In C# 4.0, we have Task in the System.Threading.Tasks namespace. What is the true difference between Thread and Task. I did some sample program(help taken from MSDN) for my own sake of learning with


but have many doubts as the idea is not so clear.

I have initially searched in Stackoverflow for a similar type of question but may be with this question title I was not able to get the same. If anyone knows about the same type of question being posted here earlier, kindly give the reference of the link.

  • 13
    threads run tasks
    – pm100
    Aug 13, 2015 at 22:15

8 Answers 8


In computer science terms, a Task is a future or a promise. (Some people use those two terms synonymously, some use them differently, nobody can agree on a precise definition.) Basically, a Task<T> "promises" to return you a T, but not right now honey, I'm kinda busy, why don't you come back later?

A Thread is a way of fulfilling that promise. But not every Task needs a brand-new Thread. (In fact, creating a thread is often undesirable, because doing so is much more expensive than re-using an existing thread from the thread pool. More on that in a moment.) If the value you are waiting for comes from the filesystem or a database or the network, then there is no need for a thread to sit around and wait for the data when it can be servicing other requests. Instead, the Task might register a callback to receive the value(s) when they're ready.

In particular, the Task does not say why it is that it takes such a long time to return the value. It might be that it takes a long time to compute, or it might be that it takes a long time to fetch. Only in the former case would you use a Thread to run a Task. (In .NET, threads are freaking expensive, so you generally want to avoid them as much as possible and really only use them if you want to run multiple heavy computations on multiple CPUs. For example, in Windows, a thread weighs 12 KiByte (I think), in Linux, a thread weighs as little as 4 KiByte, in Erlang/BEAM even just 400 Byte. In .NET, it's 1 MiByte!)

  • 45
    Interestingly in the early preview releases of TPL (Task Parallel Library) there was Task and Future<T>. Future<T> was then renamed to Task<T>. :) Feb 19, 2012 at 10:20
  • 28
    How did you calculate 1 MB for .NET?
    – dvallejo
    Dec 3, 2012 at 22:32
  • 6
    @DanVallejo: That number was mentioned in an interview with the TPL design team. I can't tell you who said it or which interview it was, I watched that years ago. Dec 3, 2012 at 23:07
  • 10
    @RIPUNJAYTRIPATHI Sure, but it doesn't need to be another thread, it could be the thread that requested the work in the first place. Jun 14, 2013 at 15:43
  • 11
    .NET just uses Windows threads on Windows, so the size is the same - by default, usually 1 MiB of virtual memory for both. Physical memory is used as needed in page-sized chunks (usually 64 kiB), the same with native code. The minimum thread stack size depends on the OS - 256 kiB for Vista, for example. On x86 Linux, the default is usually 2 MiB - again, allocated in page-sized chunks. (simplification) Erlang only uses one system thread per process, those 400 bytes refer to something similar to .NETs Task.
    – Luaan
    Jun 9, 2016 at 16:13

A task is something you want done.

A thread is one of the many possible workers which performs that task.

In .NET 4.0 terms, a Task represents an asynchronous operation. Thread(s) are used to complete that operation by breaking the work up into chunks and assigning to separate threads.

  • Could you provide a rudimentary example of threads working to complete a task? I don't know if the threads are doing work that are independant between each others or do they do some teamwork calculation?
    – pensum
    Feb 18, 2020 at 2:04
  • 1
    Both scenarios are possible: in an optimal situation, threads do independent work without the need to synchonise with other threads. In practice, locks are used to coordinate threads. Feb 18, 2020 at 4:15


The bare metal thing, you probably don't need to use it, you probably can use a LongRunning task and take the benefits from the TPL - Task Parallel Library, included in .NET Framework 4 (february, 2002) and above (also .NET Core).


Abstraction above the Threads. It uses the thread pool (unless you specify the task as a LongRunning operation, if so, a new thread is created under the hood for you).

Thread Pool

As the name suggests: a pool of threads. This is the .NET framework handling a limited number of threads for you. Why? Because opening 100 threads to execute expensive CPU operations on a Processor with just 8 cores definitely is not a good idea. The framework will maintain this pool for you, reusing the threads (not creating/killing them at each operation), and executing some of them in parallel, in a way that your CPU will not burn.

OK, but when to use each one?

In resume: always use tasks.

Task is an abstraction, so it is a lot easier to use. I advise you to always try to use tasks and if you face some problem that makes you need to handle a thread by yourself (probably 1% of the time) then use threads.

BUT be aware that:

  • I/O Bound: For I/O bound operations (database calls, read/write files, APIs calls, etc) avoid using normal tasks, use LongRunning tasks (or threads if you need to). Because using tasks would lead you to a thread pool with a few threads busy and a lot of other tasks waiting for its turn to take the pool.
  • CPU Bound: For CPU bound operations just use the normal tasks (that internally will use the thread pool) and be happy.
  • 8
    slight correction, a Thread isn't a "bare-metal thing". it is implemented by the OS, most implementations relay on features of the CPU and CS, but they are not implemented by the hardware.
    – Tomer W
    Mar 25, 2020 at 22:24
  • 1
    i am not enterly sure the information about I/O Bound is correct. it doesn't matter how many tasks have been created that access external services like db's and api's. The task itself in those cases is stored a callback method in memory. When the response comes back from the DB, the CPU will trigger a system interrupt which, in bigger words, will ask the IO thread pool (this a OS thread pool) to take the response and "anounce" the task, which is in memory at this point, that it's data has arrived, and it can continue it's execution from where it was left. Don't use Threads for ext services.
    – Vlad Sandu
    Feb 2, 2023 at 15:19
  • I don't perfectly understand the last part of @VladSandu's comment, but I have the same sentiment about using a separate thread(whether it is LongRunning tasks) for I/O Bound work. Don't I/O bound tasks use callback rather than holding a thread for it to wait for the result? Dec 26, 2023 at 20:20

In addition to above points, it would be good to know that:

  1. A task is by default a background task. You cannot have a foreground task. On the other hand a thread can be background or foreground (Use IsBackground property to change the behavior).
  2. Tasks created in thread pool recycle the threads which helps save resources. So in most cases tasks should be your default choice.
  3. If the operations are quick, it is much better to use a task instead of thread. For long running operations, tasks do not provide much advantages over threads.

A Task can be seen as a convenient and easy way to execute something asynchronously and in parallel.

Normally a Task is all you need, I cannot remember if I have ever used a thread for anything other than experimentation.

You can accomplish the same thing, with a thread (with lots of effort) as you can with a task.


int result = 0;
Thread thread = new System.Threading.Thread(() => { 
    result = 1; 
Console.WriteLine(result); //is 1


int result = await Task.Run(() => {
    return 1; 
Console.WriteLine(result); //is 1

A task will by default use the Threadpool, which saves resources as creating threads can be expensive. You can see a Task as a higher level abstraction upon threads.

As this article points out, Task provides the following powerful features over Thread.

  • Tasks are tuned for leveraging multicore processors.

  • If the system has multiple Tasks then it makes use of the CLR thread pool internally, and so does not have the overhead associated with creating a dedicated thread using the Thread. Also reduces the context switching time among multiple threads.

  • Task can return a result. There is no direct mechanism to return the result from thread.

  • Wait on a set of Tasks, without a signaling construct.

  • We can chain Tasks together to execute one after the other.

  • Establish a parent/child relationship when one task is started from another task.

  • A child Task Exception can propagate to parent task.

  • Tasks support cancellation through the use of cancellation tokens.

  • Asynchronous implementation is easy in Task, using async and await keywords.

  • Thank you for the summary. But I think most of the convenience-related features mentioned above would use resources auto-generated by the compiler at the end of the day just like we have to manually code using a thread. For instance, waiting on a set of Tasks would internally need a signaling construct auto-coded(or implemented) by the compiler, and also a Task returning a result would need an object to bind the result to. Dec 26, 2023 at 20:55

I usually use Task to interact with Winforms and simple background worker to make it not freeze the UI. Here is an example of when I prefer using Task.

private async void buttonDownload_Click(object sender, EventArgs e)
    buttonDownload.Enabled = false;
    await Task.Run(() => {
        using (var client = new WebClient())
            client.DownloadFile("http://example.com/file.mpeg", "file.mpeg");
    buttonDownload.Enabled = true;


private void buttonDownload_Click(object sender, EventArgs e)
    buttonDownload.Enabled = false;
    Thread t = new Thread(() =>
        using (var client = new WebClient())
            client.DownloadFile("http://example.com/file.mpeg", "file.mpeg");
            buttonDownload.Enabled = true;
    t.IsBackground = true;

the difference is you don't need to use MethodInvoker and shorter code.


You can use Task to specify what you want to do then attach that Task with a Thread. so that Task would be executed in that newly made Thread rather than on the GUI thread.

Use Task with the TaskFactory.StartNew(Action action). In here you execute a delegate so if you didn't use any thread it would be executed in the same thread (GUI thread). If you mention a thread you can execute this Task in a different thread. This is an unnecessary work cause you can directly execute the delegate or attach that delegate to a thread and execute that delegate in that thread. So don't use it. it's just unnecessary. If you intend to optimize your software this is a good candidate to be removed.

**Please note that the Action is a delegate.


Task is like an operation that you want to perform. Thread helps to manage those operation through multiple process nodes. Task is a lightweight option as Threading can lead to complex code management.
I suggest you read from MSDN (best in world) always



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