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I'm looking to speed up the following algorithm. I give the function an xts time series and then want to perform a principal components analysis for each time point on the previous X points (I'm using 500 at the moment) and then use the results of that PCA (5 principal components in the following code) to compute some value. Something like this:

lookback <- 500
for(i in (lookback+1):nrow(x))
{   <- x[(i-lookback):i]        
        x.prcomp <- prcomp(
        ans[i] <- (some R code on x.prcomp)

I assume this would require me to replicate the lookback rows as columns so that x would be something like cbind(x,lag(x),lag(x,k=2),lag(x,k=3)...lag(x,k=lookback)), and then run prcomp on each line? This seems expensive though. Perhaps some variant of apply? I'm willing to look into Rcpp but wanted to run this by you guys before that.

Edit: Wow thanks for all the responses. Info on my dataset/algorithm:

  1. dim(x.xts) currently = 2000x24. But eventually, if this shows promise, it will have to run fast (I'll give it multiple datasets).
  2. func(x.xts) takes ~70 seconds. That's 2000-500 prcomp calls with 1500 500x24 dataframe creations.

I attempted to use Rprof to see what was the most expensive part of the algo but it's my first time using Rprof so I need some more experience with this tool to get intelligible results (thanks for the suggestion).

I think I will first attempt to roll this into an _apply type loop, and then look at parallelizing.

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Yep, Xapply (X='s,l,m,t' :-) ) will help. Just one thought: unless your existing for loop takes significant time to complete, don't bother. – Carl Witthoft Nov 14 '11 at 14:12
When you profile the code, what takes the most time? Moving the loop to compiled code won't help much if most of the time is spent in prcomp. Have you tried putting the loop in a function and byte-compiling it? – Joshua Ulrich Nov 14 '11 at 14:26
Or writing the inner part of the loop as a function doit(i, x) { ... } and using parallel::mclapply((lookback+1):nrow(x), doit, x) to evaluate in parallel (assuming R-2.14 and non-Windows; if the data is not too big and you're on Windows, then parallel::parSapply with some additional code might work). – Martin Morgan Nov 14 '11 at 14:58
If each PCA shares 499 out of 500 of the data points as the next one, is there much of a difference between them? Can't you just do PCA on every tenth time point? – Richie Cotton Nov 14 '11 at 17:02
How big is your matrix x? ...and how long does the whole thing currently take? – Tommy Nov 14 '11 at 19:02

1 Answer 1

up vote 2 down vote accepted

On my 4 core desktop, if this wouldn't complete in a reasonable time-frame, I would run the chunk using something along the lines of (not tested):

sfInit(parallel = TRUE, cpus = 4, type = "SOCK")
lookback <- 500
sfExport(list = c("lookback", "x"))

output.object <- sfSapply(x = (lookback+1):nrow(x),
    fun = function(i, my.object = x, lb = lookback) { <- my.object[(i-lb):i]      
        x.prcomp <- prcomp(
        ans <- ("some R code on x.prcomp")

    }, simplify = FALSE) # or maybe it's TRUE? depends on what ans is
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