers than air coolers. They're basically sealed water coolers. Most use distilled water as the heat transfer medium, just like conventional after coolers, except heat pipes are more efficient because they involve a phase change (which absorbs a lot of heat).The real value with conventional watercooling is the freedom to piece together a custom cooling system that meets your needs. It lets you balance price, cooling performance, and noise the way you see fit. Plus there's a lot of room for creativity.
I think it's going be hard for water to beat air in price/performance, but if price is the #1 factor then I think the value of any after market coolers is questionable.
Starglider - Sunday, September 23, 2007 - link
This review is ok, nothing amazing but the accusations being thrown around seem unwarranted. However the basic conclusion is this; modern heatsinks are good enough that for a single medium-speed 120mm fan, cooling is airflow and radiator surface limited. With heatpipes and improved layout heatsink thermal conductivity is no longer an issue (for quality air coolers).It would be nice if this was made more explict in the conclusions, and I am dubious about the claim that you can't get a better radiator solution (e.g. dual-120mm or reserator) for under $200. The notion that water cooling won't give you any advantage other than chipset/GPU cooling is false in the general case; it is only true if you have a single 120mm fan radiator (plus it ignores the benefit of lowing case internal temps).
strikeback03 - Wednesday, September 19, 2007 - link
So is the "water additive" really just old-school green automotive coolant, i.e. ethylene glycol? Or does it just look that way?aigomorla - Tuesday, September 18, 2007 - link
http://www.vr-zone.com/articles/Swiftech_H20-120_C...">http://www.vr-zone.com/articles/Swiftec..._Compact...Sorry. This review was better writen. And shows this cooler clearly owning air.
The editor i feel now has a grudge against water cooling. He is pushing air is greater then water when it looks like he has no experience with a decient water setup.
The pump making a lot of noise? Okey, can one owner who has a DDC confirm this? Because i have 4 and none of them make loud noises.
The Liang D5 doesnt even make loud noise, and its a bigger pump.
Sorry your 300+ watercooling comment needed to beat air... thats absolute BS.
People please do some research b4 you buy into this review. I asked the editor polietly to remove that statement and he has yet to remove it. I ask you guys to check out our case and cooling forum. There is a post on this and listen to what all the members on AT are saying. Only the editot of this article believes in his 300+ needed to beat air. The rest of the members on board totally disagree with him. XS is laughing at anandtech at the moment. Even the air cooling people at XS are laughing because its a KNOWN FACT a 120x2 radiator would demolish anything AIR can bring up. Even TEC air coolers dont stand a chance.