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I've been working on a physics simulations requiring the generation of a large amount of random numbers (at least 10^13 if you want an idea). I've been using the C++11 implementation of the Mersenne twister. I've also read that GPU implementation of this same algorithm are now a part of Cuda libraries and that GPU can be extremely efficient at this task; but I couldn't find explicit numbers or a benchmark comparison. For example compared to an 8 cores i7, are Nvidia cards of the last generations more performant in generating random numbers? If yes, how much and in which price range?

I'm thinking that my simulation could gain from having a GPU generating a huge pile of random numbers and the CPU doing the rest.

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    try it and see? there are so many gpus and cpus around that will vary in their speeds... – PlasmaHH Jan 7 '14 at 11:39
  • It probably depends on the algorithm... – Mine Jan 7 '14 at 11:40
  • @PlasmaHH : Unfornutanely I don't have any Nvidia card at disposition and I can't, unfortunately again, spend money without knowing what to expect – Liam Jan 7 '14 at 11:41
  • @Mine: I'm only looking for comparision data between both Mersenne twister random number generation, the one inside the <random> library on the CPU side and the implementation already part of the Cuda library on the GPU side. – Liam Jan 7 '14 at 11:43
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    One key aspect is what will you do with the random numbers? If you need them in the CPU memory, no matter how fast the generation on the GPU is, the transfer time might render the approach uneffective. – damienfrancois Jan 7 '14 at 11:52
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Some comparisons can be found here: https://developer.nvidia.com/cuRAND

  • Right, definitely what I was looking, sadly they don't compare it to the default c++11 random number generator. Still, I'm pretty sure that I had already found a page giving the # of random number generated / s for different CPUs, if I manage to find it back I may complete this thread. Thank you again ;) – Liam Jan 8 '14 at 12:06
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If you have a new enough Intel CPU (IvyBridge or newer), you can use the RDRAND instruction.

This can be used via the _rdrand16_step(), _rdrand32_step() and _rdrand64_step() intrinsic functions.

Available via VS2012/13, Intel compiler and gcc.

The generated random number is originally seeded on a real random number. Designed for NIST SP 800-90A compliance, its randomness is very high.

Some numbers for reference:

On an IvyBridge dual core laptop with HT (2.3GHz), 2^32 (4 Gigs) random 32bit numbers took 5.7 seconds for single thread and 1.7 seconds with OpenMP.

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    How this answers the OP's question? – JackOLantern Jan 7 '14 at 12:19
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    It's an alternative and fast solution for generating random numbers. This was the essence of the question - how to generate numbers fast. If the OP thinks it's irrelevant, I'll delete the answer – egur Jan 7 '14 at 13:43
  • That's interesting egur. I though this was only available with Broadwell but that's for RdSeed. I don't really know the difference. – Z boson Jan 7 '14 at 16:14
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    @Liam It's 2 core 4 threads (Hyperthreading). Not as fast as 4 cores, but much better than 2 cores. Aren't you looking for a fast random number generator? – egur Jan 8 '14 at 10:19
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    On my tests, std::mt19937 is about 100 times faster than RDRAND on a tight loop. – lvella Nov 6 '14 at 1:43

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