This code won't compile, but you get the gist of the algorithm I have in place. It might not be particularly efficient, but it gets the job done and you will have to tailor it to your needs. Namely the variables `n`

, `timer`

(create a timer), `timerTicks`

and the method `ChooseRandomNumber`

.

```
int maxNumber = n;
timer timer;
Dictionary<int, int> numbers
int timerTicks;
// Set up numbers with 0 base rating
SetUpDetails()
{
timer.interval = i
for (int i = 0; i < maxNumber; i++)
numbers.Add(i, 0);
}
timer.Tick
{
// List with numbers
List<int> numbersToChooseFrom;
foreach (KeyValuePair number in numbers)
{
// Must be added at least once
numbersToChooseFrom.Add(number.Key)
if (number.Value > timerTicks)
for (int i = 0; i < (number.Value/timerTicks); i++
// i.e. if number hasnt been chosen for
// timerTicks iterations give it more weight
numbersToChooseFrom.Add(number.Key)
// Some numbers occur more than once and thus have greater chance
int choice = ChooseRandomNumber(between 0 and numbersToChooseFrom.Length)
int RandomNumber = numbersToChooseFrom.ElementAt(choice)
return RandomNumber;
}
}
```

infinitely manyprocesses that match your incredibly vague description, so we have nothing to go on here. – Eric Lippert Mar 1 '12 at 15:56