Arctic Cooling Duo: Alpine 7 & Freezer 7 Pro Attack Value
by Wesley Fink on January 29, 2008 2:00 AM EST- Posted in
- Cases/Cooling/PSUs
CPU Cooling Test Configuration
All tests use our new cooling test bed. This consists of a Rosewill R604-P-SL case sold by Newegg without a power supply. The Rosewill is typical of a moderately priced mid-tower case our readers might own. We chose this case 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 power supply is a Corsair HX620W, which has proven in benchmarks to be an exceptionally quiet unit. The HX620W features 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 card. Since we will move to Vista and DX10 in the very near future, the test bed runs an MSI NX8600 GTS that supports DX10 and cools with heatsinks and heatpipes. The reduced noise power supply and fanless video card have the potential to dramatically lower system noise in the test bed.
The motherboard is the ASUS P5K Deluxe. This P35 chipset motherboard has exhibited outstanding overclocking capabilities in our testing. It can also mount the newest 1333 FSB 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. There are no active cooling fans to generate unwanted noise during testing.
The 120mm exhaust fan mounted to the rear of the case is below the system noise floor. We run that fan during performance and overclocking tests. However, system noise can be cumulative, so we turn off the exhaust fan during noise testing.
| 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 | MSI NX8600GTS (fanless) - All Standard Tests |
| Intel TAT | Version 2.05.2006.0427 |
| CoreTemp | Version 0.95 |
| Video Drivers | NVIDIA 163.71 |
| CPU Cooling | Arctic Cooling Alpine 7 (with
PWM) Arctic Cooling Freezer Pro 7 ZEROtherm Nirvana NV 120 Cooler Master Hyper 212 OCZ Vendetta Scythe Kama Cross 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 |
| Motherboards | Asus P5K Deluxe (Intel P35) |
| Operating System | Windows XP Professional SP2 |
| BIOS | Asus AMI 0501 (06/26/2007) |
We run all cooling tests with the components mounted in the 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. Room temperature is measured before beginning the cooler tests and is maintained in the 20 to 22C (68F to 72F) range for all testing.
For consistency of test results, we use a 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.
For comparison, we first tested the stock Intel air-cooler at standard X6800 speeds and measured the CPU temperature at idle. We then stress the CPU by running continuous loops of the Far Cry River demo. We repeat the same tests at the highest stable overclock we could achieve with the stock cooler. "Stable" in this case is the ability to handle our Far Cry looping for at least 30 minutes without crashing.
The same benchmarks are then run on the review cooler(s) at stock speed, 3.33GHz (10x333) at stock voltage, highest stock cooler OC speed (3.73GHz), and the highest OC that could 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.
We compare cooling results with a representative sample of air and water-cooling results measured with CoreTemp. TAT provides a similar core measurement, but test results with CoreTemp are more consistent over a wide range of test conditions than the results reported by TAT. We retested previously reviewed coolers with CoreTemp under idle and load conditions. In benchmarks where the new test bed makes no apparent difference, like maximum overclock, we include results for all coolers tested since beginning cooling reviews in early 2007.
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. We measure noise levels with the case on its side using a C.E.M. DT-8850 Sound Level meter. This meter allows accurate sound level measurements from 35b dB to 130 dB with a resolution of 0.1 dB and an accuracy of 1.5 dB. 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 that has been reduced slightly to 35.0 dB(A) compared to the previous 36.4 dB(A). With the new test bed, the system noise at idle is 36.5 dB(A) at 24" and 37.8 dB(A) at 6". This is better than our previous system noise floor of 38.3 dB(A) at 24". The noise reduction at the 6" distance is dramatically lower than the previous test bed floor of 47 dB(A).
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spidey81 - Tuesday, January 29, 2008 - link
I was looking into the Freezer 64 Pro for an AM2/AM2+ build and was wondering if anyone knew if the performance for the AMD version performed similarly. I noticed the specs seem to be slightly different as the 64 Pro fan maxes out at only 2200 rpm pushing 40 cfm where the 7 Pro maxes out at 2500 rpm pushing 45 cfm. They appear to be of the same design varied only by the mounting hardware. Any input would be greatly appreciated.Martimus - Tuesday, January 29, 2008 - link
I have a Freezer 64 Pro. It dropped the temps on my CPU by 10C instantly from a Zalman 7000. It now runs 20C cooler after the Thermal compound cured. It is definitely a nice heatsink, although it is difficult to attach unless you remove the MB from the case.mixim - Tuesday, January 29, 2008 - link
The design is exactly the same, only the fan circuits differ to reduce the max fan rpm, this because AMD has put out low-watt CPU's for a couple of years now , when the Intel version should still be able to cope with Pentium 5/D's and so on...The lower maximum RPM will help with the fans longevity, but actually in my C2D system it has never went up to full speed anyway...
dlock13 - Tuesday, January 29, 2008 - link
I cannot find the Freezer 7 anywhere under $25. I can't find it anywhere under $30. I checked Newegg and their price is $32.I am really in need of a new heatsink, and this is just perfect.
Spanki - Wednesday, January 30, 2008 - link
It's $24.99 here: http://www.svc.com/acfzp7.html">http://www.svc.com/acfzp7.htmlor.. you can save some bucks and get the Cooler Master Hyper Tx 2 (same or better performance than the Freezer Pro 7 - slightly larger, quieter, slower spinning fan) for $9.99 at the same place: http://www.svc.com/rr-pch-s9u1-gp.html">http://www.svc.com/rr-pch-s9u1-gp.html
BladeVenom - Tuesday, January 29, 2008 - link
Newegg has it on sale for $21.99 quite often. It can also usually be found for $21.86 on sale at eWiz.75below0 - Tuesday, January 29, 2008 - link
I understand there's a new test bed and temp utility, but +7C for the Ultima 90 w/SFLex under load compared to last review seems inordinately steep...Anyone have any comparisons of CoreTemp vs. NVIDIA Monitor and/or Intel TAT (Thermal Analysis Tool) ?
whatthehey - Tuesday, January 29, 2008 - link
The motherboard and BIOS change among other things so the fan speeds may not ramp up as soon but when they ramp up they might do so to a larger amount. Look at the Intel stock cooler which drops from 56C to 50C with the new testbed. They covered a lot of the changes here:http://www.anandtech.com/casecoolingpsus/showdoc.a...">http://www.anandtech.com/casecoolingpsus/showdoc.a...
If you look at the results you'll see that TAT and CoreTemp both register higher than the old EVGA board by several C. Meanwhile the Ultra 120 X goes from 36C to 42C idle and 47C to 59C load. Obviously there are lots of variables. I'm not sure what margin of error is with CoreTemp and such either but it may be several C.
The important thing IMO is to look at noise levels and max OC along with temps. Nothing exists in a vaccuum so don't focus on one metric.
phaxmohdem - Tuesday, January 29, 2008 - link
I just ordered the Freezer 7 yesterday night... before this article came out. I feel WAY better now about my decision... though it is going onto a Pentium-D which may insult it :PRamarC - Tuesday, January 29, 2008 - link
freezer 7 pros are great for pentium Ds. i've got a 3.4ghz pd945 that it keeps in the mid 50s. warm? yes, but quiet since the mobo only asks the freezer to spin at 500rpm.i can't believe it took anandtech this long to review the freezer pro 7 considering mine is pushing 2 years old now.