In evaluating a purchase, the Relative Rankings are more important than the absolute C/W. For potential motherboard performance, clicking on a name links to its full test results².

Also note that these rankings use air cooling heatsink fans as they are sold; some stock fans are underpowered and replacing them with a more powerful fan will improve results. However, noise levels will noticeably increase, as will cost, if another fan must be purchased. Factors such as noise, motherboard performance and the impact of higher speed fans may be found in the reviews.

Readers are cautioned that Delta 38 and other fans with cfm ratings >30 are found by many users to be objectionably loud; a number have abandoned these fans after a short time. "Loud", as measured by a Radio Shack Sound Meter 8" from the fan's intake, measures 69-70 dBA while "Moderate" measures 62-63 dBA, about as loud as a 26 cfm YS Tech.

Sidewinder Computers has sound files for most of the fans you'll encounter HERE. "All fan sounds were recorded in MP3 audio format (128kbps bit rate; 44.1kHz sample rate) and are ranked by apparent loudness. To hear them, you must have an MP3 player installed, such as Winamp, Sonique, Musicmatch and others." A very nice resource!

The relative rankings in this table indicate the difference, in degrees Centigrade, among the CPU cooling options tested. For example, at 100 watts, the difference between Swiftech's MCX462 and the Millennium Glaciator is three degrees C; at 50 watts, 1 ½ C, and so on. Closely ranked heatsinks may, in fact, show little or no difference, or even reverse positions, when compared in a specific system and especially at heat loadings of 50 watts or less.

Viewing results as +/- 5% is more indicative of what a user may find than relying on the absolute number.

C/W     0.10

0.20

0.30

0.40

0.50

Thermal right Ultra 120: 0.11

120 mm fan, 2504 rpm

Thermalright SI-128: 0.14

120 mm fan @ 2451 rpm

3RSystem IceAge 120: 0.15

Quiet with fan at low setting

Silenx IXC-120HA2: 0.15

Quiet - includes manual fan controller

Ultra TEC: 0.15

Peltier heatsink - C/W range 0.11 - 0.15; at spec CPU 2.66 GHz C/W 0.15.

Kingwin RVT-12025: 0.16

120 mm fan @ 1328 rpm - very quiet

NPH Big: 0.16

120 mm fan @ 1659 rpm - quiet

nPowerTek NPH-1000: 0.20

Good cooling, low noise

Rosewill RCX-Z4: 0.20

Good cooling, low noise

Antazone AS-C1000: 0.21

Moderate noise

Kingwin KA-9226ACU: 0.21

Low-moderate noise

Kingwin KA-9228: 0.21

Low noise

Silenx iXtrema IXC-92HA1: 0.21

Low noise; includes fan controller

Spire VertiCool II: 0.21

Very low noise

Evercool Sharks: 0.23

Two speed fan, 0.28 at low fan - quiet

Intel Retail Heatsink: 0.23

Low noise

Kingwin KA-9227: 0.24

Low noise

Kingwin Revolution: 0.25

Low noise

Kingwin KA-9225: 0.26

Low noise

SilentFlux: 0.28

Low Noise

Kingwin Gladiator: 0.29

Visually Stunning

C/W     0.10

0.20

0.30

0.40

0.50

Thermal- right Ultra 120: 0.11

120 mm fan, 2518 rpm, Quiet; 1029 rpm very quiet, C/W 0.16

Thermal- right XP-90C: 0.11

90 mm fan, 4730 rpm, very loud; 1950 rpm quiet, C/W 0.16

Thermalright Ultra 90: 0.13

90 mm fan, 4739 rpm, very loud; 1989 rpm quiet, C/W 0.16

Thermalright SI-120 Heatpipe: 0.14

120 mm fan @ 2570 rpm

Arctic Cooler: 0.28

Quiet

C/W     0.10

0.20

0.30

0.40

0.50

Thermalright Ultra 120: 0.13

120 mm fan, 2705 rpm, Quiet; 1018 rpm very quiet, C/W 0.17

Thermalright XP-90C: 0.16

90 mm fan, 4809 rpm, very loud; 1923 rpm quiet, C/W 0.20

Thermalright Ultra 90: 0.17

90 mm fan, 4739 rpm, very loud; 1975 rpm quiet, C/W 0.21

Thermalright SI-120: 0.18

120 mm fan @ 2572 rpm

Spire VertiCool II: 0.21

Very low noise

Arctic Cooler: 0.31

Quiet

C/W     0.10

0.20

0.30

0.40

0.50

Thermalright XP-90C Heatpipe: 0.11

90 mm fan, 4870 rpm, very loud; 1960 rpm quiet, C/W 0.13

Scythe Ninja: 0.13

120 mm fan, 2400 rpm; fanless C/W 0.60

Thermalright HR-01: 0.13

120 mm fan, 2400 rpm; fanless C/W 0.84

Thermalright XP-90 Heatpipe: 0.13

90 mm fan, 4821 rpm, very loud; 1500 rpm very quiet, C/W 0.18

Thermalright SI-120 Heatpipe: 0.14

120 mm fan @ 2994 rpm; 984 rpm = 0.18 C/W, virtually soundless

Thermalright SP-94 Heatpipe: 0.14

80 mm fan, 4838 rpm

Thermalright SLK-800U: 0.15

80 mm fan, 55 dBA

Asetek Micro™ Extreme: 0.16

92 mm fan, moderate noise

TTIC-NPH-101 P4 Heatsink: 0.16

2 70 mm fans, low noise

Cooler Master IHC-H71: 0.16

70 mm fan, 51 dBA

Thermalright-947U: 0.16

Delta 80mm 4800 rpm; loud

Thermal Transtech TTIC-NPH-1: 0.16

Two 70 mm fans

Alpha PAL 8942: 0.17

Delta 4800rpm

Thermalright 120mm P-4 Heatpipe: 0.17

Delta 120mm fan @ 2500rpm, 54 dBA (low noise)

CpuMate Heatpipe: 0.18

moderate noise @ 5000 rpm

Scythe Kamaboko : 0.18

Rheostat controlled fan

Vantec Aeroflow P4: 0.18

TMD fan - low noise

Zalman CNPS7000-Cu: 0.18

Very low noise

CoolerMaster Aero4: 0.19

Adjustable fan

Dynatron DC1207BM-X: 0.20

70mm fan, relatively quiet

Swiftech MCX4000: 0.20

TMD fan, 39 dBA

Thermalright AX478: 0.20

Sanyo 4420 rpm

Arctic Cooling Super Silent 4Pro L: 0.21

Very quiet, adjustable fan

Dynatron DC1206BM-Y: 0.21

60mm fan @ 24 cfm, 40 dBA

Thermaltake Volcano 7+: 0.21

Socket A, 70mm fan @ 49 cfm, 71 dBA

AVC Sun Flower: 0.22

Intel PIV

Vantec Aeroflow 2: 0.22

Relatively quiet

Dr Thermal TI-V8639L: 0.23

Relatively quiet

Shuttle P4H Heatpipe: 0.23

Relatively quiet

TOCOOLS Regal P4 Heatsink: 0.23

Relatively quiet

Zalman CNPS7000-Cu: 0.23

Low noise

TMD Socket 478 Cooler: 0.24

Relatively quiet, TMD fan

Vantec Mach 1 Heatpipe: 0.24

Relatively quiet, 70 mm fan

Vantec CCK-7025 P4 Heatsink: 0.24

Relatively quiet, 70 mm fan

SIBAK IC-01: 0.25

70mm fan, 67 dBA

Speeze EasyStream™: 0.25

Quiet fan

Zalman CNPS5700D-Cu: 0.25

High fan setting

Dr Thermal TI-R8639L: 0.28

Relatively quiet

ZEROtherm Heatpipe: 0.29

Very quiet

Taisol P4 Heatpipe: 0.31

Relatively quiet

Spire SP495S11-U: 0.34

Quiet fan

Dynatron DC1U-B02: 0.35

1U heatsink

Zalman CNPS5700D-Cu: 0.35

Very Quiet @ low fan setting

First, understand what C/Ws are telling you: The difference between a heatsink with a C/W of 0.30 and 0.35 is 5 C at 100 watts under stress. At 50 watts, it's half that. Closely ranked heatsinks may show little or no difference on a motherboard, due to secondary heatpath effects which are not captured in these rankings.

Second, I get emails from some readers who buy heatsinks and find performance does not match what they read in our and other reviews. The first question I ask is "What is the temp inside your case??" Invariably the answer is something like "30/35/40 C" - sometimes higher!

The air temp going INTO the heatsink or radiator fan is the floor - all other temps you see are added onto this temp. If the air temp is 35 or 40C going into the fan, then there is NO WAY this heatsink will give you 40C at the CPU. The following table lays out what to expect for a 100 watt CPU:

Case Temp / C/W	0.15	0.20	0.25	0.30
40 C	55 C	60 C	65 C	70 C
35 C	50 C	55 C	60 C	65 C
30 C	45 C	50 C	55 C	60 C
25 C	40 C	45 C	50 C	55 C
20 C	35 C	40 C	45 C	50 C

As the table shows, the higher your case temp (and fan inlet temp), the hotter the CPU temp. It's no wonder that many are finding fresh air ducts to be a very effective solution at lowering CPU temps. Effective CPU cooling requires BOTH a good heatsink and airflow through the case.

To test out how much case temp impacts your system, open the side of the case, aim a house fan at the motherboard and record temps under stress. This is "best case" for airflow through the case.

To calculate what to expect for other CPUs, for every watt the CPU radiates, the heatsink will cool the core by the (C/W x watts) plus ambient temp. For example, at a fan inlet temp of 25 C, a C/W of 0.25 with a CPU radiating 50 watts means that the CPU temp will be 50 x 0.25 = 12.5 C over ambient temp, or 37.5 C.

Last, remember that in-socket thermistors are not accurate measures of CPU temps. Every heatsink affects an in-socket thermistor differently, as does airflow over the motherboard. There is no consistency between motherboards as well. At a minimum, you can factor +/- 5 C to these temps.

¹Heatsinks tested prior to September 2001 were newly tested during December 2001 on the Die Simulator. Heatsinks were tested at about 75 watts.

Email Joe