632

Are there good rule(s) for when to use Task.Delay versus Thread.Sleep?

  • Specifically, is there a minimum value to provide for one to be effective/efficient over the other?
  • Lastly, since Task.Delay causes context-switching on a async/await state machine, is there an overhead of using it?
6
  • 5
    10ms is a lot of cycles in computer world... Nov 19, 2013 at 21:21
  • How fast should it be? What performance problems do you have?
    – L.B
    Nov 19, 2013 at 21:28
  • 4
    I think the more pertinent question is in what context do you intend to use either of these? Without that information the scope is too broad. What do you mean by effective/efficient? Are you referring to accuracy, power efficiency etc.? I'm very curious to know in what context this matters. Nov 19, 2013 at 21:40
  • 5
    The minimum is 15.625 msec, values less than the clock interrupt rate have no effect. Task.Delay always burns up a System.Threading.Timer, Sleep has no overhead. You don't worry about overhead when you write code that does nothing. Nov 19, 2013 at 22:11
  • 4
    something that I didn't see mentioned, but I think is important, would be that Task.Delay supports a CancellationToken, meaning you can interrupt the delay, if you, for example, are using it to slow down a cycle process. this also means your process can respond quickly when you want to cancel it . but you can achieve the same with Thread.Sleep making the sleep cycle interval shorter, and check the Token manuallay.
    – Droa
    Dec 18, 2019 at 8:32

9 Answers 9

622

Use Thread.Sleep when you want to block the current thread.

Use await Task.Delay when you want a logical delay without blocking the current thread.

Efficiency should not be a paramount concern with these methods. Their primary real-world use is as retry timers for I/O operations, which are on the order of seconds rather than milliseconds.

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  • 4
    It's the same primary use case: a retry timer. Nov 20, 2013 at 0:42
  • 4
    Or when you don't want to chew up CPU in a main loop. May 20, 2014 at 21:23
  • 7
    @RoyiNamir: No. There is no "other thread". Internally, it's implemented with a timer. Nov 3, 2014 at 18:34
  • 88
    The suggestion not to worry about efficiency is ill-advised. Thread.Sleep will block the current thread which causes a context switch. If you're using a thread pool this could also cause a new thread to be allocated. Both operations are quite heavy whereas the cooperative multi-tasking provided by Task.Delay etc is designed to avoid all of that overhead, maximize throughput, allow cancellation, and provide cleaner code.
    – Corillian
    May 3, 2016 at 16:06
  • 8
    @LucaCremry onesi: I would use Thread.Sleep` to wait inside a synchronous method. However, I never do this in production code; in my experience, every Thread.Sleep I've ever seen has been indicative of some kind of design issue that needs to be properly fixed. Dec 1, 2016 at 2:26
383

The biggest difference between Task.Delay and Thread.Sleep is that Task.Delay is intended to run asynchronously. It does not make sense to use Task.Delay in synchronous code. It is a VERY bad idea to use Thread.Sleep in asynchronous code.

Normally you will call Task.Delay() with the await keyword:

await Task.Delay(5000);

or, if you want to run some code before the delay:

var sw = new Stopwatch();
sw.Start();
Task delay = Task.Delay(5000);
Console.WriteLine("async: Running for {0} seconds", sw.Elapsed.TotalSeconds);
await delay;

Guess what this will print? Running for 0.0070048 seconds. If we move the await delay above the Console.WriteLine instead, it will print Running for 5.0020168 seconds.

Let's look at the difference with Thread.Sleep:

class Program
{
    static void Main(string[] args)
    {
        Task delay = asyncTask();
        syncCode();
        delay.Wait();
        Console.ReadLine();
    }

    static async Task asyncTask()
    {
        var sw = new Stopwatch();
        sw.Start();
        Console.WriteLine("async: Starting");
        Task delay = Task.Delay(5000);
        Console.WriteLine("async: Running for {0} seconds", sw.Elapsed.TotalSeconds);
        await delay;
        Console.WriteLine("async: Running for {0} seconds", sw.Elapsed.TotalSeconds);
        Console.WriteLine("async: Done");
    }

    static void syncCode()
    {
        var sw = new Stopwatch();
        sw.Start();
        Console.WriteLine("sync: Starting");
        Thread.Sleep(5000);
        Console.WriteLine("sync: Running for {0} seconds", sw.Elapsed.TotalSeconds);
        Console.WriteLine("sync: Done");
    }
}

Try to predict what this will print...

async: Starting
async: Running for 0.0070048 seconds
sync: Starting
async: Running for 5.0119008 seconds
async: Done
sync: Running for 5.0020168 seconds
sync: Done

Also, it is interesting to notice that Thread.Sleep is far more accurate, ms accuracy is not really a problem, while Task.Delay can take 15-30ms minimal. The overhead on both functions is minimal compared to the ms accuracy they have (use Stopwatch Class if you need something more accurate). Thread.Sleep still ties up your Thread, Task.Delay release it to do other work while you wait.

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  • 44
    Why is it "a VERY bad idea to use Thread.Sleep in asynchronous code"?
    – sunside
    Feb 26, 2015 at 16:13
  • 126
    @sunside One of the major advantages of async code is to allow one thread to work on multiple tasks at once, by avoiding blocking calls. This avoids the need for huge amounts of individual threads, and allows a threadpool to service many requests at once. However, given that async code usually runs on the threadpool, needlessly blocking a single thread with Thread.Sleep() consumes an entire thread that could otherwise be used elsewhere. If many tasks are run with Thread.Sleep(), there's a high chance of exhausting all threadpool threads and seriously hindering performance.
    – Ryan
    Mar 2, 2015 at 23:53
  • 1
    Get it. I was missing the notion of asynchronous code in the sense of async methods as they are encouraged to be used. It's basically just a bad idea to run Thread.Sleep() in a threadpool thread, not a bad idea in general. After all, there's TaskCreationOptions.LongRunning when going the (albeit discouraged) Task.Factory.StartNew() route.
    – sunside
    Mar 3, 2015 at 8:58
  • 1
    You can use Thread.Sleep in async code for very low values, e.g. Thread.Sleep(50) (for some HW communication).
    – xmedeko
    Nov 13, 2017 at 20:31
  • 4
    @Reyhn The documentation on this is that Tasl.Delay uses the system timer. Since "The system clock "ticks" at a constant rate.", the tick speed of the system timer is about 16ms, any delay you request will be rounded to a number of ticks of the system clock, offset by the time till the first tick. See the msdn documentation on Task.Delay learn.microsoft.com/en-us/dotnet/api/… and scroll down to remarks.
    – Dorus
    Sep 13, 2018 at 10:27
41

I want to add something. Actually, Task.Delay is a timer based wait mechanism. If you look at the source you would find a reference to a Timer class which is responsible for the delay. On the other hand Thread.Sleep actually makes current thread to sleep, that way you are just blocking and wasting one thread. In async programming model you should always use Task.Delay() if you want something(continuation) happen after some delay.

2
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    'await Task.Delay()' frees the thread to do other things until the timer expires, 100% clear. But what if I cannot use 'await' since the method is not prefixed with 'async'? Then I can only call 'Task.Delay()'. In that case the thread is still blocked but I have the advantage of canceling the Delay(). Is that correct? May 4, 2017 at 8:43
  • 9
    @ErikStroeken You can pass cancellation tokens to both thread and task. Task.Delay().Wait() will block, while Task.Delay() just creates the task if used without await. What you do with that task is up to you, but the thread continues.
    – user2026256
    May 6, 2017 at 4:38
33

if the current thread is killed and you use Thread.Sleep and it is executing then you might get a ThreadAbortException. With Task.Delay you can always provide a cancellation token and gracefully kill it. Thats one reason I would choose Task.Delay. see http://social.technet.microsoft.com/wiki/contents/articles/21177.visual-c-thread-sleep-vs-task-delay.aspx

I also agree efficiency is not paramount in this case.

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    Assume we got the following situation: await Task.Delay(5000). When I kill the task I get TaskCanceledException (and suppress it) but my thread is still alive. Neat! :)
    – AlexMelw
    Jul 1, 2017 at 10:11
  • A Thread that is sleeping can be woken with Thread.Interrupt(). This will cause sleep to throw an InterruptException. learn.microsoft.com/en-us/dotnet/api/…
    – Josh
    Jul 2, 2020 at 21:33
  • You can't provide a CancellationToken if the method is not async.
    – Alex 75
    Mar 11 at 16:16
10

Delayed would be a better name for Task.Delay - because it doesn't delay an existing task but rather creates a new 'delayed' one which on the other hand can be awaited and can cause suspension to the current task's body. It is essentially a Timer but without a callback/body.

Awaiting a delayed task creates a new item in async message queue and doesn't block any threads. The same thread where the await is called will proceed working on other tasks should there be any, and will return to the await point after the timeout (or when the preceding items in queue are complete). Tasks under the hood use Threads - there can be many Tasks scheduled and executed in a single thread. On the other hand if you happen to call Thread.Sleep() the thread will block, i.e. it will be out of play for the amount of time asked and won't process any async messages from the queue.

In .NET there're 2 major approaches to parallelism. The old one with Threads, ThreadPools etc. And the new one, based on Tasks, async/await, TPL. As a rule of thumb you don't mix APIs from these two universes.

4

Yes, there are some general guidelines for when to use Task.Delay versus Thread.Sleep. Task.Delay is the preferred method for asynchronous programming in C#, because it allows you to wait asynchronously without blocking a thread. Thread.Sleep blocks the calling thread and can cause performance issues in applications with high concurrency.

There is no minimum value for Task.Delay to be effective or efficient over Thread.Sleep. In general, if you need to wait for a certain amount of time, it's best to use Task.Delay. If you need to block a thread for a specific amount of time, use Thread.Sleep.

As for the overhead of using Task.Delay in an async/await state machine, there is some overhead involved in context-switching. However, the overhead is generally small and is outweighed by the benefits of asynchronous programming. When using Task.Delay correctly, it can help improve the responsiveness and scalability of your application.

0

It is also worth to mention that Thread.Sleep(1) will fire GC faster.

This is purely based mine & team member observations. Lets assume that you have service which creates new task every for specific request (approx. 200-300 ongoing) and this task contains many weak references in flow. The task is working like state machine so we were firing the Thread.Sleep(1) on change state and by doing so we managed to optimize utilization of memory in the application - like I said before - this will makes GC to fire faster. It doesn't make so much difference in low memory consumption services (<1GB).

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    Hi Jacek. Is this an experimental observation? If not, could you provide the source of this knowledge? Apr 16, 2021 at 9:14
  • 1
    This is purely based mine & team member observations. Lets assume that you have service which creates new task every for specific request (approx. 200-300 ongoing) and this task contains many weak references in flow. The task is working like state machine so we were firing the Thread.Sleep(1) on change state and by doing so we managed to optimize utilization of memory in the application - like I said before - this will makes GC to fire faster. It doesn't make so much difference in low memory consumption services (<1GB).
    – Jacek
    Apr 21, 2021 at 9:19
-1

I had a long argument with a colleague about this and he proved to me that there are significant differences beyond what the top answer currently shows. If you await Task.Delay(SomeMilliseconds) you can actually release callers other than your immediate parent on the stack:

using System;
using System.Threading;
using System.Threading.Tasks;

namespace ConsoleApp1
{
    class Program
    {
        static async Task Main(string[] args)
        {
            Console.WriteLine("Started " + Thread.CurrentThread.ManagedThreadId);
            DoSomething1();
            Console.WriteLine("Finished " + Thread.CurrentThread.ManagedThreadId);
            Thread.Sleep(6000);
        }

        static async void DoSomething1()
        {
            Console.WriteLine("DoSomething1 Started " + Thread.CurrentThread.ManagedThreadId);
            var result = await DoSomething2();
            Console.WriteLine("DoSomething1 Finished " + Thread.CurrentThread.ManagedThreadId);
        }

        static async Task<int> DoSomething2()
        {
            Console.WriteLine("DoSomething2 Started " + Thread.CurrentThread.ManagedThreadId);

            await Task.Delay(5000);         // Will block DoSomething1 but release Main
            //Thread.Sleep(5000);           // Will block everything including Main
            //await Task.FromResult(5);     // Will return immediately (just for comparison)
            //await Task.Delay(0);          // What will it do, can you guess?

            Console.WriteLine("DoSomething2 Finished " + Thread.CurrentThread.ManagedThreadId);
            return 0;
        }
    }
}

Play with this code and observe the different effects of using Delay or using Sleep. The explanation is beyond the scope of this answer but can be summed up as "async functions don't start another thread until they await something that can't be immediately run (or the outcome determined)". This is the output:

Started 1
DoSomething1 Started 1
DoSomething2 Started 1
Finished 1
DoSomething2 Finished 4
DoSomething1 Finished 4

This isn't about DoSomething1(); in Main being fire and forget. You can prove that by using the Sleep. Also observe that when DoSomething2 "returns" from Task.Delay, it's running on a different thread.

This stuff is much smarter than I gave it credit for, believing that await just started a new thread to do stuff. I still don't pretend to understand it all, but the counter-intuitive result above shows there's much more going on under the hood than just starting threads to run code.

3
  • async void DoSomething1() <== Avoid async void. It is intended for event handlers, and the DoSomething1 doesn't look like an event handler. Oct 27, 2021 at 7:54
  • @TheodorZoulias yes, this is demonstration code intended to show what can happen if the base caller (or someone up the stack) is an event handler. You can also change that if you want to see the difference in behaviour.
    – Derf Skren
    Oct 29, 2021 at 0:24
  • 1
    Derf Skren if you have to use bad practices for some reason, you should explain what the reason is inside the answer, and also warn the readers about the dangers of the specific bad practice. Otherwise you are learning to the people habits that will later have to unlearn. Oct 29, 2021 at 6:45
-2

My opinion,

Task.Delay() is asynchronous. It doesn't block the current thread. You can still do other operations within current thread. It returns a Task return type (Thread.Sleep() doesn't return anything ). You can check if this task is completed(use Task.IsCompleted property) later after another time-consuming process.

Thread.Sleep() doesn't have a return type. It's synchronous. In the thread, you can't really do anything other than waiting for the delay to finish.

As for real-life usage, I have been programming for 15 years. I have never used Thread.Sleep() in production code. I couldn't find any use case for it. Maybe that's because I mostly do web application development.

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    Note: if you write "await Task.Delay()", it becomes synchronous again. - I don't think that statement is correct. Surely it asynchronous because the thread is free to carry on running the caller code and at some point in the future a thread will pick up this work after the delay has finished
    – Josh
    Jul 2, 2020 at 21:30

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