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I am tasked with creating a research project, experimental or theoretical, for Calc-based Physics. I want to do it on something that will relate to my chosen field (Computer Engineering: Software, with testing focus). I came up with GPU and physics.

My long winded idea is, "The effect in-game physics have on the heat of a GPU, and how that affects in-game physics performance." Basically... what does heat do to the GPU's performance? Any ideas on how I could narrow it down to be more objective testing or a more specific theory to prove/investigate?

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closed as too broad by gnat, rene, gunr2171, Lynn Crumbling, TylerH May 4 at 19:10

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs. If this question can be reworded to fit the rules in the help center, please edit the question.

    
Umm... That's what fans are for? Remove fan, and it will fail. Fast. –  Bear Jan 28 '10 at 1:05
    
youtube.com/watch?v=nYhEpHEPqcc oldie but a goodie –  BlueRaja - Danny Pflughoeft Jan 28 '10 at 19:08
    
o.O Wow... those CPUs got... warm. Thanks for the link. –  Joel Garboden Jan 30 '10 at 2:41

3 Answers 3

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I wonder if this is a good topic. First of all, the results are pretty obvious: the games that don't use GPU for physics will have no effect; and the for the ones that do the relationship will be "more physics -> more power needed -> more heat -> slower GPU". Although if the cooling solution is proper (factory default should do unless you overclock) then you will probably not notice any slowdown, as the card will be able to operate at max speed while keeping the temperature low enough not to affect speed.

Now, if you simply want to explore heat-performance relationship of GPUs, then it's again the same song. More heat - slower work. Although if you want to notice this you will have to lower the cooling. Also there's a fair chance that before you notice any slowdown you will get artifacts and/or BSOD, making further testing impossible.

As for the methods - I'd use an infrared laser thermometer and a cooler with adjustable speed (preferably down to 0 rpm). Also you'll have to have some display of the current rpm. Then you just run some GPU-heavy software that displays FPS, and play around with the dials, the thermometer, and the FPS counter. Note that for fair measure the GPU software should provide a steady load on the GPU. I'd advise standing still and looking at a static (albeit complex) scene. Otherwise the FPS might change due to changes in the scene complexity instead of the GPU temperature.

Although, as I said, the results are pretty obvious from the start...

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Hm, I really appreciate your input. It -is- quite obvious... I'm hoping for something more low/deep level theoretical things. Like why CPU's can't really go above 4.2 without tons of heat (electricity making the corners or something right?) More along the lines of why more heat makes a CPU/GPU perform slower. –  Joel Garboden Jan 30 '10 at 2:40

I don't think this is a very interesting topic, because it basically comes down to a bunch of reliability and thermal engineering questions.

Using the GPU to calculate the thermal transfer equations to model GPU cooling systems... now that would be cool.

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"Using the GPU to calculate the thermal transfer equations to model GPU cooling systems" That -sounds- cool, but what exactly does it mean? slightly confused –  Joel Garboden Jan 30 '10 at 2:36

Don't forget to analyze moisture/humidity. This can also affect performance and the lifetime of the GPU. Usually chip makers disclose an optimal environmental setting for the use of their products. This is why servers are kept in environmentally controlled locations.

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I'll keep that in mind, thanks! –  Joel Garboden Jan 30 '10 at 2:40

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