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Overview Of Mutual Exclusions in Operating Systems

A way of making sure that if one process is using a shared modifiable data, the other processes will be excluded from doing the same thing.
Formally, while one process executes the shared variable, all other processes desiring to do so at the same time moment should be kept waiting; when that process has finished executing the shared variable, one of the processes waiting; while that process has finished executing the shared variable, one of the processes waiting to do so should be allowed to proceed. In this fashion, each process executing the shared data (variables) excludes all others from doing so simultaneously. This is called Mutual Exclusion.
Mutual exclusion (often abbreviated to mutex) algorithms are used in concurrent programming to avoid the simultaneous use of a common resource, such as a global variable, by pieces of computer code called critical sections. A critical section is a piece of code where a process or thread accesses a common resource. The critical section by itself is not a mechanism or algorithm for mutual exclusion. A program, process, or thread can have critical section in it without any mechanism or algorithm, which implements mutual exclusion.
Examples of such resources are fine-grained flags, counters or queues, used to communicate between code that runs concurrently, such as an application and its interrupt handlers. The problem is acute because a thread can be stopped or started at any time.

How Mutual Exclusion is Done ?
We need to stop the two threads from working on the same data at the same time. The most common way to do this today is by using locks. A lock can be either locked or unlocked. As long as you do not forget to lock or unlock the door, this algorithms guarantees mutual exclusion and protects the so called critical region.
C:
1. omp_set_lock (&my_lock);
2. i++;
3. omp_unset_lock (&my_lock);
Actually, the lock needs to be initialized beforehand and destroyed sometime afterwards as well, but that’s not too difficult either.
C:
1. #pragma omp critical
2. {
3. i++;
4. }
Or even simpler, like this:
C:
1. #pragma omp atomic
2. i++;
This basically does the same thing, except you do not need to worry about initialization and destruction of the lock and you cannot forget to unlock the mutex accidentally.

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