There is a reason why `memset`

can be very fast: there is no dependency on the previous value of the memory. This is not your case.

There are a few solutions for your problem. The first is to change the algorithm so you can prevent the multiplication in the first case. This is what I would be shooting for. An example is wrapping the array that multiplies an element when it is accessed.

If the multiplication in the data can not be avoided your best bet is to parallelize the multiplication, dividing the array in `n`

parts (where `n`

is equal to the amount of processors), where each part gets assigned to a thread for the multiplication. This is an example:

```
void multiply_block(double *array, const double val, const size_t len) {
int n = (len + 7) / 8;
/* duff's device */
switch (len % 8) {
case 0: do { *array++ *= val;
case 7: *array++ *= val;
case 6: *array++ *= val;
case 5: *array++ *= val;
case 4: *array++ *= val;
case 3: *array++ *= val;
case 2: *array++ *= val;
case 1: *array++ *= val;
} while(--n > 0);
}
}
void multiply_block_parallel(double *array, const double val, const size_t len) {
const int threads = get_num_processors();
int i = 0;
/* start all but the last thread */
while (i < (threads - 1)) {
start_thread(multiply_block,
array + i * (len / threads), val, len / threads);
i++;
}
/* start last thread with remaining data */
start_thread(multiply_block,
array + i * (len / threads), val, len - i * (len / threads));
}
```

In this example `get_num_processors`

returns the amount of processors, and `start_thread(func, args...)`

is a function that starts a new thread executing `func`

with the arguments given. You should obviously replace those functions with real-life equivalents.