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I'm having trouble using the #pragma omp parallel for

Basically I have several hundred DNA sequences that I want to run against an algorithm called NNLS.

I figured that doing it in parallel would give me a pretty good speed up, so I applied the #pragma operators.

When I run it sequentially there is no issue, the results are fine, but when I run it with #pragma omp parallel for I get a segfault within the algorithm (sometimes at different points).

#pragma omp parallel for
for(int i = 0; i < dir_count; i++ ) {

  int z = 0;
  int w = 0;
  struct dirent *directory_entry;
  char filename[256];

  directory_entry = readdir(input_directory_dh);

  if(strcmp(directory_entry->d_name, "..") == 0 || strcmp(directory_entry->d_name, ".") == 0) {

  sprintf(filename, "%s/%s", input_fasta_directory, directory_entry->d_name);

  double *count_matrix = load_count_matrix(filename, width, kmer);

  //normalize_matrix(count_matrix, 1, width)
  for(z = 0; z < width; z++) 
    count_matrix[z] = count_matrix[z] * lambda;

  // output our matricies if we are in debug mode
  printf("running NNLS on %s, %d, %d\n", filename, i, z);
  double *trained_matrix_copy = malloc(sizeof(double) * sequences * width);
  for(w = 0; w < sequences; w++) {
    for(z = 0; z < width; z++) {
      trained_matrix_copy[w*width + z] = trained_matrix[w*width + z];

  double *solution = nnls(trained_matrix_copy, count_matrix, sequences, width, i);

  normalize_matrix(solution, 1, sequences);
  for(z = 0; z < sequences; z++ )  {
    solutions(i, z) = solution[z]; 

  printf("finished NNLS on %s\n", filename);


gdb always exits at a different pint in my thread, so I can't figure out what is going wrong.

What I have tried:

  • allocating a copy of each matrix, so that they would not be writing on top of eachother
  • using a mixture of private/shared operators for the #pragma piece
  • using different input sequences
  • writing out my trained_matrix and count_matrix prior to calling NNLS, ensuring that they look OK. (they do!)

I'm sort of out of ideas. Does anyone have some advice?

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up vote 2 down vote accepted

Solution: make sure not use static variables in your function when multithreading (damned f2c translator)

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Defining "#pragma omp parallel for" is not going to give you what you want. Based on the algorithm you have, you must have a solid plan on which variables are going to shared and which ones going to private among the processors.

Looking at this link should give you a quick start on how to correctly share the work among the threads.

Based on your statement "I get a segfault within the algorithm (sometimes at different points)", I would think there is a race condition between the threads or improper initialization of variables.

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from what I understand, variables declared locally are automatically private. Even adding shared(trained_matrix) doesn't solve the problem. Thank you for the quick-sheet it's really awesome! – MutantTurkey Apr 29 '13 at 22:43

Function readdir is not thread safe. To quote the Linux man page for readdir(3):

The data returned by readdir() may be overwritten by subsequent  calls  to  readdir()
for the same directory stream.

Consider putting the calls to readdir inside a critical section. Before leaving the critical section, copy the filename returned from readdir() to a local temporary variable, since the next thread to enter the critical section may overwrite it.

Also consider protecting your output operations with a critical section too, otherwise the output from different threads might be jumbled together.

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gdb does not indicate that the error is within readdir, and the files are getting read properly, the error is actually within the algorithm call – MutantTurkey Apr 30 '13 at 18:49

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