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I'm looking for an implementation of the Inverse Incomplete Beta Function, possibly already written in C++ or easy to implement myself. However, I need it to be FAST! As in, I'm going to be running this in the inner loop of an optimizer, so it would hopefully take under a couple hundred clock cycles.

There are already a couple of threads here, but in this case I'm willing to throw away a lot of accuracy for speed. Also, the domain is somewhat restricted, as I'm only using integer values for a and b.

More background on the problem: I'm giving an integer number of trials n and an integer k <= n of these trials that were successful. I'm assuming that the background distribution for the underlying probability of a successful trial is uniform in [0,1], so given that i've seen some number of trials and successes my posterior distribution should be a beta distribution. In a Bayesian model I'm essentially trying to find the pth percentile of likely underlying probabilities.

Again, I don't need this to be extremely accurate, just fast. I can deal with up to +/- 1% inaccuracy. However, it can't be extremely inaccurate for small numbers: my inputs range from nearly zero to tens of thousands.

Thanks in advance! If any clarification is needed let me know.

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1 Answer 1

  1. One approach is to make a table. If you need to differentiate you'll need to interpolate it. This is probably only an alternative for you if you keep all but one of the parameters fixed, but I think you do? (OP says no)

    You may want to make the table binning non-linear to get a good accuracy at low x as you asked for. Try bin size proportional to x, x^2 etc.

  2. Use a simple search method such as to find your value as function of a power expansion of the (non inverse) incomplete beta function. . This works only if it is monotonous.

  3. First make sure you actually need to make your own method. Perhaps try these first?

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thanks for the +1 but I got my first version completely wrong. Also read… –  Johan Lundberg Jan 21 '12 at 21:01
Unfortunately I don't. I'm able to keep p fixed if I need to, but the alpha and beta arguments are going to be changing for every call. –  WWGaussDo Jan 21 '12 at 21:02

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