I'm working on a project that simulates multiple processors handling commands and queuing strings to be printed via one spooler.
There are up to ten processors, each executing a series of jobs that have "compute" and "print" statements. Compute is just a mathematical process to take up time to simulate other work, while print transfers a short string to the spooler to be printed. There is one spooler, with one printer hooked up to the spooler. Each processor will handle a number of jobs before termination, all print statements from a specific job on a specific processor should print together (no interleaving of printing from individual jobs), and the spooler should never be blocked on a process that is computing.
I generally understand how to code this using semaphore and mutex structures, but a statement in the specifications confused me:
Try to maximize the concurrency of your system. (You might consider using an array of semaphores indexed by processor id.)
Is there a specific advantage I'm missing to using a semaphore for each individual process?
If further clarification is needed, let me know--I tried to describe the problem in a concise way.
EDIT: Another possibly important piece: each processor has a buffer that can hold up to ten strings for sending to the spooler. Could the sempahores for each process be for waiting when the buffer is full?
A job can contain multiple compute and print statements mixed in with each other:
Print statements within a job should all be printed in order (Foo and Bar should be printed sequentially without a print from another job/processor in between).