The complete precision poultry system works over the number of multiple logical processes used inside the
processors. The efficiency and accuracy can be enhanced by simply optimization of these processes used in
processors. This high speed computing requires multitasking and parallel processing to increase the throughput
of the system and optimizes use of system resources. In the multitasking environment, when a great number of
processes execute in parallel, there may be some data structures like semaphores which are common or shared
between different numbers of processes. Due to this sharing, different critical sections are produced. The
research work presented in this paper resolves the critical section problem of multiple processes using
semaphore implementation.
The development of a simulator for the resolution of critical section problem is presented. It is a comprehensive
tool which runs a simulation in real time and generates useful data for evaluation. A user friendly and mousedriven GUI has also been integrated. The developed system has been put through extensive experiments.
Results are taken using different sets of processes for different number of common variables on a number of
processes. The evaluation results are very promising and could be used to further enhance performance of multiuser and multitasking operating systems under different processors to deal with common semaphores.
Ahsan Raza Sattar, Muhammad Younus Javed, Tasleem Mustafa, Sugra Bibi. (2009) Enhancement Of Multiprocessing Environment For The E Poultry System, , Volume-46, Issue-2.
