To "fork" a process usually means you'll create a new carbon-copy of the current process. Some time, the term is abused to mean creating a new different child process. So far so good.
However, the "parallel" assumption is not guaranteed. It's actually not dependent on Java, but on the platform it runs on, meaning both the hardware and OS layers.
You can safely assume (wellI i would) that a forking function would indeed create a new process. However:
- how that process is actually created in the background is up to the JVM's implementation;
- how that process is managed and run is up to the operating system (or, more exactly, to the kernel's scheduler);
- whether the scheduler can actually implement concurrency is up to the hardware specs.
The scheduler may:
- decide to play nice and give you real parallelization across multiple cores or real processors,
- or it may give you an illusion of concurrency using time slices,
- or it could be mean to you and decide that your processes will be queued, just because it doesn't like you (that last scenario is unlikely, or you got yourself a fairly mean kernel, and you should file for divorce).
Also, your programs need to be implemented in such a way as to not prevent the parallelization you speak of (for instance, if the parent process is set to wait indefinitely for the child process to execute, that hardly means they run concurrently... one is merely waiting for the other one to catch up).
Also, you mention forkAndExec. Be careful, as it's easy to confuse these as well. Some functions in many languages will fork a new process and replace the existing one with it, while others will create two processes and attempt to run them in parallel.