I'm working on a system where three high level components interact
Client(PHP) -- Logger (Java) -- MainBackend (Java)
The PHP client creates a new Linux Logger process for each request received. Logger then sends a message over TCP to the MainBackend and begins logging messages it receives from MainBackend. Note that Logger is very lightweight and uses very little memory.
I load-tested this system, by increasing the number of users, N, acessing the system. I then wrote a version where Logger was multi-threaded so that only one process was used for each N simultaneous users and load-tested the threaded version.
The results were that the multi-threaded version was FAR faster, as in many times faster past a certain N. My question is why?
If it takes a certain time T to start each Linux process, why amn't I seeing a constant difference (T2 - T1) between the two graphs?
Is Linux just far less efficient at scheduling processes than Java is at scheduling threads?
EDIT: An important point I didn't mention is that the timing was all done from within Logger, so the time to start the process / virtual machine is not affecting the results - I did the experiment this way so as to have as few variables as possible.