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How and where are GPUs used in scientific simulations (esp. in astrophysics/cosmology)?

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migrated from physics.stackexchange.com Aug 14 '11 at 19:38

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closed as not constructive by talonmies, Kev Aug 14 '11 at 22:34

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@Kev: Given that I agreed with David (both mods on Physics.SE), would you care to comment on what we should have done with this? Would moving to Programmers have been better? –  dmckee Aug 15 '11 at 16:06
    
@dmckee - The problem is that it's open-ended and will result in a list/poll/extended discussion....which as we know are off limits. But if you think this is wrong then post a question on Meta Stack Overflow for clarification. –  Kev Aug 15 '11 at 16:42

3 Answers 3

up vote 4 down vote accepted
  1. Take a look at NVIDIA CUDA showcase. First two applications mentioned are astronomy/astrophysics.
  2. Astrophysics tag on GPGPU.org
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first link is broken –  Shep May 22 '12 at 20:01

It's quite a new field, but I've seen an application in astrophysics once.

Generally GPUs can be used for parallelizable calculations (per pixel or per event), with simple C-compatible (not object oriented) routines, e.g. fourier trafo, histograms, etc

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"I've seen an application in astrophysics once" - what was it? –  mtrencseni Aug 14 '11 at 18:59
    
this one - cosmic ray moon shadow seen by IceCube - the application of GPUs is rather down to earth, likelihood calculation –  troyaner Aug 14 '11 at 19:20
    
Thanks for the link! –  mtrencseni Aug 14 '11 at 19:27

The simulation in Physics usually needs to consider thousands/millions of particles in cosmology and astrophysics, in Electromagnetic (e.g. in the light propagation g-search "+fdtd +gpu") and fluid simulations, in biological contexts, atmosphere, etc. The GPU can harness the parallelism that is present in the universe. The hardware and the software are ready (g-search Open-CL, CUDA). You can have a supercomputer in your desk. In almost all simulations we can use parallel reasoning: define how to model the response of one component and apply to all components propagating the interactions in time steps.

see my PSE-answer here to see a nice picture where my GPU(300 processors) was used to simulate gravitacional interactions using direct N-Body code.

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