There are a number of flaws in your approach.
First of all,
Random from .NET isn't completely random in the cryptographic sense AFAIK, but it should be much much better than the results you report. Most likely, you are creating a new
Random object on every iteration of your loop; since the current system time is used to seed the RNG, you will get the same sequences of pseudo-random numbers if you do runs very short after one another. Instead, create one instance of
Random at startup, and keep it around for as long as possible.
Then, creating an even number from a random integer is much easier than looping until you find one that happens to be even: just generate one random number and clear the least significant bit:
myRand.Next(min, max-1) & ~1;. A decent RNG has a uniform distribution over all of its bits, so clearing any bit shouldn't reduce entropy by more than, well, one bit.
Getting back to the 'completely random' part:
Random provides a pseudo-random number generator. It is seeded once, based on a value that is somewhat random-ish (the least-significant parts of the current system time), but given the same seed, the RNG will reliably and deterministically produce the same numbers on every run. If you want true randomness (a.k.a. 'entropy'), you'd be surprised how hard it is to produce it on a machine that was built for deterministic calculations. UNIX and Unix-like systems typically offer a pool of entropy through a special kernel-generated file (
/dev/random), using things like hard disk access timing, network noise, and whatever other sources of actual randomness they can find, and distillate those into a uniform distribution using fairly complicated calculations. Windows can probably do the same, but I am unaware of any API for this in either .NET or the classic win32 API.