I don't know any details about the pthreads or D implementations, but in general terms, the best-case overhead for a condition variable is one extra kernel call and possible context switch.
A typical implementation is just a wrapper around events and mutexes, and so the overhead and timings can be characterized by the behavior of those kernel objects. On waiting the thread gives up the remainder of its scheduled time quantum and on waking up the thread gets scheduled by the kernel and gets the next available time quantum, based on its priority. This depends heavily on load and kernel configuration, but will typically be within a few milliseconds.
For a condition variable, there's then the additional task of re-acquiring the mutex, which of course could block. If it doesn't block, then it's still a kernel call. This may end up being optimized down to a few atomic CPU instructions which are very fast by comparison, but are limited to a single process. [ed: a CRITICAL_SECTION in Win32 or a futex in Linux, for example.]
The worst case is that the condition variable is spuriously triggered and the thread wakes up only to find that there's nothing to do, but that typically accounts for a negligible fraction of the total overhead.