Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've a code that works perfectly for my purpose (it reads some files with a specific pattern, read the matrix within each file and compute something using each filepair...the final output is a matrix that has the same size of the file number) and looks like this:

m<- 100
output<- matrix(0, m, m)

lista<- list.files(pattern = "q")
listan<- as.matrix(lista)
n <- nrow(listan)

for (i in 1:n) {    
AA    <- read.table((listan[i,]), header = FALSE)
A<- as.matrix(AA)
dVarX <- sqrt(mean(A * A))

 for (j in i:n) {
    BB <- read.table ((listan[j,]), header = FALSE)
    B<- as.matrix(BB)
    V <- sqrt (dVarX * (sqrt(mean(B * B))))
    output[i,j] <- (sqrt(mean(A * B))) / V        

My problem is that it takes a lot of time (I have about 5000 matrixes, that means 5000x5000 loops). I would like to parallelize, but I need some help! Waiting for your kind suggestions!

Thank you in advance!


share|improve this question
Touching the disk is slow. Think about how many times you're reading in each matrix from the disk. Why not do that only once per matrix? –  joran Feb 5 '13 at 17:30
possible duplicate of stackoverflow.com/questions/14316203/parallelize-a-r-code –  Arun Feb 5 '13 at 17:32
To add to the comment by @joran, The Memory usage section of ?read.table explicitly says, "Use scan instead for matrices." –  Joshua Ulrich Feb 5 '13 at 17:38
...and that's just the reading from disk part. You're also duplicating the calculation of sqrt(mean(B*B)) for each matrix. Parallelizing code this inefficient is like trying to speed up your commute to work by running from your house to your car instead of walking. –  joran Feb 5 '13 at 17:44
@joran you're right!!..but i'm very new in using R (started before christmas!) and programming...that's the reason why I need a lot of help! Anyway, I worte a command able to read each matrix from the disk only once creating a list...but the list was too big for my RAM (12GB) made by 5000 matrixes. The command was done with llply. –  Gabelins Feb 6 '13 at 10:44

1 Answer 1

up vote 4 down vote accepted

The bottleneck is likely reading from disk. Running code in parallel isn't guaranteed to make things faster. In this case, multiple processes attempting to read from the same disk at the same time is likely to be even slower than a single process.

Since your matrices are being written by another R process, you really should save them in R's binary format. You're reading every matrix once and only once, so the only way to make your program faster is to make reading from disk faster.

Here's an example that shows you how much faster it could be:

# make some random data and write it to disk
for(i in 0:9) {
  m <- matrix(runif(700*700), 700, 700)
  f <- paste0("f",i)
  write(m, f, 700)              # text format
  saveRDS(m, paste0(f,".rds"))  # binary format

# initialize two output objects
m <- 10
o1 <- o2 <- matrix(NA, m, m)

# get list of file names
files <- list.files(pattern="^f[[:digit:]]+$")
n <- length(files)

First, let's run your your code using scan, which is already a lot faster than your current solution with read.table.

  for (i in 1:n) {    
    A <- scan(files[i],quiet=TRUE)

    for (j in i:n) {
      B <- scan(files[j],quiet=TRUE)
      o1[i,j] <- sqrt(mean(A*B)) / sqrt(sqrt(mean(A*A)) * sqrt(mean(B*B)))
#    user  system elapsed 
#   31.37    0.78   32.58

Now, let's re-run that code using the files saved in R's binary format:

  for (i in 1:n) {    
    fA <- paste0(files[i],".rds")
    A <- readRDS(fA)

    for (j in i:n) {
      fB <- paste0(files[j],".rds")
      B <- readRDS(fB)
      o2[i,j] <- sqrt(mean(A*B)) / sqrt(sqrt(mean(A*A)) * sqrt(mean(B*B)))
#    user  system elapsed 
#    2.42    0.39    2.92

So the binary format is ~10x faster! And the output is the same:

# [1] TRUE
share|improve this answer
Thank you so much for the code and all the clear and useful explanations. Really appreciated!! –  Gabelins Feb 11 '13 at 16:59

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.