Testing and Results
We place our test rigs under load using the Small FFTs stress test in the free application
Prime95, as this test is designed to place maximum load on the CPU and minimum load on the system's memory. We use the freeware application
Core Temp to measure the temperature of our CPUs, as it reads data from the DTS (digital thermal sensor) embedded inside each core of Intel's modern processors and thus provides as accurate a reading as possible. We always take the temperature of the hottest core for consistency, and do so after 15 minutes of the Prime95 test, which is enough time for temperatures to plateau.
The results provided are the delta T results; the difference between the recorded CPU temperature and ambient temperature at the time of testing. Our labs are not temperature controlled, so this provides the most accurate method of comparison for coolers tested on different days.
Click to enlarge - The baseplate has a shiny mirror-like finish
Any cooler that causes one of our CPUs to hit its Tj Max, the maximum temperature at which the CPU will operate before downclocking itself, is considered a fail. If a cooler has multiple available fan speeds, we retest at appropriate speeds to highlight the differences. Unless otherwise stated, closed loop liquid coolers are installed with their fans as exhausts. Finally, any cooler that is PWM (pulse width modulation) capable is tested both at full speed and using our LGA1155 motherboard's standard PWM setting, with both results posted if there's a difference.
Intel LGA1155 Test System- Intel Core i7-2600K overclocked to 4.4GHz (44 x 100MHz) using a vcore of 1.275V
- Asus Maximus V Formula
- 2 x 2GB Crucial Ballistix 1,600MHz low-profile RAM
- PNY Performance 60GB SSD
- Corsair HX750W PSU
Intel LGA2011 Test System- Intel Core i7-3960X Extreme Edition overclocked to 4.2GHz (37 x 113.5MHz) using a vcore of 1.275V
- Asus P9X79 Pro
- 4 x 4GB G.Skill Ripjaw 1,6000MHz RAM
- Samsung SSD 830 128GB
- Enermax Revolution 87+ 750W PSU
Both systems run Windows 7 64-bit, are built inside a Corsair Carbide 500R and use an AMD ATI Radeon HD 5770 1GB. Coolers are tested with both of the case's side panels fully attached and with its two 120mm front intake fans and rear 120mm exhaust fan operating at consistent speeds, providing interior airflow that is more realistic than a benchtable or our previous set-up. The cases have been cable tidied and had their front drive cages removed to optimise airflow.
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Corsair H100i (Maximum Profile)
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Antec Kühler H2O 920 (Extreme Profile)
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Corsair H80i (Maximum Profile)
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Corsair H100i (Balanced Profile)
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Thermalright Archon SB-E X2
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Corsair H80i (Balanced Profile)
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Cooler Master Seidon 120M
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Noctua NH-D14 (Full Speed)
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Thermalright Archon SB-E X2 (PWM)
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Corsair H100i (Quiet Profile)
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Antec Kühler H2O 920 (Silent Profile)
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Corsair H80i (Quiet Profile)
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Noctua NH-D14 (Low Speed)
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Phanteks PH-TC12DX
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Gelid The Black Edition (Full Speed)
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Gelid The Black Edition (PWM)
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Arctic Cooling Freezer i30
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Gelid Tranquillo Rev. 2
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Zalman FX100 Cube
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Delta T (°C) (lower is better)
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Corsair H100i (Maximum Profile)
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Corsair H80i (Maximum Profile)
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Antec Kühler H2O 920 (Extreme Profile)
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Thermalright Archon SB-E X2
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Corsair H100i (Balanced Profile)
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Corsair H80i (Balanced Profile)
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Antec Kühler H2O 920 (Silent Profile)
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Corsair H100i (Quiet Profile)
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Cooler Master Seidon 120M
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Noctua NH-D14 (Full Speed)
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Phanteks PH-TC12DX
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Arctic Cooling Freezer i30
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Corsair H80i (Quiet Profile)
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Gelid The Black Edition
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Noctua NH-D14 (Low Speed)
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Delta T (°C) (lower is better)
Read our
performance analysis on the next page.
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