Is there a way / program to find out the maximum no of threads a system can spawn ? i am creating a application and i am in a dilemma whether to go with event looping model or multi threaded model . so wanted to test the systems capabilities on how many threads it can handle ?
The "maximum number of threads" is not as useful a metric as you might think:
In general, multi-threading has only two advantages when compared to event loops:
Other than that multi-threading is usually more expensive in both memory and processing resources. A large number of threads can bring your system to a halt regardless if what they are doing is resource-intensive or not.
In most cases the best solution is a hybrid of both models i.e. a number of threads with an event loop in each one.
On modern Linux systems, the
As far as I know, the kernel does not specifically impose a per-process limit on the number of threads.
The threading implementation in
Keep in mind that, depending on your hardware and software configuration, none of these limits may be of use. On Linux a main limiting factor on the number of threads comes from the fact that each thread requires memory in the stack - if you start launching threads you can easily come upon this limit before any others.
If you really want to find the actual limit, then the only way is to start launching threads until you cannot do so any more. Even that will only give you a rough limit that is only valid at the time you run the program. It can easily change if e.g. your threads start doing actual work and increase their resource usage.
On Linux, you can find the total number of threads running by checking /proc/loadavg
In the above, 389 is the total number of threads.
The current upper global limit is 4 million threads, because once reached, you have run out of PIDs (see futex.h).
it can handel as many threads as provided by OS and you never know the limit.
But as a general measures if a normal LOB application having more than 25 threads at a time can lead to problems and have serious design issue.