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I'm pretty new in using R. I'm trying to use dcor (distance correlation) on row pairs of a matrix by outer function. My code works for small test matrix (100x100) but I tried to apply it on the real one (5000 x 700), and it is taking more than a week without giving me a result. Is it normal? Any advice to get a result in a faster way?

the code is:

library(energy)
outer (1:n, 1:n, FUN=Vectorize (function (i,j) dcor (a[i,], a[j,])))

n is the number of rows of the matrix.

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What kind of object is a? Do you have sufficient physical RAM? – Roland Dec 20 '12 at 13:27
    
yes, my RAM is enough. "a" is the matrix from which I need to take the row pairs. – Gabelins Dec 20 '12 at 13:28
    
Which package is dcor in? – Roland Dec 20 '12 at 13:29
1  
By using outer you are doing redundant calculations, since the upper and lower triangular part of the result are the same. You should calculate unique combinations of row numbers and only loop through those. Furthermore, you can optimize dcor. The function does a lot of calculations, which are redundant in your loop (eg., nrow(x)). – Roland Dec 20 '12 at 13:44
1  
or just loop (or *apply) over dependent indices: for (i in 1:N) {for (j in 1:i) {your dcoR work here} } – Carl Witthoft Dec 20 '12 at 14:26
up vote 1 down vote accepted

Look at the math: dcor(X, Y) does

  1. compute something expensive on X alone (those A_kl) and Y alone (those B_kl)
  2. do something inexpensive with the results of 1) and 2)

When you are calling dcor with every combination (pair) of rows from your data, the first expensive step is called over and over: for each row, the same A_kn is computed a total of 2*n times (or n times if you used a smarter double loop as suggested.) although you really need it to compute it once.

Conclusion: you'll be way better off writing your own algorithm:

  1. for each row of your data, compute A_kl
  2. write a function that does the last step of the dcor function: take A_kl and B_kl as inputs and returns the distance correlation,
  3. call that function through outer or a double loop as suggested.

Note that each A_kn is a matrix of dimension 700-by-700 and you would have 5000 of them, so you might have to opt for a suboptimal algorithm that strikes a balance between speed and memory usage.

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Thank you for help....I'll try! even if is not that easy for me! – Gabelins Dec 21 '12 at 10:13

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