Yes. The fewer points you have, the more they will appear to form clusters.

To avoid this, you can use "stratified sampling". it basically means you divide your surface evenly in smaller areas and place your points in there.

For your example, you would divide the square in n*n subsquares. Each point would be placed randomly inside it's subsquare. You can even adjust the randomness factor to make the pattern more or less random/regular:

```
// I assume random() return a number in the range [0, 1).
float randomnessFactor = 0.5;
int n = 100;
for(int ySub=0; ySub<n; ++ySub){
for(int xSub=0; xSub<n; ++xSub){
float regularity = 0.5 * (1-randomnessFactor)
x = regularity + randomnessFactor * random() + xSub / (float) (n-1);
x = regularity + randomnessFactor * random() + xSub / (float) (n-1);
plot(x, y);
}
}
```

The reason this works is that you don't actually want randomness. (Clumps are random.) You want the points evenly spread, but without the regular pattern. Placing the points on a grid and offsetting them a bit hides the regularity.