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MSI Wind U100, Overclocked With Liquid Nitrogen 95

james writes "What do you get when you combine a MSI Wind U100 notebook with liquid nitrogen? The new Intel Atom frequency World Record ... and some damn cool pictures! A large copper pot is used, sitting on top of the GPU and chipset, and cold transfer through the original heatsink plate to the CPU. This was cooled down to about -20 C to achieve the new world mark. (Intel Atom N270 @ 2315mhz) For more information you can check out the original forum thread.
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MSI Wind U100, Overclocked With Liquid Nitrogen

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  • Sort of throws out the "portability" marketing scheme

  • Bonus (Score:4, Funny)

    by Anonymous Coward on Tuesday November 25, 2008 @09:03AM (#25885303)

    +5 hack points for being completely impractical. I like...

  • Overhead locker blues with that baby, but it's very very cool !
    • The liquid nitrogen is in a closed system right? So the explosive sniffers shouldn't catch it, right? It's not like the TSA is going to know that the notebook has liquid nitrogen in it. They're not that bright and they're not that coordinated.

      • they're liable to confiscate it (if you're within 100 miles of a border) or just steal it outright.

      • Re: (Score:2, Funny)

        by gblackwo ( 1087063 )
        Maybe they won't sniff out the nitrogen (I'm not even sure that it is even sniffable, there is ton of it in the air- not exactly a weird element to have around). But they will likely catch the massive hollow copper beam they are using for a heat sink and at least want to check your bag.
      • Where's the ka-boom? (Score:3, Interesting)

        by DrogMan ( 708650 )
        It's generally not a good idea to keep liquid Nitrogen in a closed system - it expands by something like 700 times when it goes from liquid to gas, so either you need to keep it cool - hard to do if it's sitting on a hot-plate, or make the pot extremely pressure proof... And then you still need to keep it cool. Best to just let it boil away and top it up...
      • If the liquid nitrogen is in a closed system the apparatus would have to be either rather large or incredibly secured. Heat from the cpu would vaporize the nitrogen, that's a LOT of pressure. You don't want a closed system. Especially in a tiny netbook. Bright or not I'd imagine the TSA might suspect something if your laptop had a cloud of FOG around it...

        In other nerdiness, liquid nitrogen is actually really easy to make and is inexpensive. The problem is storage. You need a really good (read expensive) re

      • it's been a while since i've taken physics, so please excuse my ignorance. but how would the liquid nitrogen provide any additional cooling (compared to water) if it's in a closed system? i mean, doesn't the liquid nitrogen have to boil off/evaporate in order to provide cooling? so if it remains a pressurized liquid then isn't it just the same as a cooling pump or radiator? i mean, theoretically you could let the liquid nitrogen evaporate and then re-compress in a separate chamber, but i don't know how prac

      • Exactly what part of liquid nitrogen do you think the explosive sniffers would alert on if it weren't in a closed system?

        • Explosives sniffers often look for high concentration of nitrogen, since nitrogen is a key component in virtual all explosives. Perhaps you've heard of such things as Tri-Nitro-Toluene (TNT)? How about Composition C4? A key chemical component of cyclonite (C4 is cyclonite mixed with plasticizers) is nitric acid?

  • by T.E.D. ( 34228 ) on Tuesday November 25, 2008 @09:04AM (#25885313)

    ...and you thought it was bad when your laptop's battery started leaking into your lap. Just wait until its liquid nitrogen cooling system starts leaking.

  • by KingSkippus ( 799657 ) * on Tuesday November 25, 2008 @09:04AM (#25885315) Homepage Journal

    This was cooled down to about -20 to achieve the new world mark.

    The really impressive thing isn't that they overclocked a processor, it's that they cooled it to -20 K!

    • by Jeoh ( 1393645 )
      What's even more impressive is that it was still running at 2315MHz. Imagine if it was above absolute zero... in a beowulf cluster!
  • by Anonymous Coward on Tuesday November 25, 2008 @09:05AM (#25885319)

    All this shows is that Atom is clock limited by design. A 700MHz speed up - less than 50% in this case - from using liquid nitrogen? And all to get a CPU that's about as powerful as a 1.5GHz Pentium M or a 1.2GHz Core 2 Duo ...

    Atom is reasonably neat, but I would have been more impressed with under-volting to half power consumption. Or designing a better chipset.

    • Agreed, underclocking/volting is a massively overlooked aspect. I had a mobile processor in one of my servers a while ago (low cpu intensity), and managed to underclock it and save a lot of power (both in removing the fan from the heatsink, and reducing the voltage). Unfortunately, when the machine lost power (didn't have it on a UPS), it restored the multiplier/bus frequencies to the defaults, but not the voltages, and it wouldn't post any until I cleared the CMOS (Athlon Mobile 2500+, ABit NF7-S V2.0, f
      • Re: (Score:2, Interesting)

        by Dare nMc ( 468959 )

        underclocking/volting is a massively overlooked aspect.

        on a chip like the atom with a high emphasis on dynamic clock gating, I would assume under-clocking the CPU would only make the system less power efficient. Under clocking a dynamic clock CPU would only limit it's peak performance, when your system is waiting on the CPU, but not affect the low/average power draw of the CPU at all. (I realize your likely under clocking the memory, and everything else so that would help some.)

    • by tlhIngan ( 30335 )

      All this shows is that Atom is clock limited by design. A 700MHz speed up - less than 50% in this case - from using liquid nitrogen? And all to get a CPU that's about as powerful as a 1.5GHz Pentium M or a 1.2GHz Core 2 Duo ...

      Atom is reasonably neat, but I would have been more impressed with under-volting to half power consumption. Or designing a better chipset.

      Well, Atom's market isn't in the high-performance desktop/laptop realm, it's in the netbook realm, where the primary goal (for the most part) is "c

      • Re: (Score:3, Interesting)

        by billcopc ( 196330 )

        I say it's not cheap enough.

        What does an Atom processor and board cost ? $75 or so ? What does the cheapest Core-2 processor and board cost ? $90

        Somehow, I'm not impressed by those numbers. Bring the Atom kit down to $30 and we'll talk. Building it into $300 subnotes is not what I call impressive, they just scored because people are magpies and they like the cute little paperweights.

    • All this shows is that Atom is clock limited by design. A 700MHz speed up - less than 50% in this case - from using liquid nitrogen? And all to get a CPU that's about as powerful as a 1.5GHz Pentium M or a 1.2GHz Core 2 Duo ...

      The motherboard could be limiting the FSB, since it isn't designed for overclocking. You have no way of knowing that this is a processor limitation.

      And these Atoms put a mere 4W at stock - while a Pentium M puts out 27W at load.
    • i totally agree it would be nice to see the max undervolt w/ stock speed this chip can do. but this is the improved chip!

      just compare the atom n270 [intel.com] (in almost every netbook) to a comparable core duo [intel.com] or solo [intel.com]

      now look at the stated Thermal Design Power - its 2.5watts vs. 34w vs. 31w respectively. that is more than a couple of magnitudes less. and the voltage is lower for the Atom than the Core Duo/Solo too. the fact that this chip is reaching these speeds while consuming relatively no power is the
  • Geez... (Score:4, Funny)

    by Capt James McCarthy ( 860294 ) on Tuesday November 25, 2008 @09:05AM (#25885325) Journal

    Better wear the insulated cod piece.

  • 486 + turkey cooking bag + freezer = fun for the whole family.
    --
    Looking for work? Keep one eye open on Craigslist.com http://www.bigattichouse.com/oneeyeopen.html [bigattichouse.com]
  • by v1 ( 525388 ) on Tuesday November 25, 2008 @09:13AM (#25885419) Homepage Journal

    I've always wondered why things like this don't cause physical problems related to thermal expansion/contraction - why doesn't the processor package crack due to the temp differences? Or condensation form in bad places etc? There's gotta be a whole list of bad side effects to worry about when supercooling one part of your computer...?

    • by Eccles ( 932 ) on Tuesday November 25, 2008 @09:25AM (#25885563) Journal

      I work for the Department of Redundancy Department.

      Which one?

    • by Chief Camel Breeder ( 1015017 ) on Tuesday November 25, 2008 @09:34AM (#25885673)

      You might think so, but silicon seems to deal with it OK. When I worked in astronomical instrumentation, we built LN2-cooled CCD cameras with the chips cooled to about -150 deg C (they had heaters in the cryostats to hold this temperature; they went down to about -200 if the heaters were turned off). These things were thermal-cycled many times a year and we rarely lost a chip. Astro CCDs are big chips, albeit very simple compared to CPUs.

      Conversely, detectors cooled to liquid helium temperatures are likely to die if cycled up to room temperature a few times.

      With the CCD cryostats, the chips were in a vacuum vessel, so condensation wasn't normally a problem; all the water had been sucked out before cooling. If moisture did get in, then they had to be warmed and re-evacuated.

      • by v1 ( 525388 )

        But you never see these modding setups in a vacuum. I wonder how they cope with condensation say, shorting out the pins on the cpu package/socket?

        • by chaim79 ( 898507 )
          By waiving their flag of choice patriotically over the ensuing fireworks.
        • by Molochi ( 555357 )

          A blob of Dielectric Grease. You cover the socket with it, before attaching the CPU so condensation doesn't form between the pins.

        • We coat the boards with an insulating polymer, most commonly the "Spray-on electrical tape" stuff. You cover the whole board with several layers of that gunk, so condensation forms on the insulant and drips off. Some long-term installations use a drip pan, but most guys only run it for the benchmark, then go back to sane temps for regular operation.

      • by squoozer ( 730327 ) on Tuesday November 25, 2008 @09:44AM (#25885809)

        My guess as to why chips last so well when thermally cycled would be because they undergo very little contraction as they cool. Microchips are made from extremely pure single crystals of silicon (essentially) so they are already in a very low energy state. Cooling them down isn't going to change very much. I wouldn't be surprised if newer SOI chips break more often when thermally cycled as they are in a higher energy state to begin with. Anyway, I have no evidence of this, just a gut feel from studying materials at a wide range of temperatues.

        • by tlhIngan ( 30335 )

          My guess as to why chips last so well when thermally cycled would be because they undergo very little contraction as they cool. Microchips are made from extremely pure single crystals of silicon (essentially) so they are already in a very low energy state. Cooling them down isn't going to change very much. I wouldn't be surprised if newer SOI chips break more often when thermally cycled as they are in a higher energy state to begin with. Anyway, I have no evidence of this, just a gut feel from studying mate

        • They are not solely made of Silicon. They also have layers of copper interconnects and dielectrics. I wonder if their thermal expansions are relatively similar?
        • by grrrl ( 110084 )

          Thermal expansion coefficients are governed by the material - single crystal silicon has a very different thermal expansion coefficient to single crystal sapphire, for example. SOI silicon is also single crystal just on an insulator, so its thermal expansion is exactly the same as standard silicon. Perhaps you mean strained-silicon? Even then it's still single crystal and unlikely to have a thermal expansion coefficient that is much different from standard silicon. I'm not sure of exactly how much they chan

    • by Lumpy ( 12016 ) on Tuesday November 25, 2008 @09:36AM (#25885697) Homepage

      Not really. you cant get condensation because there is no air with moisture anywhere near the motherboard. All that nitrogen is displacing the air faster than the air knows what to do. Same with overclocking with Co2.. No condensation.

      Now supercool it, then yank it out of the cooling bath, yes it will grow frost faster than anything. I killed my first K6 processor by using a over sized peltier cooler. I cooled it faster than the processor could create heat... I frosted the motherboard for a 3 inch circle around the processor, something melted some of the frost and it shorted two power pins and it went POOF.

    • by nerdbert ( 71656 )

      There's been a long history of liquid nitrogen cooling. NCR was looking to do it for their mainframes back in the 80s.

      Yes, there are problems with condensation (usually attacked with stainless steel connections to keep the heat flow down), and sometimes boards will crack, but rarely packages.

      But the worst thing is that the life of your chip is vastly shortened. There are hot electron effects that shift the threshold voltage on the NMOS devices. Hot-e effect arise from the very high electric fields at the dr

    • Nice trick doing this to a laptop mobo, but LN2 cooling is hardly novel. Xtreme Systems has had a forum dedicated to LN2 cooling [xtremesystems.org] for years, and guys there are doing it everyday.

      Interestingly, the site owner did an overclocking demo for Intel [fudzilla.com]. I guess Intel can't say they are anti-overclocking anymore.

      That forum will answer all of your questions. Frankly, LN2 suicide runs are fun, but I am more impressed with phase change systems [xtremesystems.org] that can run 24/7 like mine. :D
  • by AltGrendel ( 175092 ) <`su.0tixe' `ta' `todhsals-ga'> on Tuesday November 25, 2008 @09:21AM (#25885517) Homepage
    Try here. [photobucket.com]
  • by SpasticWeasel ( 897004 ) on Tuesday November 25, 2008 @09:22AM (#25885529)
    The author clearly has a very broad definition of cool.
  • by TheNecromancer ( 179644 ) on Tuesday November 25, 2008 @09:25AM (#25885561)

    was cooled down to about -20 to achieve the new world mark.

    They could have done this alot easier by performing the experiment in my back yard in January (I live in the upper Midwest).

    • by ceoyoyo ( 59147 )

      If they did it in my backyard in January I wonder if they'd get another couple hundred MHz? (I live around 55N in Canada)

      The -20 makes it sound like the LN02 is a bit of a gimmick. You can achieve that temperature a lot more easily.

    • I think they didn't want to test it outdoors in February at International Falls because you can't type with gloves on, and your fingers don't stay attached if you take the gloves off.

      I live in MN, and if I leave my Dell D820 in the car overnight between October and April, and then power it up in the morning, the fan will kick on and it will boot incredibly slow. I've always presumed this is some sort of preventative action to keep the processor from heating up too fast and snapping something... but nobod
  • It was long ago but I remember good overclocking. My PII 350 MHz ran perfectly at 392 MHz (bus at 112 MHz instead of 100 MHz). It made some sense (since a 400 Mhz CPU was about $150 more expensive) actually. Since then I have not attempted overclocking anything (perhaps because I got an Apple computer).

    Is overclocking still worth it? Does it make sense?

    Or is it mostly a challenge for fun and glory today?

    • Yes and no. I was running an E6600 dual core 2.4ghz chip at 3ghz no problem (this is a very common overclock for that chip). I ended up clocking it back to 2.4 to save electricity since I wasn't noticing a huge increase in system performance.
    • Re: (Score:1, Informative)

      by Anonymous Coward

      Is overclocking still worth it? Does it make sense?

      It's not worth as much, and it's not the same beast as it was ten years ago, but at least its gotten easier. There's a bigger selection of hardware and cooling equipment. Consequently, a small increase in speed (1-10%) doesn't amount to much for the average user, with all the other bottlenecks. A big monitor, good graphics card, high performance SSD and gigabit ethernet have more of a positive impact than overclocking, from the average geek's point of view.

      Whether it's worth it to overclock a processor, alw

  • Its like the peole who wait in line overnight for new electronic hardware or movie takes that everyone else can buy online or at normal times. Both cool and assinine.
  • Should have been heat transfer from the CPU to the pot (or put if you prefer) of liquid Nitrogen.

    Obligatory <Homer> "In this house we obey the laws of thermodynamics."</Homer>

  • by FourthLaw ( 1365279 ) on Tuesday November 25, 2008 @10:21AM (#25886297) Homepage
    What no Vista jokes yet? Must be the Slashdot holiday skeleton crew...
  • A large copper put is used, sitting on top of the gpu and chipset, and cold transfer through the original heatsink plate to the CPU. ... Shift or get off the pot.

  • Project E.U.N.U.C.H. [totl.net] :)
  • I mean, unless the processor *needs* to be at LN2 temperature wouldn't it be more practical just to increase the flow rate of a water cooling system?

    • Re: (Score:2, Informative)

      by Alastor187 ( 593341 )

      I mean, unless the processor *needs* to be at LN2 temperature wouldn't it be more practical just to increase the flow rate of a water cooling system?

      The processor is never going to be the same temperature as the liquid nitrogen (or any cooling median). As long as there is thermal resistance and/or heat being dissipated there will be some temperature difference.

      You could just increase the flow rate of a water cooling system, but that is not without issues either. For example, pumping power increases exponentially with flow rate and heatsink geometry is typically optimal for a given flow rate.

      Using the liquid nitrogen is just an easy way to get a high

  • Wow.. Imagine a Beowulf cluster of these
  • Surely you can get it colder than -20 F (~244 K) using LN2 which is at a temperature of 77 K??

  • I think it was a Chester Copperpot
  • I guess you're always going to get cool pictures if liquid nitrogen is involved

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