QUESTION: How many "QThread" instances per process is "reasonable"?
(This specifically references Qt's
QThread instance, but logically the question should relate to any thread-based design using any library.)
For example, I understand that platform-specific resource limits may default to supporting up to thirty (30) "
QTcpSocket" instances, so in theory, if you have thirty active-sockets, that would be thirty
QThread instances when the system is under max-load. However, that may not be a big deal, as most of those threads should be "sleeping/waiting" for network traffic.
Similarly, I would assume that one would instantiate UP TO the number of "cores" or "native-threads-can-execute" for
QThread instances charged with "heavy-continuous-work". So, if you had eight (8) cores, that might be another eight
QThread instances (and these may be working all-the-time when the system is under max-load).
Then, of course, we have the "main-thread".
Does this then imply one would instantiate:
(30 socket-threads) + (8 worker-for-each-core) + (1 main thread)
...for 39 threads (on an 8-core system)?
Specifically, if application-specific needs had other thread-pool-needs, and you add a dozen-
QThread-here and a dozen-
QThread-instances-there, it seems like 100
QThread instances is kinda stupid, even if most of them are "idle/sleeping/waiting", right?
So, is there a cut-off? "39-threads" is "reasonable", but "300-threads" is "unreasonable"?
(Yes, I understand there is a "default-stack-size-per-thread", such as "10MB-per-thread", so I am limited by virtual memory. But, really, is it stupid to instantiate 30K threads -- it's a bad design that would ever want such a thing?)