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Does CUDA support recursion?

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Note that all loops involve recursion, and tail recursion doesn't/shouldn't involve a recursive function call. – Potatoswatter Sep 6 '10 at 8:35
See here for more information – Alex L Oct 13 '12 at 10:57

10 Answers 10

up vote 31 down vote accepted

It does on NVIDIA hardware supporting compute capability 2.0 and CUDA 3.1:

New language features added to CUDA C / C++ include:

Support for function pointers and recursion make it easier to port many existing algorithms to Fermi GPUs

Function pointers:

Recursion: I can't find a code sample on NVIDIA's website, but on the forum someone post this:

__device__ int fact(int f)
  if (f == 0)
    return 1;
    return f * fact(f - 1);
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Having "recent" hardware is not enough. Not all recent cards are Fermi (aka compute capability 2.0). At present, there are no Fermi mobile GPUs. – Mark Borgerding Sep 7 '10 at 14:38
You're right, I updated my anwser. But what about Geforce GTX 480M? There's a Fermi chip inside. – Stringer Sep 7 '10 at 15:06
There are laptops with Fermi; Geforce 480M and Quadro FX5000M have been out for a little while. – Tom Sep 9 '10 at 8:53
Indeed. And new GeForce GT 415M, 420M, 425M, 435M, 445M and GTX 460M, 470M are coming! All have compute capability 2.0. – Stringer Sep 9 '10 at 9:07
I don't think these are real recursive calls, since nvcc inlines every function marked device by default. However the result is the same. – jopasserat Apr 11 '11 at 15:36

Yes, see the NVIDIA CUDA Programming Guide:

device functions only support recursion in device code compiled for devices of compute capability 2.0.

You need a Fermi card to use them.

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In CUDA 4.1 release CUDA supports recursion only for __device__ function but not for __global__ function.

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Even though it only supports recursion for specific chips, you can sometimes get away with "emulated" recursion: see how I used compile-time recursion for my CUDA raytracer.

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Very useful! Kudos – Min Lin Dec 30 '13 at 12:24
I think this generates faster codes than real recursion. – Min Lin Dec 30 '13 at 12:25
@Min Lin: Ahh, but how come my comment is still at 1, then? You owe me an upvote! :-) – ttsiodras Feb 10 '14 at 10:43
It is mine, it's 0 before – Min Lin Feb 11 '14 at 1:18
I was just joking! Thanks :-) – ttsiodras Feb 11 '14 at 13:11

Only after 2.0 compute capability on compatible devices

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Any recursive algorithm can be implemented with a stack and a loop. It's way more of a pain, but if you really need recursion, this can work.

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CUDA 3.1 supports recursion

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you have a example? – JuanPablo Sep 6 '10 at 15:26

Sure it does, but it requires the Kepler architecture to do so. Check out their latest example on the classic quick sort.

As far as i know, only latest Kepler GK110 supports dynamic parallelism, which allow this kind of recursive call and spawning of new threads within the kernel. Before Kepler GK110, it was not possible. And note that not all Kepler architecture supports this, only GK110 does.

If you need recursion, you probably need the Tesla K20. I'm not sure if Fermi does supports it,never read of it. :\ But Kepler sure does. =)

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If your algorithm invovles alot of recursions, then support or not, it is not designed for GPUs, either redesign your algorthims or get a better CPU, either way it will be better (I bet in many cases, maginitudes better) then do recurisons on GPUs.

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Tried just now on my pc with a NVIDIA GPU with 1.1 Compute capability. It says recursion not yet supported. So its not got anything to do with the runtime but the hardware itself

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