I am trying to do matrix multiplication using pthreads and creating one thread for each computation of each row instead of each element. Suppose there are two matrices A[M][K],B[K][N] . Where am I going wrong ?

``````int A[M][K];
int B[K][N];
int C[][];

void *runner (void *param);

struct v
{
int i;
int j;
};

for (i = 0; i < M; i++) // It should create M threads
{
struct v *data = (struct v *) malloc (sizeof (struct v));
data->i = i;
data->j = j;
count++;
}

runner (void *param) //
{
struct v *test;
int t = 0;
test = (struct v *) param;

for (t = 0; t < K; t++)  // I want to compute it for a row instead of an element
{
C[test->i][test->j] = C[test->i][test->j] + A[test->i][t] * B[t][test->j];
}
}
``````
-
Beyond the fact that thread creation and destruction and sync will kill all performance gains here and more? :) –  Michael Dorgan Feb 14 '13 at 17:56
For the record, is this homework? If it's not, it'd be far more efficient to use inline assembly for the platform in use. As @MichaelDorgan above notes - the thread overhead is far greater than the actual computations in all likelihood. What's wrong with your code so far? Does it run/crash/segfault, or just give a bad answer? Can you give us a couple sample runs? –  Dogbert Feb 14 '13 at 17:59
BTW, where is j, struct v, K, etc. defined above? You've cut and paste not quite enough code for us to fully see what is going on here. Having just a for loop with cryptically named vars doesn't help us understand what is going on. More code plz. –  Michael Dorgan Feb 14 '13 at 18:00
I have done that . It was for creating thread for each element earlier now I am modifying it to thread to compute each row of resultant matrix . Earlier I was running loop for both rows and columns in thread creation block and now I am just running one loop of rows but I am confused how should I modify the below loop as one thread computes one row of resultant matrix –  user2073041 Feb 14 '13 at 18:10
If you already have a thread pool setup waiting for work assignment, you may get a performance bump, the likelihood increasing as the matrix size does. But as-written you'll quickly find (perhaps not so quickly) that the setup/teardown of your threads is not going to be cheap. –  WhozCraig Feb 14 '13 at 18:10