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I have the following problem:

There are 12 samples around 20000 elements each from unknown distributions (sometimes the distributions are not uni-modal so it's hard to automatically estimate an analytical family of the distributions). Based on these distributions I compute different quantities. How can I explore the distribution of the target quantity in the most efficient (and simplest) way?

To be absolutely clear, here's a simple example: quantity A is equal to B*C/D

B,C,D are distributed according to unknown laws but I have samples from their distributions and based on these samples I want to compute the distribution of A. So in fact what I want is a tool to explore the distribution of the target quantity based on samples of the variables.

I know that there are MCMC algorithms to do that. But does anybody know a good implementation of an MCMC sampler in Python or C? Or are there any other ways to solve the problem?

Maxim

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2 Answers 2

Have you taken a look to pymc? As it says in its description: "pymc is a python package that implements the Metropolis-Hastings algorithm as a python class, and is extremely flexible and applicable to a large suite of problems" So you can use Metropolis-Hastings for obtaining a sequence of random samples.

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Yes, I've taken a look at it. Actually I use it to produce the 12 samples of variables. It's a powerful tool to make a Bayesian analysis but I haven't found a way to use its MCMC sampler for my particular problem. –  user2598356 Jul 19 '13 at 8:21
    
In that case you should reformulate your question, maybe somebody more familiar with that package might help you. –  jabaldonedo Jul 19 '13 at 8:26

The simplest way to explore the distribution of A is to generate samples based on the samples of B, C, and D, using your rule. That is, for each iteration, draw one value of B, C, and D from their respective sample sets, independently, with repetition, and calculate A = B*C/D.

If the sample sets for B, C, and D have the same size, I recommend generating a sample for A of the same size. Much fewer samples would result in loss of information, much more samples would not gain much. And yes, even though many samples will not be drawn, I still recommend drawing with repetition.

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