I'm assuming, based on the micro-controller tag, you don't have a fast integer divide. My answer is also for unsigned values - it will work for signed values, you just have to limit the numbers used in the tricky bit below.

A good start is divide by 2, 4 and 8. These can be done with right shifts of 1, 2 and 3 bits respectively, assuming your CPU has a logical right-shift instruction.

Secondly, dividing by 1 is just keeping the number as-is. That just leaves, 3, 5, 6, 7 and 9.

Tricky bit starts here:

For the other numbers, you can use the fact that a divide can be replaced by a multiply-and-shift.

Let's say you have a 16-bit processor. To divide by N, you multiply by 256/N and shift right 8 bits:

```
N = 3, multiply by 85
N = 5, multiply by 51
N = 6, multiply by 43
N = 7, multiply by 37
N = 9, multiply by 28
```

Take the random example of 72 / 5. Multiply 72 by 51 to get 3672 then shift right 8 bits to get 14.

In order for this to work, your numbers that you're using must not overflow the 16 bits. Since your worst case is multiply-by-85, you can handle numbers up to 771.

The reason this works is because a shift-right of 8 bits is the same as dividing by 256, and:

```
m * (256 / n) / 256
= m / (n / 256) / 256
= m / n * 256 / 256
= m / n * (256 / 256)
= m / n
```

If you have a 32-bit processor, the values and ranges change somewhat, since it's 65536/N:

```
N = 3, multiply by 21,846, right shift 16 bits, max value roughly 196,600.
N = 5, multiply by 13,108.
N = 6, multiply by 10,923.
N = 7, multiply by 9,363.
N = 9, multiply by 7,282.
```

Again, let's choose the random 20,000 / 7: 20,000 multiplied by 9,363 is 187,260,000 and, when you right shift that 16 bits, you get 2,857 - the real result is 2,857.

The following test program in C shows the accuracy figures for the values given. It uses signed values so is only good up to about 98,000 but you can see that the largest error is 1 and that it occurs at the low point of 13,110 (only 0.008% error).

```
#include <stdio.h>
int res[5] = {0};
int low[5] = {-1,-1,-1,-1,-1};
int da[] = {3,5,6,7,9};
int ma[] = {21846,13108,10923,9363,7282};
int main (void) {
int n, i;
for (n = 0; n < 98000; n++) {
for (i = 0; i < sizeof(da)/sizeof(da[0]); i++) {
int r1 = n / da[i];
int r2 = (n * ma[i])>>16;
int dif = abs (r1-r2);
if (dif >= 5) {
printf ("%d / %d gives %d and %d\n", n, da[i], r1, r2);
return 1;
}
res[dif]++;
if (low[dif] == -1) {
low[dif] = n;
}
}
}
for (i = 0; i < sizeof(res)/sizeof(res[0]); i++) {
printf ("Difference of %d: %6d, lowest value was %6d\n", i, res[i], low[i]);
}
return 0;
}
```

This outputs:

```
Difference of 0: 335874, lowest value was 0
Difference of 1: 154126, lowest value was 13110
Difference of 2: 0, lowest value was -1
Difference of 3: 0, lowest value was -1
Difference of 4: 0, lowest value was -1
```