Inter Process Communication (IPC) Last Updated : 23 Apr, 2025 Comments Improve Suggest changes Like Article Like Report Processes need to communicate with each other in many situations. Inter-Process Communication or IPC is a mechanism that allows processes to communicate. It helps processes synchronize their activities, share information, and avoid conflicts while accessing shared resources.Types of Process Let us first talk about types of processes:Independent process: An independent process is not affected by the execution of other processes. Independent processes do not share any data or resources with other processes. No inter-process communication is required in this case.Co-operating process: Interact with each other and share data or resources. A co-operating process can be affected by other executing processes. Inter-process communication (IPC) is a mechanism that allows processes to communicate with each other and synchronize their actions. The communication between these processes can be seen as a method of cooperation between them.Inter Process CommunicationInter process communication (IPC) allows different processes running on a computer to share information with each other. IPC allows processes to communicate by using different techniques like sharing memory, sending messages or using files. It ensures that processes can work together without interfering with each other. Cooperating processes require an Inter Process Communication (IPC) mechanism that will allow them to exchange data and information. The two fundamental models of Inter Process Communication are:Shared Memory Message PassingAn operating system can implement both methods of communication. First, we will discuss the shared memory methods of communication and then message passing. Communication between processes using shared memory requires processes to share some variable and it completely depends on how the programmer will implement it. Suppose process 1 and process 2 are executing simultaneously and they share some resources or use some information from another process. Process1 generates information about certain computations or resources being used and keeps it as a record in shared memory. When process 2 needs to use the shared information, it will check in the record stored in shared memory and take note of the information generated by process 1 and act accordingly. Processes can use shared memory for extracting information as a record from another process as well as for delivering any specific information to other processes. Figure 1 below shows a basic structure of communication between processes via the shared memory method and via the message passing method. Role of Synchronization in IPC 1. Preventing Race ConditionsIn a multi-process environment, multiple processes may attempt to access shared data or resources at the same time. Without proper synchronization, this can lead to race conditions, where the outcome depends on the non-deterministic order in which processes access the resource. Synchronization mechanisms like mutexes, semaphores, and locks ensure that only one process can access a resource at a time, preventing inconsistent or corrupted data.2. Ensuring Mutual ExclusionMutual exclusion (mutex) is a fundamental concept in synchronization. It ensures that only one process at a time can access critical section. This prevents conflicts or inconsistent results when multiple processes attempt to modify shared data simultaneously.3. Coordinating Process ExecutionIt allows processes to wait for specific conditions to be met before proceeding. For example, one process may need to wait for data from another process before continuing. Condition variables and barriers are used in such cases to synchronize the execution order of processes.4. Preventing DeadlocksDeadlocks occur when two or more processes are waiting indefinitely for resources held by each other. Proper synchronization techniques, such as acquiring resources in a defined order or using deadlock detection and prevention mechanisms can help avoid situations of deadlock.5. Communication Between ProcessesIn IPC, synchronization ensures that messages or data exchanged between processes are correctly received and processed. It coordinates the flow of data and ensures that a producer process doesn't overwrite data before a consumer process can use it or the consumer doesn't attempt to consume data that isn’t yet produced.6. FairnessIt ensures that all processes have an equal opportunity to access shared resources. This prevents starvation where some processes are indefinitely delayed while others continuously acquire resources. Techniques such as round-robin scheduling and fair locks can be used to ensure that no process is unfairly delayed.Methods in Inter process CommunicationInter-Process Communication refers to the techniques and methods that allow processes to exchange data and coordinate their activities. Since processes typically operate independently in a multitasking environment, IPC is necessary for them to communicate effectively without interfering with one another. There are several methods of IPC, each designed to suit different scenarios and requirements. These methods include shared memory, message passing, semaphores, and signals, etc.Read more about methods of Inter Process Communication. Advantages of IPC It enables processes to communicate with each other and share resources, leading to increased efficiency and flexibility.It facilitates coordination between multiple processes and leads to better overall system performance.It allows for the creation of distributed systems that can span multiple computers or networks.It can be used to implement various synchronization and communication protocols, such as semaphores, pipes, and sockets. Disadvantages of IPC It increases system complexity, making it harder to design, implement, and debug.It can introduce security vulnerabilities, as processes may be able to access or modify data belonging to other processes.It requires careful management of system resources such as memory and CPU time, to ensure that IPC operations do not degrade overall system performance. It can lead to data inconsistencies if multiple processes try to access or modify the same data at the same time. 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One chopstick may be picked 11 min read Hardware Synchronization Algorithms : Unlock and Lock, Test and Set, SwapProcess Synchronization problems occur when two processes running concurrently share the same data or same variable. The value of that variable may not be updated correctly before its being used by a second process. Such a condition is known as Race Around Condition. There are a software as well as 4 min read Deadlocks & Deadlock Handling MethodsIntroduction of Deadlock in Operating SystemA deadlock is a situation where a set of processes is blocked because each process is holding a resource and waiting for another resource acquired by some other process. 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A process may request resources in any order and a process can request resources while holding others. A Deadlock is a situation where a set of processes are blocked as each process in a Distributed system is holding some resources and that 5 min read Handling DeadlocksDeadlock is a situation where a process or a set of processes is blocked, waiting for some other resource that is held by some other waiting process. It is an undesirable state of the system. In other words, Deadlock is a critical situation in computing where a process, or a group of processes, beco 8 min read Deadlock Prevention And AvoidanceDeadlock prevention and avoidance are strategies used in computer systems to ensure that different processes can run smoothly without getting stuck waiting for each other forever. 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In other word 5 min read Recovery from Deadlock in Operating SystemIn today's world of computer systems and multitasking environments, deadlock is an undesirable situation that can bring operations to a halt. When multiple processes compete for exclusive access to resources and end up in a circular waiting pattern, a deadlock occurs. To maintain the smooth function 8 min read Like