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I am in the process of writing a simplified version of All Pairs N-Body simulation. I am using CUDA/OpenGL to implement the algorithm and visualize the simulation. I am assuming that all bodies are spheres of uniform radius such that the mass of each sphere is the only difference(Assume that all spheres have radius == 1). Now, I would like to know how to choose the softening factor in the equation of Acceleration? http://http.developer.nvidia.com/GPUGems3/elementLinks/680equ02.jpg

What I am thinking of is that epsilon == 2 is a good choice because it is the moment when two spheres collide in my case. Is that a reasonable choice? Is there a simple explanation of how to choose the softening factor?

I have looked at Chapter 31 of GPU Gems 3 but it doesn't say what the chosen value is and how you would choose a suitable value. I have looked at some research papers but I am unable to penetrate those academic papers on my own.

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Might this not be a better fit for the Physics SE? – Bart Mar 1 '12 at 20:59
    
An even better fit for the scientific computation SE. – DSM Mar 1 '12 at 21:01
    
2 meters? Angstroms? AU? – zmccord Mar 1 '12 at 21:01
    
@Bart I can't say for sure if the folk there would be interested in such a question mainly because the softening factor is related to limited precision I have on the numerical type(in my case double or float). Do you suggest that this is more suitable over there? – AraK Mar 1 '12 at 21:02
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I've deleted my answer in light of the excellent linked paper. For reference though: epsilon==2 is an invalid choice because 2 is a dimensionless quantity and that expression should be in terms of length. One must first convert the equations to dimensionless form before one can give a dimensionless choice for epsilon: en.wikipedia.org/wiki/Nondimensionalization – ninjagecko Mar 1 '12 at 23:37

The right softening length for a problem depends upon lots of things -- timestep, configuration, scale of the problems of interest, choice of integrator, etc. Generally speaking, if you want to suppress two-body relaxation you want some function of the Hill radius [as opposed to the physical radius, as it looks like you want to suppress the effects of close encounters, not mock up a collision.]

See Walter Dehnen's paper on the subject of choosing an optimal softening (although I'm dating myself a little by citing that; probably there are more up-to-date references).

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