Is the following assertion true about the above question?

Lightweight processes contain a single process but multiple threads

Heavyweight processes can contain multiple subprocesses

I know there's much more to it than that, but I was wondering if this would pass as a very very basic understanding of heavyweight and lightweight processes...

A normal process under an Operating System (OS) is a heavy-weight process. For each such process, the OS provides an independent address space, this way keeping different users and services separated. Switching from one such process to another is time consuming, though modern machines contain a special unit, the Memory Management Unit (MMU), dedicated to the task. A Light-Weight Process (LWP), also called thread, runs under the address space of a normal (heavy-weight) process, and LWPs under the same process may share e.g. variables. Switching from one LWP to another is much faster than switching from one heavy-weight process to another, because there is less to manage, and the MMU is not involved.

Actually I think it's the other way around. Wikipedia says this:

In computer operating systems, a light-weight process (LWP) is a means of achieving multitasking. In the traditional meaning of the term, as used in Unix System V and Solaris, an LWP runs in user space on top of a single kernel thread and shares its address space and system resources with other LWPs within the same process. Multiple user level threads, managed by a thread library, can be placed on top of one or many LWPs - allowing multitasking to be done at the user level, which can have some performance benefits.

So LWPs share address space within the same process. In other words an LWP is a sub-process.

LWP == thread

Lightweight process is a denomination for threads that is still used on Solaris and on some utilities across *nix variants. (e.g. ps on Linux).

  • 1
    It's more complex than that though because multiple threads can run on top of an LWP. – David Heffernan May 14 '11 at 19:11
  • @David: no, it's not. Nothing prevents you from running e.g: multiple GNU pth threads on top of a single POSIX pthread, it's the same case. – ninjalj May 14 '11 at 19:14

1.multithreading

multithrading in java is a process to execute multiple threads simultaneously..

Thread is a basically lightweight process...a smallest unit of processing..multithrading,multiprocessing both are used to achieve multitasking..

why we use multithrading and multiprocessing--because threads share a common memory area not seprate memory for indivisual threads..

Lightweight processes contain a single process but multiple threads

Heavyweight processes can contain multiple subprocesses

It doesn't block the user because threads are independent and you can perform multiple operations at same time.

Multitasking

Multasking is a process to execute multiple task simultanously..we use multitasking to utilize on cpu..multitasking have two types which have to achieve.. 1.Process based multitasking(multiprocess) 2.Thrad based multitasking(Multithrading) 1.Process based multitasking(multiprocess)

each process have its own addresss in memory and allocate the seprate memory to each process..

it's a heavyweight process..

2.Thrad based multitasking(Multithrading)

Threads share the same address space.

Thread is lightweight.

what is thread..

Thread is a lightweight process..it's contain in single process but multiple threads,dependent,if there occurs exception in one thread,but not effect on other thread.

Lightweight and heavyweight processes refer the mechanics of a multi-processing system. In a lightweight process, threads are used to divvy up the workload. Here you would see one process executing in the OS (for this application or service.) This process would posess 1 or more threads. Each of the threads in this process shares the same address space. Because threads share their address space, communication between the threads is simple and efficient. Each thread could be compared to a process in a heavyweight scenario.

In a heavyweight process, new processes are created to perform the work in parallel. Here (for the same application or service), you would see multiple processes running. Each heavyweight process contains its own address space. Communication between these processes would involve additional communications mechanisms such as sockets or pipes. The benefits of a lightweight process come from the conservation of resources. Since threads use the same code section, data section and OS resources, less overall resources are used. The drawback is now you have to ensure your system is thread-safe. You have to make sure the threads don't step on each other. Fortunately, Java provides the necessary tools to allow you to do this.

If the execution shifts between the threads of the same process, it is known as lightweight process. If the execution shifts between the threads of different processes, it is known as heavyweight process.

enter image description here

In the above figure, if the control shifts between the threads t1 and t2 of the same process p1, it is known as lightweight process. If the control shifts between the threads t1 of process p1 and t1 of process p2, it is known as heavyweight process. Generally, threads are designed to be lightweight because heavyweight is a big overhead to the OS.

Thread is also called as Light-weight process, as it present in same address block as the Process and shares the code,data and the OS resources of the process with fellow threads.It cost less resources to communicate between the threads.

Heavy-weight process defines the processes running parallel to accomplish their tasks.Every process has their own data,code and OS resources and the processes requires extra resources to communicate between themselves.

Light-weight process has more advantage than Heavy-weight process.

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