I need to create a method which returns a number sampled of some random distribution where every time call the method the returned number is bigger than any previously returned numbers.

Or, in other words, i need an iterator for a sorted list of random values.

Unfortunately the list is too big to be created in memory as a whole. The first idea i came up with is to divide my value space into buckets, where each bucket contains values in some range [a, b). Say my list has N elements. To create a bucket i would sample my distribution N times and put each value in the range [a, b) into the bucket. Values outside that bucket would be discarded.

This way i could create a new bucket each time i iterated over the last and keep memory consumption low.

Yet, as i am not an expert in statistics, i am a little afraid this will somehow screw up the numbers i get. Is this an appropriate approach? Is it important to use the same exact distribution generator (an instance of org.apache.commons.math3.distribution.RealDistribution) for each bucket?

**Update:** It seems i did a bad job of explaining what kind of random number i am talking about.

My numbers form a sample of a random distribution like for example a normal distribution with a mean of m and variance of v, or an uniform distribution or exponential distribution.

I use those numbers to model some behavior in a simulation. Say i want to trigger events at some times. I need to schedule billions of events and the times those events are triggered must form a sample of a random distribution.

So if i derive my next number by adding a random number to my previous number i indeed get a sequence of growing random numbers but the numbers wont form a sample of my distribution.