I would like to start a project over the holidays using CUDA or OpenCL to do some image processing and machine learning/artificial intelligence on a GPU. Eventually, I would like for this to go into the body of a roughly cat-sized toy. Any ideas about a small form factor SBC (single board computer) or embedded system that contains both a processor and GPU that I can easily get up and running? I first looked at the Raspberry Pi and the BeagleBoard, but neither of these contain a GPU. Any ideas? I would very much appreciate some help here. I have very little knowledge of the embedded GPU market.
Robot_sherrick has asked a very specific question about the availability of small form factor GPGPU solution Unfortunately I don't know of any smaller than the CARMA board (or AMD equivalent). He has not asked for an unfounded lengthy rant based on incorrect assumptions.
I will try to reply to your question with a little intro to this "new" approach to the computing world.
First thing to know it's that OpenCL and Cuda are different technologies mainly because of their own design, OpenCL is designed to offer a set of C APIs and abstract the hardware layer into something like a computing layer, what matter it's not the fact that you are dealing with a CPU, GPU or a dedicated card for computing OpenCL or a smartphone, but what is the OpenCL version supported by your hardware and the level of API that your machine can offer, in the OpenCL design CPU and GPU are working in the same way and you can ask to compute the same thing to both of them, or only 1 of them, they are on the same layer and they are the same thing.
Cuda it's the Nvidia way to recycle things, it's just a shader basically, it's a framework for general computing that uses the shader units as executors. It's easier to write Cuda code because of the limited design and the predictable destination of the code ( a GPU maded by Nvidia who also produce the framework ... ), you can find a lot of people that prefers Cuda over OpenCL because of this, arguing some kind of superior abilities for the Nvidia framework, but the thing is that it's just cheaper, a lot cheaper and less fragmented. In other words you apparently got a more predictable behaviour with a shorter testing/coding/building phase.
To summarize you can write OpenCL code that can run on CPU, GPU, smartphones ( ARM devices ), dedicated server farms, and every hardware that is just capable of running OpenCL since this is a real industry standard, with a clean design and a layer of abstraction. Cuda code will only run on a limited and selected portfolio of products from Nvidia, which basically means GPUs, it's not portable on anything that it's not chosen by Nvidia.
The main pitfall about this technologies it's that everything, the "coolness", the abstracted layer that OpenCL offers and the pseudo-computing layer by Nvidia, relies on the same thing, the entire castle it's supported and driven by the drivers, the software package that everyone installs on his own machine to have things up and running.
That's why I'm saying that in my opinion this kind of technologies will probably never experience a big success, and if you think that only 1 point it's not enough to discard an entire package like OpenCL or Cuda ( well Cuda is also not portable ) I should remind the fact that I have started using a pc when the main manufacturer of GPUs were the 3Dfx and the Matrox, I still can't find a good OpenGL driver or just a good driver for any of my ATI or Nvidia video cards of today, many of the modern GPUs are just overpriced heaters with really bad drivers. Also if you are willing to pay the price of really not-so-optimized drivers, even when you pay for your pc a price with 3 zeros, there is another thing to consider, what is called a predictable and consistent behaviour: since you are relying on the drivers, you are basically coding something that you don't know how it will perform.
You sell your code or your program, the user updates his drivers to a buggy version that will be updated only in 1-2 months ( if everything goes right ) and you have just realized the best sh*t in the computing world, also you have wasted your time testing because every driver can behave really differently based on every OS, GPUs, chipset and version out there. Good luck with solving your problems, because the user thinks that his own 400$ GPU is the best in the world ( even if it has installed the same shi**y drivers of the 50$ version ) and the only thing that doesn't work it's your application.
And I'm not considering platforms like Linux where words like "inconsistent behaviour" are like a daily experience with any brands out there.
If you really want to bet on this kind of technologies you have 2 possible choices, realistically speaking:
But the more you think about that, the better the multithreaded approach will appear, because it's just better on every side and i think it's the only real way for getting more from your hardware.
I see a lot of people playing with particles and stuff with OpenCL, but no real applications, not even real libraries that can be really interesting, that's because OpenCL is fragmented, with unpredictable behaviour, not well supported by the drivers, and expensive.
In a world where the brands can offer a decent level of quality for their drivers, this technologies will make sense, but with this kind of support and level of quality, really everything boils down to the marketing and the 1 more extra label to put on the box.
There are also things that can contribute to eliminate this 2 technologies from the list, many thinks that having a good GPU it's enough, but in reality it's not, because a GPU it's often the piece of hardware with the largest bandwidth in your PC, or it's likely to be one the biggest producer of bits, so to handle this huge stream of data you need a really good chipset, which is another thing that it's really hard to predict at both performance level and quality of the drivers, and it's also really hard to picture an average pc configuration that you can target and expect a good and stable behaviour.
You also do not want to trust the quality of the drivers because it's a well know fact that there are contracts about driver development on particular platforms signed by brands and companies to improve or dedicate a particular attention to a specific OS/brand. Nevertheless drivers are also used in the marketing as last resource to "magically" improve the GPUs performances. It's just an arms race where you can't win if you are not a big company.
In the end i think that studying OpenCL can be interesting, Cuda has not that much to say ( just use it as any other framework ), but the thin line between something that can only be used to show off and a large production scale adoption it's really thin, and requires a consistent amount of resources and know-how. I would only bet on multi-threading for now.
The only one I know of is here: http://www.seco.com/en/item/seconitx-ion/
Sorry if I missed your holidays ;)
You are probably looking for Parallela, from Adapteva.
Samsung has released their Arndale board, which features the ARM Mali T604, which has OpenCL support. It's advertised at $250, so it's certainly cheaper than the CARMA boards @tera mentioned, but from what I've seen, they're sold out. It also seems to be a bit larger than you were hoping for (36.00cm x 24.00cm x 7.00cm), but that seems to include the base board, which you may not need.
Here's a blog post announcing the T600 line. Sadly, this is the only board I've found with a Mali T600, but there may be more on the way, since it was just announced last year.