I have a big matrix with about 60 million rows and 150 colums (roughly 9 billion elements total). I have stored this data in a big.matrix object (from package bigmemory). Now, I wish to compute the sum of each row, which is a problem because big.matrix is column-oriented, so as far as I can tell all the summary functions are column oriented (e.g. colsum, colmax, etc.) and there is no function available by default for computing row sums. Of course I can do apply(x, 1, sum), but this will take a very long time. I can also loop over the columns one by one and use vectorized addition to add them:

mysum <- rep(0, nrow(x))
for (i in seq(ncol(x))) 
  mysum <- mysum + x[,i]

but this still takes over 20 minutes, and is obviously suboptimal since it is creating a new 60-million-element vector each time through the loop. It seems like there must be some faster way to do this.


I got this down to 10 minutes by processing chunks of a million or so rows at a time, and calling rowSums on those, and then concatenating the results. I'd still be interested to know if there is an optimized way to do this, though.

  • Does rowSums not work on it? Can you transpose and then take colsum? – MrFlick Jul 10 '14 at 22:58
  • Assuming you have numeric data, the time you indicate corresponds to a throughput of roughly 60 MB/s (72 GB data in 20 minutes = 3.6 GB per minute). Depending on where the data is stored, this may be very close to the physical limits. How long does it take to read that file (time cp file > /dev/null)? – krlmlr Jul 10 '14 at 23:04
  • It's not R's numeric type. It's a big.matrix of integers, so I believe it is stored more compactly, both on disk and in memory. the on-disk file is around 30 GB, and I don't know if it loads the whole matrix into memory when I load it. You can't operate on the whole thing at once because it has more then .Machine$integer.max elements in it. That's why I have it in a big.matrix. You can't transpose a big.matrix quickly. Like I said, the data structure is column-oriented, so transposing it would have to completely rebuild the entire data structure. – Ryan C. Thompson Jul 11 '14 at 3:40
  • You could always modify the code in the Rcpp gallery to do rowSums instead of colSums: gallery.rcpp.org/articles/using-bigmemory-with-rcpp – Scott Ritchie Jul 11 '14 at 3:41

I've written some C++ code to do this, adapted from the bigmemory Rcpp gallery:


// [[Rcpp::depends(BH)]]
#include <Rcpp.h>
using namespace Rcpp;

// [[Rcpp::depends(BH, bigmemory)]]
#include <bigmemory/MatrixAccessor.hpp>

#include <numeric>

// Logic for BigRowSums.
template <typename T>
NumericVector BigRowSums(XPtr<BigMatrix> pMat, MatrixAccessor<T> mat) {
    NumericVector rowSums(pMat->nrow(), 0.0);
    NumericVector value(1);
    for (int jj = 0; jj < pMat->ncol(); jj++) {
      for (int ii = 0; ii < pMat->nrow(); ii++) {
        value = mat[jj][ii];
        if (all(!is_na(value))) {
          rowSums[ii] += value[0];
    return rowSums;

// Dispatch function for BigRowSums
// [[Rcpp::export]]
NumericVector BigRowSums(SEXP pBigMat) {
    XPtr<BigMatrix> xpMat(pBigMat);

    switch(xpMat->matrix_type()) {
      case 1:
        return BigRowSums(xpMat, MatrixAccessor<char>(*xpMat));
      case 2:
        return BigRowSums(xpMat, MatrixAccessor<short>(*xpMat));
      case 4:
        return BigRowSums(xpMat, MatrixAccessor<int>(*xpMat));
      case 6:
        return BigRowSums(xpMat, MatrixAccessor<float>(*xpMat));
      case 8:
        return BigRowSums(xpMat, MatrixAccessor<double>(*xpMat));
        throw Rcpp::exception("unknown type detected for big.matrix object!");

In R:


m <- as.big.matrix(matrix(1:9, 3))
[1] 12 15 18
  • This looks great. If it's faster than what I've already got (it probably is) I'll accept it as the answer. – Ryan C. Thompson Jul 11 '14 at 19:01
  • I did try to create a filebacked big matrix to test it, but it ground my computer to a halt (the creation of it), so I killed it. I would be interested to see how it fares! – Scott Ritchie Jul 12 '14 at 0:16

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