Are you creating and destroying lots of threads?
Most pthread implementations will add a "guard page" when allocating a threads stack. It's an access protected memory page used to detect stack overflows. I'd expect at least one call to mprotect each time a thread is created or terminated to (un)protect the guard page. If this is the case, there are several obvious strategies:
- Set the guard page size to zero using
pthread_attr_setguardsize() before creating threads.
- Use a thread-pool (of as many threads as processors say). Once a thread is done with a task, return it to the pool to get a new task rather than terminate and create a new thread.
Another explanation might be that you're on a platform where a thread's stack will be grown if overflow is detected. I don't think this is implemented on Linux with GCC/Glibc as yet, but there have been some proposals along these lines recently. If you use a lot of stack space whilst processing, you might explicitely increase the initial/minimum stack size using
Or it might be something else entirely!