CPU Heatsink Roundup June 2007

CPU Cooling by jmke @ 2007-06-27

In our latest CPU cooler roundup we compare 18 heatsinks on an overclocked Intel setup, testing for best performance at both high noise as well as dead silence. If you are looking for a cooling upgrade, this roundup will guide you towards the best product.

Introduction & Test Setup

Introduction

It’s almost summer time and our overclocking and silent PC system will need every bit of extra cooling power they can lay their hands on, so we continue our heatsink testing with the addition of four brand new contenders from coming from Thermalright, TTIC, Evercool and ZEROTherm, as well as retest the popular Thermalright Ultra-120 revision “A” heatsink. To accommodate the target audience of some of the new heatsinks they were tested with silent as well as high performance fans, if you’re looking for extreme cooling by use of conventional air cooling, you’ve come to the right place!

Heatsinks Compared

These heatsinks were previously tested on the Intel S775 setup:

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  • Intel Reference S775 Heatsink
  • Coolermaster Eclipse
  • Coolermaster Mars
  • Coolermaster Hyper TX
  • Scythe Ninja
  • Titan Amanda TEC
  • TTIC BIG
  • Zalman CNPS9700LED
  • Coolermaster GeminII
  • Scythe ANDY Samurai Master
  • Scythe Kama Cross
  • Scythe Katana 2
  • Tuniq Tower 120


    5 heatsinks are now added to the comparison:

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    From left to right:

  • Thermalright Ultra-120 A
  • Thermalright SI-128
  • ZEROTherm BTF90
  • TTIC NPH-1000
  • Evercool Buffalo


    S775 Test Setup and Methodology

    We build a new S775 system with new parts from Alternate.de, the CPU is one hot running Pentium 4 524, 3.06Ghz. It is mounted on a Swiss-army knife equivalent of motherboards: an Asrock 775Dual-VSTA.

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    The mounting system on S775 is quite straight forward and well thought out, 4 holes around the socket serve as mounting points for the push pins on the standard Intel cooler. Installation is a snap, and removal is very easy too.

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    With the stock cooling and at stock voltage the 3Ghz P4 was running stable at 3.68Ghz, quite a nice improvement from default speeds.

    A Watt Meter recorded peak power consumption under heavy CPU load at 138W, which is less than our previous Athlon 64 setup which consumed up to 165W. The Asrock bios lacks CPU voltage manipulation, so at default voltage is seems this Prescott setup is more power friendly then the over-volted AMD system.

    We’re using a compact Antec Sonata II mid tower case, swapped out the PSU for a passive model from FSP rated at 400W, the outside of the PSU case never went past 40°C during our stress tests,

    Intel S775 Setup

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    CPU Pentium 4 524 @ 3628Mhz - 1.36v vcore
    Mainboard Asrock 775Dual-VSTA
    Memory 1 * 512Mb Mushkin PC3200 LVLII V2
    Other
  • Antec Sonata II with AcoustiFan DustPROOF 120mm @ 5v in the rear as outtake (mounted with soft-mounts)
  • ATI R9000 Passive Cooling
  • FSP ZEN 400W Passive Cooled PSU
  • Seagate 7200.8 200Gb HDD in Scythe Quiet Drive


  • in-take temperature was measured at 22°C for all tests, but temp fluctuations, different mounting and user error can account up to 1-3°C of inaccuracy in the obtained results. Please keep this in mind when looking at the results. Each heatsink was tested repeatedly; if we got questionable results the test was restarted.

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    example: dBA meter is placed right at the edge of the case - with side panel removed


  • Noise level of each HSF combo was recorded with SmartSensor SL4001A, the sensor was placed ~5cm away from the side of the case with panel removed. The lowest dBA reading in the test room was 37.8dBAwith system running without HSF fan.

  • System was stressed by running K7 CPU Burn for 30min (after Thermal Compound's burn-in); this application pushes the temperature higher than any other application or game we've yet encountered. Speedfan was used to log maximum obtained temperatures.
  • Arctic Silver kindly send us their “Lumière” thermal testing compound which has the same colour as Ceramique, but only a break in time of 30min!
  • Arctic Silver's ArctiClean was used to clean off thermal paste of the CPU and heatsink between tests

    Fans used for comparison

    To eliminate as much variables in the tests we test each heatsink with a "reference" fan if it can be mounted.

  • GlobalWin NCB 120x120x25mm fan with 41.7CFM rating.
  • Delta NFB0912L 92mmx92mmx25mm fan with 42CFM rating.

    Onto our first new contestant ->

    • Thermalright Ultra-120 - Specifications

    Thermalright Ultra-120
    Provided by: Thermalright

    The return of a brand new oldie, the Ultra-120 was Thermalright’s first high performance tower heatsink, when we first tested it on our AMD K8 platform results were average at best; they were in fact contrary to the findings of fellow reviewers who tested the unit on Intel S775. So with the help of Thermalright we are re-testing the Ultra-120 on the S775 platform to see how it fares.

    The particular version we were send for test is the Ultra-120A, the difference between this version and previous ones is socket compatibility, the A version comes with mounting hardware for Intel S775 and AMD AM2, no support for K8.

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  • Platform compatibility: Intel Socket 775/AMD AM2
  • Fan Support: 1x120mm (no fan included)
  • Dimensions: 63.5 x 132 x 160.5 mm
  • Weight (without fan): 745gr

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    The Ultra-120 package is rather complete, a manual for both AM2/S775 installation, fan mounting clips and anti-vibration strips, a tube of thermal paste and a Thermalright sticker.

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    The design of the Ultra-120 is well though out, by slightly bending the aluminum fins more surface area is created in the same space, as well as create an alternate airflow path at each side of the heatsink.

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    4 heat pipes are joined in a machine lapped copper base, the amount of fins on the Ultra-120 is impressive and covers the surface area of a 120mm fan.

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    Looking from the side the Ultra-120 is rather slim, let’s get it installed ->

    • Thermalright Ultra-120 - Installation

    Thermalright Ultra-120: Installation

    Installation for both S775 and AM2 requires motherboard removal, but you’re sure of a secure fit. The custom back plate keeps the Ultra-120 in place and screwed in tight at 4 corners the pressure on the CPU is ideal:

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    Installing the fan is easy with the provided clips as long as the fan you are using does not have a Rib Type mounting holes.

    Two rubber strips are placed on each side to reduce vibration noise:

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    Our reference fan is a GlobalWin NCB, which unfortunately has Rib Type mounting holes, thus the clips don’t fit:

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    But it’s nothing a few rubber bands and some imagination can’t solve:

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    The Titan 2900rpm fan installs normally:

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    The Ultra-120 lines up perfectly with the rear fan on S775 as you can change the orientation of the heatsink in 90° steps.

    Thermalright SI-128 SE - Specifications

    Thermalright SI-128 SE
    Provided by: Thermalright

    Thermalright was first to the market with a high performance heatsink which supported a 120mm fan natively, the XP-120 was extremely well received, offering a performance/noise balance never seen before. But that was 3 years ago, since then new competitors were introduced which aimed at besting the XP-120, it took a whole lot of heat pipes and aluminum fins to get it done, it wasn’t until half of 2005 we saw products besting the XP-120. Thermalright hold off on introducing a heatsink based on a “tower” design, but the Ultra-120, when finally released, proved it worth. They didn’t abandon the “XP-120” like design though and today they are releasing an updated version of the SI-128, SI-128 SE. Thicker heatpipes and more fins are destined to proof this heatsink a winner.

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  • Platform compatibility: Intel Socket 775/AMD AM2/939
  • Fan Support: 1x120mm (no fan included)
  • Dimensions: 125 x 145 x 91.5 mm
  • Weight (without fan): 510gr

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    The standard SI-128 package contains mounting gear for all three platforms, a descriptive manual, thermal paste, rubber strips, fan mounting clips and a company logo sticker. While this packaging is quite complete, Thermalright is thinking about including a different mounting gear setup to do away with the Intel push pins, swapping easiness of installation for higher mounting pressure.

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    The heatpipes used on the SI-128 have a noticeably larger diameter; the tightly packed aluminum fins are also thicker to increase surface area.

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    With a high speed fan and enough fresh air this heatsink will surely excel,

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    The base shows signs of machine lapping, but is far from rough; Let’s get it installed ->

    • Thermalright SI-128 SE - Installation

    Thermalright SI-128 SE : Installation

    The default mounting gear for Intel S775 consists of a single bracket, no back plate, it uses push pins and it snaps the SI-128 in place in only a few minutes;

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    While motherboard removal is not strictly necessary, for reaching those push pins underneath the heatsink, it can be much easier to do so.

    The SI-128 can be orientated in steps of 90° but depending on the capacitors around the CPU socket, size of the northbridge heatsink and proximity of the memory slots on the board, you will have one or two possibilities.

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    The fan mounting clips have the same restriction as those of the Ultra-120, you need a open bridged fan in order for them to snap correctly in place.

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    The theoretical advantage of the fan set to blow down onto the mainboard is additional airflow of the motherboard components, north bridge and memory sticks, but since the air which is send this way is heated by the SI-128 is can actually have a negative effect if your case doesn’t have abundant cooling. If you have several large fans for in/out-take you will experience a positive effect of the SI-128’s fan orientation, if you have a silent setup however with only few slow case fans, warm air will be circulated inside the case, instead of expelled towards the rear as is the case with most “tower” design heatsinks.

    Mounting the GlobalWin NCB required use of rubber bands and strips, but in the end it fit nicely:

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    Thermalright SI-128 SE : Installation – The new mounting gear

    After our first test results with the SI-128 came in, these were average at best, we discussed this with Thermalright and it was suggested that mounting pressure might have a larger role on performance than first expected. The Intel push pins are designed for heatsinks weighing approximately the same as the original reference HSF. With the SI-128 however we have 510gr + ~200gr (fan), which is more than double of the reference design; this extra weight will surely have an effect on the plastic push pins;

    So Thermalright was kind enough to send over the mounting gear of their latest IFX-14 monster heatsink. The bracket and back plate is universal for all current CPU platforms (Intel S775/ AMD AM2) and works for most of Thermalright current CPU heatsink line-up.

    Below you can see the complete tool kit for all platforms:

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    For the Intel S775 the amount of gear needed is reduced to:

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    First step is to prepare the back plate, this took less than a minute:

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    Then install the small brackets on the mainboard; while these brackets can be placed to have the heatsink facing either way in 90° steps, on the ASRock motherboard we were limited as the brackets interfered with the capacitors around the CPU socket. We placed electrical tape on of them as it was touching the bracket.

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    Since the final mounting plate and screw is situated under the main body of the SI-128 we had to use the small wrench Thermalright included:

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    There is no doubt that with this mounting method the pressure on the CPU is increased, we’ll find out in the performance tests if it actually made a difference or not.

    ZEROtherm BTF90 - Specifications

    ZEROtherm BTF90
    Provided by: ZEROtherm

    We first saw ZEROtherm products appear on the market last year after they launched their products at Cebit 2006, this year they have expanded their line-up with more CPU coolers as well as VGA cooler units. We take a look at their high end full copper heatsink which features a custom mounted 92mm fan in the middle of a butterfly designed HSF.

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  • Platform compatibility: Intel Socket 775/AMD AM2/939
  • Fan Support: custom 92x25mm (4-pin PWM 750~2500rpm - max 42.8CFM)
  • Dimensions: 108 x 81 x 128 mm
  • Weight: 678gr

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    Inside the package you’ll find mounting gear for both S775 (back plate) and AM2/S939 which uses the default AMD bracket. A descriptive manual explains how to get the HSF installed with step by step illustrated photos, there is also a small tube thermal paste.

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    The BTF90 is based around the middle 92mm and is made of full copper with 4 looping heat pipes joined in the base. The fins are spread out to profit the most from the airflow provided by the fan.

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    The butterfly design gives it a nice custom design touch to be honest;

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    The base is machine lapped, but seems also to have received polishing, just look at that reflection:

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    Installation requires the middle fan to be removed, which offers a better look at the heatsinks fin layout:

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    • ZEROtherm BTF90 - Installation

    ZEROtherm BTF90: Installation

    Motherboard removal for S775 installation is required as we need to use a custom back plate; first we attach the correct mounting clip to the heatsink:

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    Then to be able to access all four screws the fan is removed from the heatsink:

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    Once the heatsink is in place you re-install the fan and end up with something like this:

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    Installed inside the case the heatsink lines up perfectly with the rear exhaust fan; the S775 mounting allows for 90° movement and allows you to choose the best orientation:

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    When powered on the fan lights up RED and if you have a side panel with window will give you some *bling*:

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    We were able to install an normal 92mm fan by squeezing it in place between the fins, it held remarkable well, without any added vibration noise:

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    TTIC NPH-1000 - Specifications

    TTIC NPH-1000
    Provided by: TTIC/npowertek

    TTIC has been an underdog in our CPU cooling roundup since the start, their first offerings for AMD Socket 462 tested here offered excellent performance at small heatsink size; over the years they have polished their product retail look, included better installation manuals, because their products were solid, it was the finishing touch which was missing in the “everything but the heatsink” department. This year we’ve received their first unit delivered in a fancy retail package; the NPH-1000 is compact copper tower heatsink with unique design and custom 92mm fan. Do note that the retail packaging is not final yet; we’ve been send a “final” product by TTIC and will review it once it arrives.

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  • Platform compatibility: Intel Socket 775/AMD AM2/939
  • Fan Support: custom 92x25mm (~2200rpm – max 39.73CFM)
  • Dimensions: 99 x 45 x 118 mm
  • Weight: 522gr

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    Mounting gear for all platforms, custom size fan, installation manual, tube of thermal paste and fan speed controller makes the NPH-1000 retail package a complete deal.

    Let’s start out with the fan, TTIC has used this design before, reducing the fan bracket size in order to fit a larger fan onto a heatsink normally destined for a smaller version; they also for the first time ever included a fan controller, the rheostat allows control of fan voltage, max settings gives 12v, minimum 5v, a good range to choose between high performance and silent operation.

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    This zoomed in picture might give wrong idea but the NPH-1000 is really compact, and the smallest heatsink in this roundup:

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    There are a total of four heat pipes joined in the base, two trail the outside of the copper fins, two cover the inside, it's a very unique design which we have not seen before; the fins cover the fan area perfectly, leaving room in the middle where the fan motor resides.

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    The base is machine lapped and nears perfection except for a few small scratches.

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    • TTIC NPH-1000 - Installation

    TTIC NPH-1000 : Installation

    A custom compact back plate is used in conjunction with custom bracket to be mounted on the heatsink itself:

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    The long screws you see are for the custom fan, it is mounted after you install the NPH-1000 on the motherboard as otherwise you can’t access all four mounting screws.

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    Once installed the NPH-1000 lines up with the rear exhaust fan, as the S775 installation allows for orientation in 90° steps, excellent!

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    Evercool Buffalo - Specifications

    Evercool Buffalo
    Provided by: Evercool

    Evercool has been around for a long time, ever since AMD Athlon K7 “Thunderbird” became popular they have been providing custom cooling solutions for the enthusiasts out there. Today we have for review their latest offering, a compact Tower heatsink with custom 100mm low noise fan; 2 models are available, one for Intel on for AMD, we received both (our error :/) but only tested the S775 on in this roundup.

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    (HPFI-10025: for INTEL -- HPFA-10025: for AMD)

  • Platform compatibility: Intel Socket 775 OR AMD AM2/939
  • Fan Support: custom 100x25mm (~1800rpm) or standard 92mm
  • Dimensions: 110 x 72 x 142.7 mm
  • Weight: 500gr

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    Package contents are the Buffalo heatsink and small bag of thermal paste; the plug and play installation instructions are printed on the side of the retail package.

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    Two large diameter heat pipes joined in a copper base, with aluminum fins to dissipate the heat.

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    The fan is held in place with two clips, and can be swapped out if needed by a 92mm fan. The open frame fan is popular with CPU heatsinks, first seen in use by Arctic Cooling (Freezer Series) and later on Coolermaster (Hyper TX).

    Here’s photo of the heatsink and fan without flash, the fan is red, with the flash the color tends to be not really “real world”:

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    The base of the Buffalo is machine lapped but remains quite rough:

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    • Evercool Buffalo - Installation

    Evercool Buffalo: Installation

    As mentioned on the previous page, you are able to swap out the fan with a normal 92mm sized unit, as long as it has open bridge at the sides, like this Delta:

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    Zooming closer there is a small rubber ring which sits between the aluminum fins and the fan clips to reduce vibration noise, good attention for detail by Evercool:

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    The Buffalo has enough clearance around the CPU socket to fit without issue, again free orientation with 90° steps, towards the rear exhaust is best in this case.

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    Performance Results

    Performance Results

    Time to put our new contestants through our stress tests. Let’s begin with the Thermalright SI-128 SE, a closer look at how the stock mounting method with plastic push pins fairs against the bolted through motherboard method. In the charts below the |BT ending in the SI-128 results stands for Bolted Through.

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    It’s very clear from the results that mounting pressure with the push pins is insufficient for the SI-128, the bolt through method shaves off an impressive 7-9°C! Let’s hope Thermalright includes the new mounting kit by default for the SI-128 SE.

    If you are looking for the best performance and don’t care about noise, the following chart will be of interest, we slap one Titan 2900RPM 120mm fan on those heatsinks which can support it and see how cool the CPU runs with case panel open vs closed:

  • Note: the dBA level of 70+dBA is really a nice estimate of how insane noisy this fan is, not recommended for daily usage.
  • The Coolermaster GeminII is equipped with the 2900RPM and additional 2500rpm fan.

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    Both Thermalright units support 120mm fan and so we threw them into the mix with impressive results, the Ultra-120 ties with the Tuniq Tower 120 in first place, the SI-128 trails only by 2°C when the case panel is off the case, the bolt through mounting also shows its advantage here, 42 vs 45.5°C under load. When closing the side panel the Tower Coolers remain very competitive, again a tie for 1st place Tuniq and Ultra-120 on par. The SI-128 really suffers now that there is no more fresh air provided and CPU temps increase almost by 10°C.

    Onto the “normal” noise level testing, we are recording HSF noise at very close distance <5cm, anything below 45dBA in the charts can be considered as dead silent as the ambient noise is ~37.8dBA in the test room.

    We tested each heatsink with its “stock” fan if it has one, if possible we mount our reference fans, “NCB” in the chart stands for GlobalWin NCB 120mm, “Delta” stands for the Delta 92mm fan. Both these fans are borderline silent at 12v, once undervolted at “low” speed they become practically dead silent.

    Onto the results, sorted by lowest CPU temperature.

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    Welcome to the bottom of the chart, hope your finger don’t hurt from scrolling, a lot of data to cover in this chart, with both stock and reference fan used. Let’s start with our new entrees as they were presented in this article:

  • Thermalright Ultra-120: Thermalright’s Ultra-120 proves itself as the best Intel S775 heatsink out there, the Tuniq Tower 120 comes close, but in the end there can be only one. With the NCB at high speed the Ultra-120 is only .5°C away from the Zalman CNPS9700LED which is producing a high pitched noise of 60+dBA, more than twice as loud as the NCB fan. Add a high performance fan to the Ultra-120 and CPU temperatures drop to an amazing 40°C. When we reduce the NCB fan speed to “low” setting the Ultra-120 remains very competitive, coming in first of the NCB powered HSF, on par (~0.5°C) with the Scythe Ninja. Whether you’re looking for high performance or low noise the Ultra-120 delivers on S775.

  • Thermalright SI-128 SE: If Thermalright wants this heatsink to be competitive they need to include the bolt through mounting kit, with it CPU temps are reduced by 7~9°C, and this places the SI-128 near the top, the first none tower heatsink actually when the NCB is at “High” speed. At low speed the results are average at best, as this heatsink is made for high performance; if you slap on a 70+dBA fan the results are splendid, 42°C under load.

  • ZEROtherm BTF90: Compact heatsinks do quite well in this roundup, seeing as the Hyper TX from Coolermaster is so high up in the ranking and it’s the Tower cooler to beat. The BTF90 equals the Coolermaster in CPU temperatures, but its fan makes noticeably more noise (49vs56dBA). If we swap the stock fan with the silent Delta 92mm the noise drops to 44dBA at only +5°C in CPU temp. At low fan setting the stock fan is quite good, besting the performance/noise ratio of the Hyper TX slightly. Paired with the Delta fan at “low” the reduction in airflow is too much and this full copper heatsink is at a hot 64°C for CPU temp. Overall the BTF90 is an impressive unit, finishing close second to the other compact tower heatsinks.

  • TTIC NPH-1000: Where as the BTF90 unit was close to beating the Hyper TX, the NPH-1000 actually pulls it off at “high” fan speed, clocking in at only 46.5dBA the stock fan is close to complete silence and keeps CPU temps under 50°C, bettering the noise/performance ratio of the Hyper TX. At “low” fan speed the NPH-1000 falls back to 60°C CPU temp and is on par with the BTF90 and Hyper TX. The NPH-1000 is quite a promising heatsink design with good potential for quiet and effective CPU cooling.

  • Evercool Buffalo: The Buffalo has some stiff competition, but this light weight not full copper unit can stand tall, the results with stock fan at high are commendable, although the fan is on the noisier side. With the quieter Delta fan performance is still “okay” and noise levels are down. At “low” fan speed setting the stock fan is quite good, offering performance/noise balance on par with the other compact tower coolers tested. With the Delta fan at “low” the Buffalo is overwhelmed as the lack of airflow places it at the top of the chart with CPU temperatures reaching 70°C. Overall the Buffalo doesn’t fail to impress with an attractive price and easy installation.


    • Let’s wrap things up ->

    • Tech Specs Overview & Conclusive Thoughts

    Conclusive Thoughts

    If we compare the results of the all the heatsinks with the reference fans NCB/Delta (or stock if the reference ones don’t fit) we end up with a more compact chart:

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    Comparing fan size support, weight, platform and price we come up with this table:

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    * weight without fan (grams)


    This latest roundup proved interesting, we included one of our previously tested units, the Thermalright Ultra-120, with good results, where as on the K8 platform the Ultra-120 did okay at best, on the S775 it really distinguishes itself from the masses, delivering killer performance with high speed fans as well as under very low airflow situations. Mounting pressure is vital for good performance and the 4 point mounting of S775 proves superior to AMD K8’s two.

    If your case doesn’t fit large tower coolers like the Ultra-120 you will be happy to learn there are plenty of more compact tower units which offer excellent performance almost on par with the big boys. The new additions tested today from Evercool, ZEROtherm and TTIC are proof of this.

    The older design based of the classic Thermalright Ultra-120 still remains excellent for high performance cooling, but once you remove direct access to fresh air the Tower coolers have an easier time removing the CPU heat, the SI-128 is not a bad heatsink, but it’s simply not ideal for silent computing.

    We have now tested over 150 Heatsinks over AMD K7/K8 , Intel S478/S775 platforms and will continue to stress test the latest additions; we’ll strive towards re-including note-worthy units in our future tests, except to see the Scythe Mine and Infinity in our next S775 Roundup, if you like another unit re-tested or saw an interesting product we haven't looked at, please don't hesitate to contact us.

    Thanks go out to Thermalright, ZEROtherm, Evercool and TTIC for sending in their products. Until next time!

    Madshrimps (c)
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