I am considering the use of potentially hundreds of threads to implement tasks that manage devices over a network.
This is a C++ application running on a powerpc processor with a linux kernel.
After an initial phase when each task does synchronization to copy data from the device into the task, the task becomes idle, and only wakes up when it receives an alarm, or needs to change some data (configuration), which is rare after the start phase. Once all tasks reach the "idle" phase, I expect that only a few per second will need to wake.
So, my main concern is, if I have hundreds of threads will they have a negative impact on the system once they become idle?
I'm updating the question based on the answers that I got. Thanks guys. So it seems that having a ton of threads idling (IO blocked, waiting, sleeping, etc), per se , will not have an impact on the system in terms of responsiveness. Of course, they will spend extra money for each thread's stack and TLS data but that's okay as long as we throw more memory at the thing (making it more €€€)
But then, other issues have to be accounted for. Having 100s of threads waiting will likely increase memory usage on the kernel, due to the need of wait queues or other similar resources. There's also a latency issue, which looks non-deterministic. To check the responsiveness and memory usage of each solution one should measure it and compare.
Finally, the whole idea of hundreds of threads that will be mostly idling may be modeled like a thread pool. This reduces a bit of code linearity but dramatically increases the scalability of the solution and with propper care can be easily tunable to adjust the compromise between performance and resource usage.
I think that's all. Thanks everyone for their input.