Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm a CS master student, and next semester I will have to start working on my thesis. I've had trouble coming up with a thesis idea, but I decided it will be related to Computer Graphics as I'm passionate about game development and wish to work as a professional game programmer one day.

Unfortunately I'm kinda new to the field of 3D Computer Graphics, I took an undergraduate course on the subject and hope to take an advanced course next semester, and I'm already reading a variety of books and articles to learn more. Still, my supervisor thinks its better if I come up with a general thesis idea now and then spend time learning about it in preparation for doing my thesis proposal. My supervisor has supplied me with some good ideas but I'd rather do something more interesting on my own, which hopefully has to do with games and gives me more opportunities to learn more about the field. I don't care if it's already been done, for me the thesis is more of an opportunity to learn about things in depth and to do substantial work on my own.

I don't know much about GPU programming and I'm still learning about shaders and languages like CUDA. One idea I had is to program an entire game (or as much as possible) on the GPU, including all the game logic, AI, and tests. This is inspired by reading papers on GPGPU and questions like this one I don't know how feasible that is with my knowledge, and my supervisor doesn't know a lot about recent GPUs. I'm sure with time I will be able to answer this question on my own, but it'd be handy if I could know the answer in advance so I could also consider other ideas.

So, if you've got this far, my question: Using only shaders or something like CUDA, can you make a full, simple 3D game that exploits the raw power and parallelism of GPUs? Or am I missing some limitation or difference between GPUs and CPUs that will always make a large portion of my code bound to CPU? I've read about physics engines running on the GPU, so why not everything else?

share|improve this question
    
CUDA or other systems of course require access to appropriate hardware. –  Will Nov 25 '09 at 12:24

7 Answers 7

up vote 11 down vote accepted

DISCLAIMER: I've done a PhD, but have never supervised a student of my own, so take all of what I'm about to say with a grain of salt!

I think trying to force as much of a game as possible onto a GPU is a great way to start off your project, but eventually the point of your work should be: "There's this thing that's an important part of many games, but in it's present state doesn't fit well on a GPU: here is how I modified it so it would fit well".

For instance, fortran mentioned that AI algorithms are a problem because they tend to rely on recursion. True, but, this is not necessarily a deal-breaker: the art of converting recursive algorithms into an iterative form is looked upon favorably by the academic community, and would form a nice center-piece for your thesis.

However, as a masters student, you haven't got much time so you would really need to identify the kernel of interest very quickly. I would not bother trying to get the whole game to actually fit onto the GPU as part of the outcome of your masters: I would treat it as an exercise just to see which part won't fit, and then focus on that part alone.

But be careful with your choice of supervisor. If your supervisor doesn't have any relevant experience, you should pick someone else who does.

share|improve this answer
    
Sound advice even for a masters (rather than Phd) thesis. –  Will Nov 25 '09 at 12:23
    
I've been thinking about this for the last couple of days and I think I made some wrong conclusions and didn't really know what I'm talking about. Reading the posts here as well as additional research, it is evident that even if such a pure GPU Game is possible, it'll leave the CPU idling and put strain on the GPU that isn't designed for this. It does sound cool, but it's not very useful. What you suggested is more in line with current research: trying to code specific algorithms on GPU for better performance. I spend more time thinking about it. Thanks! –  nwosh Nov 27 '09 at 9:43

I'm still waiting for a Gameboy Emulator that runs entirely on the GPU, which is just fed the game ROM itself and current user input and results in a texture displaying the game - maybe a second texture for sound output :)

The main problem is that you can't access persistent storage, user input or audio output from a GPU. These parts have to be on the CPU, by definition (even though cards with HDMI have audio output, but I think you can't control it from the GPU). Apart from that, you can already push large parts of the game code into the GPU, but I think it's not enough for a 3D game, since someone has to feed the 3D data into the GPU and tell it which shaders should apply to which part. You can't really randomly access data on the GPU or run arbitrary code, someone has to do the setup.

Some time ago, you would just setup a texture with the source data, a render target for the result data, and a pixel shader that would do the transformation. Then you rendered a quad with the shader to the render target, which would perform the calculations, and then read the texture back (or use it for further rendering). Today, things have been made simpler by the fourth and fifth generation of shaders (Shader Model 4.0 and whatever is in DirectX 11), so you can have larger shaders and access memory more easily. But still they have to be setup from the outside, and I don't know how things are today regarding keeping data between frames. In worst case, the CPU has to read back from the GPU and push again to retain game data, which is always a slow thing to do. But if you can really get to a point where a single generic setup/rendering cycle would be sufficient for your game to run, you could say that the game runs on the GPU. The code would be quite different from normal game code, though. Most of the performance of GPUs comes from the fact that they execute the same program in hundreds or even thousands of parallel shading units, and you can't just write a shader that can draw an image to a certain position. A pixel shader always runs, by definition, on one pixel, and the other shaders can do things on arbitrary coordinates, but they don't deal with pixels. It won't be easy, I guess.

I'd suggest just trying out the points I said. The most important is retaining state between frames, in my opinion, because if you can't retain all data, all is impossible.

share|improve this answer
    
Couldn't you use a texture as persistant storage - GPUs can read and write texture data. –  Skizz Nov 24 '09 at 10:46
    
With persistant storage, I'm talking about saving data to disk. A GPU can't do that, unless it gets help from the CPU. However, if you meant retaining data during runtime, I think textures or something similar would be the way to go, but my point is that this would be crucial to any game development, so nwosh should go figure this one out before doing anything serious :) –  OregonGhost Nov 24 '09 at 10:49
    
Thanks for your answer. I first my question wrote something like: "I had is to program an entire game on the GPU" but I immediately thought of IO and storage, and added "(or as much as possible)". I'm thinking along the lines of what you said, having the CPU do as little as possible just to get the GPU running. I think it might be an interesting project for me to learn all about the GPU and how it can be optimized, and hopefully it'd produce an impressive demo to put on my CV~ –  nwosh Nov 24 '09 at 10:50
    
Impressive it would be. However, because of the IO problems, I think that an emulator, Gameboy or not, would be a really great thing, because you could have a really generic CPU part and a really generic GPU part and yet it would run anything you want. That would be cool. Be sure to post a comment here when you have it in a runnable state ;) –  OregonGhost Nov 24 '09 at 10:58
    
I think the biggest drawback is the lack of input devices for the gpu :> –  drahnr Feb 7 '10 at 8:59

Whilst GPUs today have got some immense computational power, they are, regardless of things like CUDA and OpenCL limited to a restricted set of uses, whereas the CPU is more suited towards computing general things, with extensions like SSE to speed up specific common tasks. If I'm not mistaken, some GPUs have the inability to do a division of two floating point integers in hardware. Certainly things have improved greatly compared to 5 years ago.

It'd be impossible to develop a game to run entirely in a GPU - it would need the CPU at some stage to execute something, however making a GPU perform more than just the graphics (and physics even) of a game would certainly be interesting, with the catch that game developers for PC have the biggest issue of having to contend with a variety of machine specification, and thus have to restrict themselves to incorporating backwards compatibility, complicating things. The architecture of a system will be a crucial issue - for example the Playstation 3 has the ability to do multi gigabytes a second of throughput between the CPU and RAM, GPU and Video RAM, however the CPU accessing GPU memory peaks out just past 12MiB/s.

share|improve this answer
    
"Floating integers"? –  Thomas Nov 24 '09 at 10:46
    
I suppose you're right about GPUs still being restricted in a sense. But I've been going through all those papers on GPGPU and there is so much you could do with them, and yet many games seem to limit using GPU for rendering and possibly physics. This is probably because they'd rather have the GPU busy rendering over anything else, but it's still interesting to see how much you could do without the CPU, even if it doesn't give you optimal utilization. –  nwosh Nov 24 '09 at 10:54

The approach you may be looking for is called "GPGPU" for "General Purpose GPU". Good starting points may be:

Rumors about spectacular successes in this approach have been around for a few years now, but I suspect that this will become everyday practice in a few years (unless CPU architectures change a lot, and make it obsolete).

The key here is parallelism: if you have a problem where you need a large number of parallel processing units. Thus, maybe neural networks or genetic algorithms may be a good range of problems to attack with the power of a GPU. Maybe also looking for vulnerabilities in cryptographic hashes (cracking the DES on a GPU would make a nice thesis, I imagine :)). But problems requiring high-speed serial processing don't seem so much suited for the GPU. So emulating a GameBoy may be out of scope. (But emulating a cluster of low-power machines might be considered.)

share|improve this answer
1  
DES has almost certainly already been cracked on a GPU. –  Georg Schölly Nov 24 '09 at 11:19

I don't care if it's already been done, for me the thesis is more of an opportunity to learn about things in depth and to do substantial work on my own.

Then your idea of what a thesis is is completely wrong. A thesis must be an original research. --> edit: I was thinking about a PhD thesis, not a master thesis ^_^

About your question, the GPU's instruction sets and capabilities are very specific to vector floating point operations. The game logic usually does little floating point, and much logic (branches and decision trees).

If you take a look to the CUDA wikipedia page you will see:

It uses a recursion-free, function-pointer-free subset of the C language

So forget about implementing any AI algorithms there, that are essentially recursive (like A* for pathfinding). Maybe you could simulate the recursion with stacks, but if it's not allowed explicitly it should be for a reason. Not having function pointers also limits somewhat the ability to use dispatch tables for handling the different actions depending on state of the game (you could use again chained if-else constructions, but something smells bad there).

Those limitations in the language reflect that the underlying HW is mostly thought to do streaming processing tasks. Of course there are workarounds (stacks, chained if-else), and you could theoretically implement almost any algorithm there, but they will probably make the performance suck a lot.

The other point is about handling the IO, as already mentioned up there, this is a task for the main CPU (because it is the one that executes the OS).

share|improve this answer
    
This article: cs.indiana.edu/mit.research.how.to/section3.11.html about MIT AI lab suggests that: "It is not a requirement that you extend the state of the art, nor that the Master's thesis be publishable.", the head of our CS program and my advisor echoed similar thoughts. I'm not planning to go into academia or get a phD. I'm getting a master's degree to learn more. Thank you for you answer, I haven't thought about these limitations of GPU's, although when I implemented A* it didn't have to be recursive, but I do get your point. –  nwosh Nov 24 '09 at 11:33
    
Hmm... you were talking about your master thesis? Sorry, I thought you were already preparing the ground for a PhD thesis ^_^ –  fortran Nov 24 '09 at 11:40

I would think a project dealing with a game architecture that targets multiple core CPUs and GPUs would be interesting. I think this is still an area where a lot of work is being done. In order to take advantage of current and future computer hardware, new game architectures are going to be needed. I went to GDC 2008 and there were ome talks related to this. Gamebryo had an interesting approach where they create threads for processing computations. You can designate the number of cores you want to use so that if you don't starve out other libraries that might be multi-core. I imagine the computations could be targeted to GPUs as well. Other approaches included targeting different systems for different cores so that computations could be done in parallel. For instance, the first split a talk suggested was to put the renderer on its own core and the rest of the game on another. There are other more complex techniques but it all basically boils down to how do you get the data around to the different cores.

share|improve this answer

It is viable to do a masters thesis on a subject and with tools that you are, when you begin, unfamiliar. However, its a big chance to take!

Of course a masters thesis should be fun. But ultimately, its imperative that you pass with distinction and that might mean tackling a difficult subject that you have already mastered.

Equally important is your supervisor. Its imperative that you tackle some problem they show an interest in - that they are themselves familiar with - so that they can become interested in helping you get a great grade.

You've had lots of hobby time for scratching itches, you'll have lots more hobby time in the future too no doubt. But master thesis time is not the time for hobbies unfortunately.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.