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This is more of a general question for directions rather than an exact question with an exact answer, so please forgive me in advance. I have a lot of experimental data in a text file as follows:

AXEKJD    1.2    3.1    6.3    2.5  ....
AXEKJE    0.45   9.11  12.453  1.1  ....
AXEKJF    2.55   1.31   1.4    0.1  ....

The files can be as big as 200,000 rows, each with 200+ data points (columns). I need to run operators between each row (variable) with every other row for statistical values of inference, such as calculating Pearson correlation coefficients and mutual information. I have code to do this using CUDA and Thrust already, and it works well with files of 2,000 rows and 80 data points per row; however, I would like to scale my code up to handle at least 2 orders of magnitude more data. So here are my questions:

1) How to scale this well with the number of CUDA cards on the system? Currently, my system has two C2070 Tesla cards. How do I utilize both cards well, given that I want to do an compare each row of data with each other row (N-by-N type computation)? I am also considering the data exchange between the two CUDA sessions, and the situation in which there are more than two cards and each card may be a different model. Thus I am looking for a software design pattern that can smartly determine the number of cards, the memory limitations of each, and take this into consideration as it passes the text data into the cards for computation (keep in mind that for mutual information calculations, I need to generate matrices for matrix multiplication, so even more memory is needed on the cards than what is imported from the data file).

2) How to scale this well with a compute cluster? The same question as above, but now with multiple machines, each with one or more CUDA cards.

Again, I'm not looking for concrete answers, but I would like to ask for existent technologies and literature (a direction) that I can reference to in order to tackle this problem of how to organize the computation and shuffle the data around appropriately, given limited space. How useful would openMP or MPI be for this problem? What about different computing/processing paradigms, like MapReduce? Can they be of help? Any help will be greatly appreciated.

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Sorry, but this is a vast, sprawling question (containing about 6 separate sub-questions) that is basically unanswerable and not a very good fit to the Stack Overflow model of Q&A. Please don't be offended if it gets closed as a result. –  talonmies Feb 19 '13 at 8:43
This is outside my area of expertise, but as a general suggestion, have you tried a literature search? For example, this paper looks like it could be of interest: Abhinav Sarjea, Srinivas Aluru. All-pairs computations on many-core graphics processors. Parallel Computing, vol 39, no 2, February 2013, pp. 79–93. –  njuffa Feb 21 '13 at 5:04

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