Multithreading in Operating System Last Updated : 28 Dec, 2024 Comments Improve Suggest changes Like Article Like Report A thread is a path that is followed during a program’s execution. The majority of programs written nowadays run as a single thread. For example, a program is not capable of reading keystrokes while making drawings. These tasks cannot be executed by the program at the same time. This problem can be solved through multitasking so that two or more tasks can be executed simultaneously. What is Multithreading?Multithreading is a feature in operating systems that allows a program to do several tasks at the same time. Think of it like having multiple hands working together to complete different parts of a job faster. Each "hand" is called a thread, and they help make programs run more efficiently. Multithreading makes your computer work better by using its resources more effectively, leading to quicker and smoother performance for applications like web browsers, games, and many other programs you use every day.How Does Multithreading Work?Multithreading works by allowing a computer's processor to handle multiple tasks at the same time. Even though the processor can only do one thing at a time, it switches between different threads from various programs so quickly that it looks like everything is happening all at once.Here's how it simplifies: Processor Handling : The processor can execute only one instruction at a time, but it switches between different threads so fast that it gives the illusion of simultaneous execution. Thread Synchronization : Each thread is like a separate task within a program. They share resources and work together smoothly, ensuring programs run efficiently. Efficient Execution : Threads in a program can run independently or wait for their turn to process, making programs faster and more responsive. Programming Considerations : Programmers need to be careful about managing threads to avoid problems like conflicts or situations where threads get stuck waiting for each other. What is Multitasking?Multitasking is the ability of an operating system to run multiple programs or tasks at the same time. It allows you to perform different activities simultaneously on your computer. For example, you can listen to music while browsing the internet and typing a document all at once.Multitasking is of two types: Processor-based and thread-based. Processor-based multitasking is managed by the OS, however, multitasking through multithreading can be controlled by the programmer to some extent. The concept of multi-threading needs a proper understanding of these two terms - a process and a thread. A process is a program being executed. A process can be further divided into independent units known as threads. A thread is like a small light-weight process within a process. Or we can say a collection of threads is what is known as a process. Applications: Threading is used widely in almost every field. Most widely it is seen over the internet nowadays where we are using transaction processing of every type like recharges, online transfer, banking etc. Threading is a segment which divide the code into small parts that are of very light weight and has less burden on CPU memory so that it can be easily worked out and can achieve goal in desired field. The concept of threading is designed due to the problem of fast and regular changes in technology and less the work in different areas due to less application. Then as says “need is the generation of creation or innovation” hence by following this approach human mind develop the concept of thread to enhance the capability of programming.Multithreading vs MultitaskingFeatureMultithreadingMultitaskingDefinitionRunning multiple threads within a single program simultaneously.Running multiple programs or tasks concurrently.ExampleWeb browser loading a page, handling user input, and downloading files simultaneously.Listening to music, browsing the web, and typing a document at the same time.ScopeWithin a single program.Across multiple programs.Resource UseUtilizes CPU resources more efficiently within a program.Manages system resources to allocate time and memory to different programs.PurposeEnhances the performance and responsiveness of a single application.Improves overall system efficiency by allowing concurrent execution of multiple programs.SwitchingThreads are managed by the program itself.Programs are managed by the operating system, which switches between them.Lifecycle of a ThreadThere are various stages in the lifecycle of a thread. Following are the stages a thread goes through in its whole life. New: The lifecycle of a born thread (new thread) starts in this state. It remains in this state till a program starts. Runnable : A thread becomes runnable after it starts. It is considered to be executing the task given to it. Waiting : While waiting for another thread to perform a task, the currently running thread goes into the waiting state and then transitions back again after receiving a signal from the other thread. Timed Waiting: A runnable thread enters into this state for a specific time interval and then transitions back when the time interval expires or the event the thread was waiting for occurs. Terminated (Dead) : A thread enters into this state after completing its task. Types of Execution in OSThere are two types of execution: Concurrent Execution: This occurs when a processor is successful in switching resources between threads in a multithreaded process on a single processor. Parallel Execution: This occurs when every thread in the process runs on a separate processor at the same time and in the same multithreaded process Drawbacks of MultithreadingMultithreading is complex and many times difficult to handle. It has a few drawbacks. These are: If you don’t make use of the locking mechanisms properly, while investigating data access issues there is a chance of problems arising like data inconsistency and dead-lock. If many threads try to access the same data, then there is a chance that the situation of thread starvation may arise. Resource contention issues are another problem that can trouble the user. Display issues may occur if threads lack coordination when displaying data. Benefits of Multithreading Multithreading can improve the performance and efficiency of a program by utilizing the available CPU resources more effectively. Executing multiple threads concurrently, it can take advantage of parallelism and reduce overall execution time. Multithreading can enhance responsiveness in applications that involve user interaction. By separating time-consuming tasks from the main thread, the user interface can remain responsive and not freeze or become unresponsive. Multithreading can enable better resource utilization. For example, in a server application, multiple threads can handle incoming client requests simultaneously, allowing the server to serve more clients concurrently. Multithreading can facilitate better code organization and modularity by dividing complex tasks into smaller, manageable units of execution. Each thread can handle a specific part of the task, making the code easier to understand and maintain. ConclusionIn conclusion, multithreading is an important feature in operating systems that allows a program to do multiple tasks at the same time. By dividing tasks into smaller threads, it helps make programs run faster and more efficiently. This means better performance and a smoother experience for users. Understanding and using multithreading can greatly improve how well software and applications perform. Comment More infoAdvertise with us Next Article Introduction of Process Synchronization A AshwinGoel Follow Improve Article Tags : Misc Operating Systems GATE CS Practice Tags : Misc Similar Reads Operating System Tutorial An Operating System(OS) is a software that manages and handles hardware and software resources of a computing device. Responsible for managing and controlling all the activities and sharing of computer resources among different running applications.A low-level Software that includes all the basic fu 4 min read OS BasicsWhat is an Operating System?An Operating System is a System software that manages all the resources of the computing device. Acts as an interface between the software and different parts of the computer or the computer hardware. Manages the overall resources and operations of the computer. 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The algorithm uses two shared variables to manage the turn-taking mechanis 15+ min read Semaphores in Process SynchronizationSemaphores are a tool used in operating systems to help manage how different processes (or programs) share resources, like memory or data, without causing conflicts. A semaphore is a special kind of synchronization data that can be used only through specific synchronization primitives. Semaphores ar 15+ min read Semaphores and its typesA semaphore is a tool used in computer science to manage how multiple programs or processes access shared resources, like memory or files, without causing conflicts. Semaphores are compound data types with two fields one is a Non-negative integer S.V(Semaphore Value) and the second is a set of proce 6 min read Producer Consumer Problem using Semaphores | Set 1The Producer-Consumer problem is a classic synchronization issue in operating systems. 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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. In this article, we will discuss deadlock, its necessary conditions, etc. in detail.Deadlock is a situation in computing where two 11 min read Conditions for 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. In this article, we will discuss what deadlock is and the necessary conditions required for deadlock.What is Deadlock?Deadlock is 8 min read Banker's Algorithm in Operating SystemBanker's Algorithm is a resource allocation and deadlock avoidance algorithm used in operating systems. It ensures that a system remains in a safe state by carefully allocating resources to processes while avoiding unsafe states that could lead to deadlocks.The Banker's Algorithm is a smart way for 8 min read Wait For Graph Deadlock Detection in Distributed SystemDeadlocks are a fundamental problem in distributed systems. 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. Think of it like a traffic system where cars (processes) must move through intersections (resources) without getting int 5 min read Deadlock Detection And RecoveryDeadlock Detection and Recovery is the mechanism of detecting and resolving deadlocks in an operating system. In operating systems, deadlock recovery is important to keep everything running smoothly. A deadlock occurs when two or more processes are blocked, waiting for each other to release the reso 6 min read Deadlock Ignorance in Operating SystemIn this article we will study in brief about what is Deadlock followed by Deadlock Ignorance in Operating System. What is Deadlock? If each process in the set of processes is waiting for an event that only another process in the set can cause it is actually referred as called Deadlock. 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