Scythe FUMA Rev. B Heatsink Review

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Scythe has been around since 2002 manufacturing cooling parts such as heatsinks, fans, and accessories. So, they should be a familiar name to anyone that’s been building PCs in the last decade and a half. Today, we have Scythe’s FUMA Rev. B heatsink, a relatively small dual tower cooler that strives to increase compatibility over the larger, more traditional dual tower offerings out there. The major change in this new revision of Scythe’s FUMA heatsink is that it now supports current CPU sockets from both Intel and AMD.

Specifications & Features

(Courtesy Scythe)

Scythe FUMA Rev. B Specifications
Model # SCFM-1100
Dimensions 137 x 149 x 130 mm (including fans)
Weight 920 g (including fans)
Socket Compatibility Intel: LGA 775/115x/2011/2011-v3/2066
AMD: FM1/FM2(+)/AM2(+)/AM3(+)/AM4
Baseplate/Heatpipe Material Nickel plated copper
Fin Material Aluminum
Heatpipes 6 x 6 mm
Fan Specifications
Model Slip Stream 120 PWM
Model # SY1225SL12M-CJP
Fan Dimensions 120 x 120 x 25 mm
Fan Speed ~300-1400 RPM (PWM controlled)
Noise Level ~13-28 dBA
Air Flow ~5.6-79 CFM / ~9.51-134.20 m3/h
Static Pressure ~0.1-15.3 Pa / ~0.01-1.56 mmH2O
Bearing Type Sleeve
Input Power 2.4 W
Voltage 12 V
Amperage 0.2 A

Twin Tower Design

Fuma Rev. B is made of two towers connected via six heatpipes to the baseplate. The twin-tower structure prevents mutual heating of the heatpipes while enhancing heat dissipation to the fins. Combined with further improvements, cooling performance increases, whereas compact dimensions are maintained. Fuma is predestined for ultra-quiet cooling but is an ideal overclocking cooler as well – at a very reasonable price.

Flexible Fan Mounting

The heatsink is designed for the use of up to three fans. If two fans are used, flexible fan positioning is possible. This way, Fuma Rev. B adopts perfectly to the case airflow. Furthermore, flexible fan mounting increases compatibility – conflicts with memory modules can be avoided.

Slip Stream 120 PWM Fans

Included with Fuma Rev. B are two Slip Stream fans, a series valued by its’ customers for many years. It is characterized by its’ small fan hub enhancing the air flow. The PWM-range, adjusted to meet Fuma’s requirements, offers the best possible combination of noise level, cooling efficiency and durability.

H.P.M.S II (Hyper Precision Mounting System II)

The updated Hyper Precision Mounting System II now features full compatibility to current sockets including AMD’s AM4 and Intel’s LGA 2066 platforms. A convenient mounting bar simplifies the installation process, while spring-loaded screws prevent uneven pressure distribution.

Packaging & Accessories

The FUMA comes packaged in a rather informative box. The front has a good isometric shot of the heatsink along with Scythe’s logo, the FUMA Rev. B name, model number, and socket compatibility. The left side of the box shows schematics for the FUMA’s dimensions as well as a table with some of the specifications. The right side of the box details some features of the FUMA.

Box

Box

Left Side

Right Side

Along with the heatsink itself, there are two Slip Stream 120 PWM fans in the box. The accessory box includes the mounting hardware, six fan clips, thermal paste, Y-cable, and manual. I can appreciate Scythe including an extra set of fan clips for those who want to mount three fans to the FUMA.

Accessories

Scythe FUMA Rev. B

We can see the FUMA is a dual tower heatsink with serrated and staggered fins. However, most dual tower coolers are very large in height and/or tower thickness to provide the most surface area as possible. The FUMA, on the other hand, is small in comparison to other dual towers with its thin towers and shortened height. For example, I estimated that my Noctua NH-D14 has around 37% more surface area than the FUMA.

As mentioned earlier, it is also possible to mount three fans on the FUMA which provides versatility in fan mounting. These things will all help improve its compatibility with cases, motherboards, and RAM.

It also looks like the fins are spaced further apart than the other heatsinks I have on hand. The main positive of having more space between fins is that it will reduce noise, but the downside is that there is less surface area which could reduce cooling capacity. We’ll see how that turns out during testing.

Scythe FUMA Rev. B

Scythe FUMA Rev. B

Scythe FUMA Rev. B

Scythe FUMA Rev. B

The base of the FUMA is made of nickel-plated copper and has a smooth, mirror finish as can be seen from the clear reflection. We can also see the six heat pipes which are made of nickel plated copper.

Base Finish

Here are a couple shots of the FUMA with the two Slip Stream fans installed. The FUMA is definitely a great looking heatsink.

Scythe FUMA Rev. B

Scythe FUMA Rev. B

Installation

Mounting the FUMA with the Hyper Precision Mounting System II (H.P.M.S II) is a relatively standard and easy procedure. The backplate is installed with thumb nuts, then the cross braces are secured with screws. Once those are in place the FUMA can be positioned on the CPU and secured with the crossbar using its fixed spring-loaded screws. The spring-loaded screws allow varying mounting pressures and help keep the FUMA level.

Backplate

Thumbnuts

Cross Braces

FUMA In Place

Cross Bar

Test Setup & Methodology

Test Setup
CPU Intel i7 8700K @ 4.7 GHz, 1.125+ V
Motherboard ASUS ROG Strix Z370-F Gaming
RAM 2 x 8 GB Patriot Viper 4 DDR3-2800
GPU Zotac GTX 1070 Mini
Storage 256 GB Transcend MTS400
PSU Seasonic X-750 Gold
Heatsinks Sythe Fuma Rev. B (Stock, 2x Slip Stream)
Sythe Fuma Rev. B (2x Kaze Flex)
Sythe Fuma Rev. B (2x Gentle Typhoon AP-15)
EVGA CLC 240 (Stock)
Noctua NH-D14 (Stock)
be quiet! Dark Rock 3 (Stock)
Thermalright Venomous X (1x Gentle Typhoon AP-15 w/ 25 mm shroud)
Equipment
Fluke 52 II Dual Input Thermometer
Tenma Sound Level Meter

Methodology

All testing was performed on an open test bench, which minimizes ambient temperature and gives a “worst case” scenario for sound level.

Cooling performance was tested as follows:

  • Disabled all BIOS settings that cause the CPU clock speed and/or Vcore to fluctuate (although there was still some Vcore fluctuation under load).
  • Arctic Cooling MX-2 thermal paste was used for consistency.
  • Included Slip Stream fans, Kaze Flex fans, and Gentle Typhoon AP-15 fans were used on the FUMA for testing.
  • Ambient temperature was measured with a Fluke 52 II at ~1 inch from the intake fan.
  • Varied Vcore (in BIOS) from 1.125 V to 1.375 V in 0.050 V increments to increase heat. Stopped increasing Vcore once a core reached 98-100 °C.
  • 20-pass 2048 MB RAM LinX runs at each Vcore interval were used to load the CPU.
  • CoreTemp was used to record minimum and maximum core temperatures.

Sound level in dBA was measured 10 cm from the intake fan with the fan speed set to 100%. Then, sound level was estimated for other distances using the following formula:

L2 = L1 – 20 * log10(r2/r1)

  • L2 = dBA @ desired distance
  • L1 = dBA @ reference distance
  • r1 = reference distance
  • r2 = desired distance

Why estimate sound level instead of measuring at further distances? It’s because the meter I’m using is most accurate between 40-130 dBA, so I needed to measure really close to the source to make sure my readings were within that range to get the most accurate measurements.

Results

Cooling Performance

Strictly cooling performance of the FUMA was sufficient compared to the heatsinks I had on hand to test against, but it didn’t outperform any of them. To be fair, it is up against larger, more expensive heatsinks and held its own.

Looking at the temperatures when using the 1.125 V required for my 4.7 GHz overclock, all of the heatsinks performed well. Even the highest temperature at that voltage was only around ~71 °C (51 °C ΔT) while using the FUMA paired with two Kaze Flex fans. So, there’s still some temperature room available for additional overclocking with that setup.

Notice how the temperatures didn’t change much with fan swaps on the FUMA. I believe this is a result of the wider fin spacing, and it not needing high static pressure fans for good airflow through the towers. This means we should be able to swap out the Slip Stream 120 fans for something quieter (or run the Slip Streams at lower RPM) without losing much performance.

Sound Level

The Kaze Flex fans significantly reduced the noise of the FUMA from its stock configuration with the Slip Stream 120 fans. The Kaze Flex fans are lower RPM and have rubber corners for vibration reduction. The performance hit from using the Kaze Flex fans wasn’t much compared to the reduction in noise. The Kaze Flex fans made the FUMA go from the loudest heatsink/fan combo I tested to one of the quietest being slightly louder than the Venomous X with a Gentle Typhoon.

Conclusion

The FUMA has a premium look thanks to the nickel plating and polished aluminum top fin. Combined with the black and gray Slip Stream 120 fans, the FUMA has a neutral aesthetic that should go well with just about any build.

Scythe’s FUMA heatsink aims to provide compatibility and versatility without sacrificing much on performance. I think it meets its goals by being smaller in height with thinner towers while also having three fan mounting locations. I believe it also hits the mark on performance considering it’s not trying to compete with the high-end market.

The FUMA Rev. B MSRP is $45.95 and can currently be found for $42 at NewEgg and $42 at Amazon which seems very reasonable for what you get. Its performance was ~10 °C warmer, but much quieter (at lower RPM), than the $65-85 heatsinks used for comparison which doesn’t seem bad considering the price differences.

Overall, I believe Scythe’s FUMA would be a great option for those looking to find an affordable heatsink with a good balance between size, performance, and noise level.

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– Matt T. Green (MattNo5ss)

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