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We have been working on a new project lately and we generate around 20gio of data per seconds, that we have now to analyse, and I was assign the task of choosing the right GPU card working with CUDA.

I directly came across the NVDIA tesla K10, and we are willing to buy 2 of them, however, I'm not sure this really fits to our needs and I needed some advices. The data we are analysing are strings that are generated from weather data. One part of the project will be simple string operations and will eventually include search(NFAs - DFAs) while the second part will have to generate a map of those "strings" in real time, while analysing.

We were thus wondering if the Nvidia Tesla K10 (or K20, we can wait for a bit) will be suited to this operations.

Jack

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If it was me, I would buying 6 GeForce Cards instead of 2 Tesla. –  ahmad Oct 17 '12 at 18:12
    
K10 may be a reasonable choice based on your brief description. For codes that don't require double-precision floating point, K10 has ~ twice the capability (ballpark) of M2075 or M2090, partly because K10 has two GPUs per board. You'll need to be able to take advantage of more than one GPU, but it seems like you're thinking that way if you're considering two K10s. May also want to check with your preferred server OEMs to see what configurations they offer. K and M series require the GPU to be properly integrated into the server, you can't just buy these and plug them into a desktop system. –  Robert Crovella Oct 17 '12 at 19:15
    
Hi, Thanks for the replies, Ahmad, why would you use 6 GeForce cards instead of 1 Tesla ? and @Robert thank you for the brief description, we are planning of buying a SuperWorkstation from supermicro. However are you sure the K20 wouldn't be an advantage ? or is it simple using double precision ? and finally do you have any idea how to check that it will anyway be able to compute about 20gio of data/s (is there a way of knowing it ?) –  Anoracx Oct 17 '12 at 20:29
    
Sure, K20 would be a great choice also. Ahmad is suggesting 6 GeForce cards instead of 2 Tesla because of price. But there's more to consider than just price. I have no way to check if the GPUs are up to the processing task without understanding a lot more about your intended codes, or putting together a proof-of-concept system. You should be able to do some rough calculations if you can estimate the number of operations required per data element, then run a rough POC code on the GPU to see what efficiency you get compared to peak, and use that to see if it will fit for the stream. –  Robert Crovella Oct 18 '12 at 4:16
    
btw, has supermicro told you that you can put a K10 (or K20) in a superworkstation? I'd be surprised if they said yes. If it's supermicro I think you need to look at their superserver line. –  Robert Crovella Oct 18 '12 at 4:20

1 Answer 1

I am actually quite worried that your task is not suited for GPU. You are saying "20gio of data per seconds" -- do you mean 20GB/s? The problem is, PCIe x3 connection (to which the GPU is plugged into) can work at most at 8GB/s (64Gb/s). And there is also some latency in mind...

If the data can be processed locally and there is not much communication needed between threads processing different chunks of your data, you may be able to solve this by plugging several GPUs, but I would think about 3 at least. You may also want to check the limitation of the GPU itself, I am talking about the limitation of the PCIe connection only here...

Finally, make sure that your problem can be solved using heavily parallel machine, executing about 10000 threads at once (and chunks of threads (around 32) should read more-or-less from the same piece of memory, not random!). While searching for strings seems somewhat appropriate (although not very compute intensive), I am worried about mapping. If you have one global map where you add your elements, it won't work.

Ultimately, I think what you are doing can be done, but you will need to carefully redesign your algorithms. Copy-pasting your CPU code won't crunch this problem.


Edit: I feel the PCIe may be the main bottleneck for your task. Because of that I would suggest exploring some good multithreaded, SIMD algorithms for CPU as well. If CPU is found to be not powerful enough you can always go for hybrid CPU+GPU for extra performance boost (hence your work won't be wasted)

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Hi, Thank you for your reply. Yes, it's 20GB/s but since PCIe3 is 16GB/s fullduplex I can imagine that at the best speed I should be able to transfer 32GB/s of data. So Since we have no exact idea how to compute the data, we decided to ask to community, and see wether it was possible or not to perform it with a K10 or K20 card. For the mapping we believe that there are some workarounds to be able to map everything on one global map (but we are not quiet there, and still thinking about the way of doing it) –  Anoracx Oct 17 '12 at 21:49
    
The realizable throughput in one direction on PCIe x16 Gen3 is about 11-12GB/s. The bigger question may be ingest. How will you get 10GB/s into a single box? Dual QDR Infiniband is not up to that task on a sustained basis. Dual FDR Infiniband possibly, but that is pretty exotic at the moment. And if you mean 20GB/s (160Gb/s) coming into the box, good luck with that. CygnusX1 is correct. There are a lot of things to consider here. I don't think you've supplied enough details to make headway. –  Robert Crovella Oct 18 '12 at 4:12
    
16GB/s fullduplex - doesn't it mean that you can upload 16GB/s and at the same time download 16GB/s? –  CygnusX1 Oct 18 '12 at 7:10
    
Actually, previously we used an algorithm running on CPU, but it was really slow, so we decided to split up in two teams to explore FPGAs and GPUs. But basically that's true, we could reduce the amount of data being analysed by two, and say about 10GB/s to avoir the PCIe3 limitations of (theoretical) 16GB/s. If we did it with NICs we could have 3 dual 10Gbe/s and obtain about 7.5GB/s of data that we could transfer to CUDA (at some point). –  Anoracx Oct 18 '12 at 11:17

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