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I'm new to parallel programming. There are two classes available in .NET: Task and Thread.

So, my questions are:

  • What is difference between those classes?
  • When is it better to use Thread and when Task?

marked as duplicate by Jeff Bridgman, klin, Peter Pei Guo, SiKing, David Hoelzer Jun 12 '15 at 23:46

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  • 24
    Read this. – MoonKnight Nov 17 '12 at 9:00
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    Prefer Task unless you need thread. Thread need resources(1MB stack(in .net commited), thread kernel object, etc). Task's are also run parallely as separate thread but it is a system thread pool threads that are optimized by the system considering cpu cores, etc and is used to run many tasks across system. Other than this the task when completed can return an object, so there is convinient way to know what the result of parallel execution is. – Abhijit Kadam Nov 17 '12 at 9:30
  • @AbhijitKadam When you say "system", are you referring to the .NET framework? – Panzercrisis Sep 2 '16 at 14:06
  • While this is an interesting read, @MoonKnight, reading a book about threading is a bit of an overkill for a SO question. – Tsahi Asher May 23 '18 at 7:46
  • 1
    @TsahiAsher it is a single chapter from a book. – MoonKnight May 23 '18 at 15:59

Thread is a lower-level concept: if you're directly starting a thread, you know it will be a separate thread, rather than executing on the thread pool etc.

Task is more than just an abstraction of "where to run some code" though - it's really just "the promise of a result in the future". So as some different examples:

  • Task.Delay doesn't need any actual CPU time; it's just like setting a timer to go off in the future
  • A task returned by WebClient.DownloadStringTaskAsync won't take much CPU time locally; it's representing a result which is likely to spend most of its time in network latency or remote work (at the web server)
  • A task returned by Task.Run() really is saying "I want you to execute this code separately"; the exact thread on which that code executes depends on a number of factors.

Note that the Task<T> abstraction is pivotal to the async support in C# 5.

In general, I'd recommend that you use the higher level abstraction wherever you can: in modern C# code you should rarely need to explicitly start your own thread.

  • 1
    Even if you are running a message loop-like process you would use a task instead of a thread? – Ignacio Soler Garcia Jan 22 '14 at 14:16
  • 6
    @SoMoS: Probably - you can create it as "long-running" and it will end up with a dedicated thread, but it means using a single abstraction throughout. – Jon Skeet Jan 22 '14 at 14:20
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    @JonSkeet Also , it's worth to mention that in asp.net - new Thread() is not dealing with Threadpool thread , whereas Task does use threadpool thread — i.stack.imgur.com/O8AnU.jpg – Royi Namir Jun 23 '14 at 12:44
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    @RoyiNamir: That's not really an ASP.NET-specific thing - and in some cases when you start a task it might use a non-thread-pool thread, if you specify that it's going to be a long-running task. – Jon Skeet Jun 23 '14 at 12:47
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    @LeonidVasilyev: Not directly Task related (this was before Tasks were introduced), but I did starve the thread pool once doing some image analysis work. I was using (too many really) the thread pool for object detection, but was pushing the results using an SDK which also used the threadpool. This caused my program to lock up because all threads were busy. – Ed S. Aug 23 '17 at 20:01



Thread represents an actual OS-level thread, with its own stack and kernel resources. (technically, a CLR implementation could use fibers instead, but no existing CLR does this) Thread allows the highest degree of control; you can Abort() or Suspend() or Resume() a thread (though this is a very bad idea), you can observe its state, and you can set thread-level properties like the stack size, apartment state, or culture.

The problem with Thread is that OS threads are costly. Each thread you have consumes a non-trivial amount of memory for its stack, and adds additional CPU overhead as the processor context-switch between threads. Instead, it is better to have a small pool of threads execute your code as work becomes available.

There are times when there is no alternative Thread. If you need to specify the name (for debugging purposes) or the apartment state (to show a UI), you must create your own Thread (note that having multiple UI threads is generally a bad idea). Also, if you want to maintain an object that is owned by a single thread and can only be used by that thread, it is much easier to explicitly create a Thread instance for it so you can easily check whether code trying to use it is running on the correct thread.


ThreadPool is a wrapper around a pool of threads maintained by the CLR. ThreadPool gives you no control at all; you can submit work to execute at some point, and you can control the size of the pool, but you can't set anything else. You can't even tell when the pool will start running the work you submit to it.

Using ThreadPool avoids the overhead of creating too many threads. However, if you submit too many long-running tasks to the threadpool, it can get full, and later work that you submit can end up waiting for the earlier long-running items to finish. In addition, the ThreadPool offers no way to find out when a work item has been completed (unlike Thread.Join()), nor a way to get the result. Therefore, ThreadPool is best used for short operations where the caller does not need the result.


Finally, the Task class from the Task Parallel Library offers the best of both worlds. Like the ThreadPool, a task does not create its own OS thread. Instead, tasks are executed by a TaskScheduler; the default scheduler simply runs on the ThreadPool.

Unlike the ThreadPool, Task also allows you to find out when it finishes, and (via the generic Task) to return a result. You can call ContinueWith() on an existing Task to make it run more code once the task finishes (if it's already finished, it will run the callback immediately). If the task is generic, ContinueWith() will pass you the task's result, allowing you to run more code that uses it.

You can also synchronously wait for a task to finish by calling Wait() (or, for a generic task, by getting the Result property). Like Thread.Join(), this will block the calling thread until the task finishes. Synchronously waiting for a task is usually bad idea; it prevents the calling thread from doing any other work, and can also lead to deadlocks if the task ends up waiting (even asynchronously) for the current thread.

Since tasks still run on the ThreadPool, they should not be used for long-running operations, since they can still fill up the thread pool and block new work. Instead, Task provides a LongRunning option, which will tell the TaskScheduler to spin up a new thread rather than running on the ThreadPool.

All newer high-level concurrency APIs, including the Parallel.For*() methods, PLINQ, C# 5 await, and modern async methods in the BCL, are all built on Task.


The bottom line is that Task is almost always the best option; it provides a much more powerful API and avoids wasting OS threads.

The only reasons to explicitly create your own Threads in modern code are setting per-thread options, or maintaining a persistent thread that needs to maintain its own identity.

  • 5
    I learned the most from this response. Thank you. – eaglei22 May 26 '17 at 17:27
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    How about a set of threads that must run for the whole lifetime of the application? Would it still be preferable to use Tasks with a LongRunning option? – xfx Jun 16 '17 at 18:35
  • Async/Async api calls come under which category? – Shankar Jun 21 '18 at 9:33
  • @xfx Did you get your answer? What if we write out TPL in infinite loop? Though, not a good approach. – Faizan Mubasher Sep 5 '18 at 9:22
  • @FaizanMubasher unfortunately no, but I have run some tests (with production programs) and I cannot detect any negative effects changing from threads to tasks. – xfx Sep 6 '18 at 15:31

Usually you hear Task is a higher level concept than thread... and that's what this phrase means:

  1. You can't use Abort/ThreadAbortedException, you should support cancel event in your "business code" periodically testing token.IsCancellationRequested flag (also avoid long or timeoutless connections e.g. to db, otherwise you will never get a chance to test this flag). By the similar reason Thread.Sleep(delay) call should be replaced with Task.Delay(delay, token) call.

  2. There are no thread's Suspend and Resume methods functionality with tasks. Instance of task can't be reused either.

  3. But you get two new tools:

    a) continuations

    // continuation with ContinueWhenAll - execute the delegate, when ALL
    // tasks[] had been finished; other option is ContinueWhenAny
       () => {
           int answer = tasks[0].Result + tasks[1].Result;
           Console.WriteLine("The answer is {0}", answer);

    b) nested/child tasks

    //StartNew - starts task immediately, parent ends whith child
    var parent = Task.Factory.StartNew
    (() => {
              var child = Task.Factory.StartNew(() =>
  4. So system thread is completely hidden from task, but still task's code is executed in the concrete system thread. System threads are resources for tasks and ofcourse there is still thread pool under the hood of task's parallel execution. There can be different strategies how thread get new tasks to execute. Another shared resource TaskScheduler cares about it. Some problems that TaskScheduler solves 1) prefer to execute task and its conitnuation in the same thread minimizing switching cost - aka inline execution) 2) prefer execute tasks in an order they were started - aka PreferFairness 3) more effective distribution of tasks between inactive threads depending on "prior knowledge of tasks activity" - aka Work Stealing. Important: in general "async" is not same as "parallel". Playing with TaskScheduler options you can setup async tasks be executed in one thread synchronously. To express parallel code execution higher abstractions (than Tasks) could be used: Parallel.ForEach, PLINQ, Dataflow.

  5. Tasks are integrated with C# async/await features aka Promise Model, e.g there requestButton.Clicked += async (o, e) => ProcessResponce(await client.RequestAsync(e.ResourceName)); the execution of client.RequestAsync will not block UI thread. Important: under the hood Clicked delegate call is absolutely regular (all threading is done by compiler).

That is enough to make a choice. If you need to support Cancel functionality of calling legacy API that tends to hang (e.g. timeoutless connection) and for this case supports Thread.Abort(), or if you are creating multithread background calculations and want to optimize switching between threads using Suspend/Resume, that means to manage parallel execution manually - stay with Thread. Otherwise go to Tasks because of they will give you easy manipulate on groups of them, are integrated into the language and make developers more productive Task Parallel Library (TPL) .

  • 2
    Note - Thread.Abort doesn't work for most long operations like DB connections either. It can only abort while in managed code, while most of the long-waiting stuff is stuck in native code (e.g. waiting for a handle, I/O operations...). The only benefit is that it can abort anywhere in managed code, relatively safely (e.g. not in finally clauses etc.), so it will help against errors like infinite loops etc. Using it in production-level code doesn't make much sense, though. – Luaan Mar 30 '15 at 12:14
  • 2
    Thread.Abort is evil and should be avoided wherever possible. Code running under the possibility of a thread abort is incredibly difficult to reason about correctly. It's not worth it, just check some kind of flag. (I'd suggest the CancellationToken API, even if you're not using Tasks) – Joren Jun 2 '15 at 12:14
  • It's an error to do so Thread.Sleep(delay) should be replaced with Task.Delay(delay, token); If, then it should be replaced with Task.Delay(delay, token).Wait();, which is the same as Thread.Sleep(delay), or with await Task.Delay(delay, token), if it is possible. – Rekshino Dec 5 '18 at 10:04

The Thread class is used for creating and manipulating a thread in Windows.

A Task represents some asynchronous operation and is part of the Task Parallel Library, a set of APIs for running tasks asynchronously and in parallel.

In the days of old (i.e. before TPL) it used to be that using the Thread class was one of the standard ways to run code in the background or in parallel (a better alternative was often to use a ThreadPool), however this was cumbersome and had several disadvantages, not least of which was the performance overhead of creating a whole new thread to perform a task in the background.

Nowadays using tasks and the TPL is a far better solution 90% of the time as it provides abstractions which allows far more efficient use of system resources. I imagine there are a few scenarios where you want explicit control over the thread on which you are running your code, however generally speaking if you want to run something asynchronously your first port of call should be the TPL.

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