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I'm looking to do a matrix multiply using threads where each thread does a single multiplication and then the main thread will add up all of the results and place them in the appropriate spot in the final matrix (after the other threads have exited).

The way I am trying to do it is to create a single row array that holds the results of each thread. Then I would go through the array and add + place the results in the final matrix.

Ex: If you have the matrices:

A = [{1,4}, {2,5}, {3,6}] B = [{8,7,6}, {5,4,3}]

Then I want an array holding [8, 20, 7, 16, 6, 12, 16 etc] I would then loop through the array adding up every 2 numbers and placing them in my final array.

This is a HW assignment so I am not looking for exact code, but some logic on how to store the results in the array properly. I'm struggling with how to keep track of where I am in each matrix so that I don't miss any numbers.


EDIT2: Forgot to mention that there must be a single thread for every single multiplication to be done. Meaning for the example above, there will be 18 threads each doing its own calculation.

EDIT: I'm currently using this code as a base to work off of.

#include <pthread.h>
#include <stdio.h>
#include <stdlib.h>

#define M 3
#define K 2
#define N 3
#define NUM_THREADS 10

int A [M][K] = { {1,4}, {2,5}, {3,6} };
int B [K][N] = { {8,7,6}, {5,4,3} };
int C [M][N];

struct v {
   int i; /* row */
   int j; /* column */

void *runner(void *param); /* the thread */

int main(int argc, char *argv[]) {

   int i,j, count = 0;
   for(i = 0; i < M; i++) {
      for(j = 0; j < N; j++) {
         //Assign a row and column for each thread
         struct v *data = (struct v *) malloc(sizeof(struct v));
         data->i = i;
         data->j = j;
         /* Now create the thread passing it data as a parameter */
         pthread_t tid;       //Thread ID
         pthread_attr_t attr; //Set of thread attributes
         //Get the default attributes
         //Create the thread
         //Make sure the parent waits for all thread to complete
         pthread_join(tid, NULL);

   //Print out the resulting matrix
   for(i = 0; i < M; i++) {
      for(j = 0; j < N; j++) {
         printf("%d ", C[i][j]);

//The thread will begin control in this function
void *runner(void *param) {
   struct v *data = param; // the structure that holds our data
   int n, sum = 0; //the counter and sum

   //Row multiplied by column
   for(n = 0; n< K; n++){
      sum += A[data->i][n] * B[n][data->j];
   //assign the sum to its coordinate
   C[data->i][data->j] = sum;

   //Exit the thread


share|improve this question
This has been done roughly a hundred-thousand times before. you're going to be much better off by determining the CPU core-count C on the machine, determining how many Row x Column vector multiplications are needed, dividing the latter by the former (roughly) and sending that to C threads to process independently of one another. Any modulo (extra vectors up to C-1 ) are sent as extra multiplies to the first series of threads. You will be hard-pressed to get a more efficient and simple algorithm, especially considering absolutely no locking is required whatsoever. – WhozCraig Mar 16 '13 at 1:36
Sorry, I wasn't clear. According to the assignment, there must be 1 thread for every single multiplication that must be done. Meaning, for the example matrices I gave, there will be 18 threads doing 18 multiplications. It is not meant to be efficient. It is just a HW exercise. – Kinru Mar 16 '13 at 1:40
Yeah, I assume it must be just an exercise. The concept degrades pretty quickly when you take something like A[500][800] x B[800][1000]. The larger it gets the more time you're spending starting joining threads when you could just be churning out multiplications. Ah well. Good luck! – WhozCraig Mar 16 '13 at 1:47

1 Answer 1

Not sure haw many threads you would need to dispatch and I am also not sure if you would use join later to pick them up. I am guessing you are in C here so I would use the thread id as a way to track which row to process .. something like :

#define NUM_THREADS 64
 * struct to pass parameters to a dispatched thread 
typedef struct {
  int   value;     /* thread number */
  char  somechar[128];   /* char data passed to thread */
  unsigned long ret;
  struct foo *row;
} thread_parm_t;

Where I am guessing that each thread will pick up its row data in the pointer *row which has some defined type foo. A bunch of integers or floats or even complex types. Whatever you need to pass to the thread.

 * the thread to actually crunch the row data
void *thr_rowcrunch( void *parm );

pthread_t tid[NUM_THREADS]; /* POSIX array of thread IDs */

Then in your main code segment something like :

thread_parm_t *parm=NULL;

Then dispatch the threads with something like :

for ( i = 0; i < NUM_THREADS; i++) {
    parm = malloc(sizeof(thread_parm_t));
    parm->value = i;
    strcpy(parm->somechar, char_data_to-pass );
    fill_in_row ( parm->row, my_row_data );
    pthread_create(&tid[i], NULL, thr_insert, (void *)parm);

Then later on :

for ( i = 0; i < NUM_THREADS; i++)
    pthread_join(tid[i], NULL);

However the real work needs to be done in thr_rowcrunch( void *parm ) which receives the row data and then each thread just knows its own thread number. The guts of what you do in that dispatched thread however I can only guess at.

Just trying to help here, not sure if this is clear.

share|improve this answer
Could you share your actual input data for the matrix multiply? I am actually interested in this problem even if just for my own reasons. I would like to work out a neatly threaded solution, perfectly worthwhile way to have a coffee and code up a solution. – paul lanken Mar 16 '13 at 1:50
The actual input data is variable. For the assignment we need to do some file I/O to read in the matrices and then output the result. Not really relevant to my question. Since the code should not matter depending on the matrices, I have been using the example I gave in my original post to try and get this to work. – Kinru Mar 16 '13 at 1:51

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