This a VERY open question.
Basically, I have a computing application that launches test combinations for N Scenarios.
Each test is conducted in a single dedicated thread, and involves reading large binary data, processing it, and dropping results to DB.
If the number of threads is too large, the app gets rogue and eats out all available memory and hangs out.. What is the most efficient way to exploit all CPU+RAM capabilities (High Performance computing i.e 12Cores/16GB RAM) without putting the system down to its knees (which happens if "too many" simultaneous threads are launched, "too many" being a relative notion of course)
I have to specify that I have a workers buffer queue with N workers, every time one finishes and dies a new one is launched via a Queue. This works pretty fine as of now. But I would like to avoid "manually" and "empirically" setting the number of simultaneous threads and have an intelligent scalable system that drops as many threads at a time that the system can properly handle, and stop at a "reasonable" memory usage (the target server is dedicated to the app so there is no problem regarding other applications except the system)
PS : I know that .Net 3.5 comes with Thread Pools and .Net 4 has interesting TPL capabilites, that I am still considering right now (I never went very deep into this so far).
PS 2 : After reading this post I was a bit puzzled by the "don't do this" answers. Though I think such request is fair for a memory-demanding computing program.