I'm writing a code that does N X N matrix multiplication using thread level parallelism.

To get C = A X B,

first I transposed matrix B, divided matrices into blocks.

A thread takes a block from A and B and multiply them,

and then adds the result to the corresponding block in C.

All matrices are allocated in heap memory using malloc().

But the problem is that for the same input,

the answer is sometimes incorrect and sometimes correct.

I'm not quite sure why this happens,

but I guess the code need to be improved in terms of thread safety.

I post some part of my code.

*blocks* is the number of blocks in row and column, i.e. N / block size.

So the total number of threads is blocks^3.

```
while (thread_loaded < total_thread)
{
if (thread_count < MAX_THREAD)
{
p[thread_loaded].idx = thread_idx;
p[thread_loaded].matinfo = &mi;
threads[thread_loaded] = CreateThread(NULL, 0, matmul_tlp, &p[thread_loaded], 0, &threadid[thread_loaded]);
if (threads[thread_loaded] != NULL)
{
thread_loaded++;
thread_count++;
thread_idx += blocks;
if (thread_idx >= total_thread)
thread_idx = (thread_idx % total_thread) + 1;
}
}
}
```

for the thread function,

```
int i, j, k;
param* p = (param*)arg;
int blocks = BLOCKS;
int block_size = BLOCK_SIZE;
int Ar = p->idx / (blocks * blocks);
int Ac = p->idx % blocks;
int Br = (p->idx / blocks) % blocks;
int Bc = p->idx % blocks;
int Cr = p->idx / (blocks * blocks);
int Cc = (p->idx % (blocks * blocks)) / blocks;
double** A = p->matinfo->A;
double** B = p->matinfo->B;
double** C = p->matinfo->C;
DWORD res = WaitForSingleObject(mutex[Cr * blocks + Cc], INFINITE);
if (res != WAIT_OBJECT_0)
perror("cannot acquire mutex.");
for (i = 0; i < block_size; i++)
{
for (j = 0; j < block_size; j++)
{
for (k = 0; k < block_size; k++)
{
C[Cr * block_size + i][Cc * block_size + j] +=
A[Ar * block_size + i][Ac * block_size + k] *
B[Br * block_size + j][Bc * block_size + k];
}
}
}
ReleaseMutex(mutex[Cr * blocks + Cc]);
thread_count--;
return NULL;
```

It would be appreciated if anyone can find a hole. :)