I'm developing Windows 10 Universal App in C#/Xaml, I'm using await Task.Delay(delayInMilliseconds) to suspend a method for given time. My scenario is somewhat realtime, so it's very sensitive to time changes, and I need to make sure that when i suspend a method for let's say 8 millisecods it is suspended for 8 millisecods. I have noticed that the actual time span for which ** Task.Delay ** suspends the method differes from what is passed as delay parameter, for 1 up to 30 ms, the length of "deviation" being different in each call. So, when I want to sleep for 8 milliseconds, my system sleeps for 9 to 39 milliseconds, and this completly ruins my scenario. So, my question what is the best way to substitute ** Task.Delay ** and to achieve good precision? For the time being I use this method:

 public static void Delay1(int delay)
    {
        long mt = delay * TimeSpan.TicksPerMillisecond;
        Stopwatch s = Stopwatch.StarNew();
        while (true)
        {
            if (s.Elapsed.TotalMilliseconds > delay)
            {
                return;
            }
        }
    }

but it guees it consumes a lot of resources, that is 100% of a processor's core. If an user has small number of processor's cores, this would be very insufficient.

  • 1
    Task.Delay isn't a timer and isn't meant for precision timing. It's not only that it uses a System.Threading.Timer, but it also incurrs the cost of scheduling its continuation on a ThreadPool thread. The OS's timer resolution is 15.6 ms so you are asking for a delay way out of limits – Panagiotis Kanavos Jul 31 '15 at 10:08
  • 1
    What are you trying to do? Why do you want such high accuracy? There are probably other ways to achieve the same thing. I can't think of any case where a Universal App requires kernel-level accuracy. Are you trying to control animation or sound playback? – Panagiotis Kanavos Jul 31 '15 at 10:16
  • @Panagiotis Kanavos: Yes, precisely, I'm trying to control animation, sound playback and network usage, that's why I need such accuracy. – xcoder37 Jul 31 '15 at 11:11
  • You don't need such accuracy, you only need to set the proper transition timings in XAML. Instead of trying to control things frame by frame, simply set the animations and their timings. .NET will make sure the proper animations start executing at the proper points – Panagiotis Kanavos Jul 31 '15 at 11:14
  • Read to the bottom to see the amazing solution that xcoder37 finally came up with: a timer that does not consume 100% cpu time and is accurate to less than half a millisecond over any time span. When I need more accuracy I use this for the majority of my timed wait, and spin the last millisecond or so, checking a stopwatch. Perfect!! – Craig.Feied Mar 9 at 2:36

According to msdn it's not possible to achieve more accuracy due to system clock resolution:

This method depends on the system clock. This means that the time delay will approximately equal the resolution of the system clock if the millisecondsDelay argument is less than the resolution of the system clock, which is approximately 15 milliseconds on Windows systems.

  • Would you recommend any highr-resolution accurate substitute for this method? System.Diagnostics.Stopwatch for example is based on ** QueryPerformanceCounter ** API (msdn.microsoft.com/en-us/library/windows/desktop/…), but the only solution I came up with so far is poling the Stopwatch in loop, which is indeed accurate, but heavy on resources – xcoder37 Jul 31 '15 at 10:36
  • MSDN is wrong; there are many ways to achieve better accuracy, just not with the exposed system timers or things that depend on them. – Craig.Feied Mar 9 at 2:38

You should use multi-media timers. Those are much accurate. Take a look here: https://social.msdn.microsoft.com/Forums/vstudio/en-US/2024e360-d45f-42a1-b818-da40f7d4264c/accurate-timer

  • This won't help because Task.Delay already uses these timers. The method suggested for multimedia timers is obsolete and replaced with CreateTimerQueueTimer. Task.Delay uses a System.Threading.Timer internally which ... uses CreateTimerQueueTimer. – Panagiotis Kanavos Jul 31 '15 at 10:14
  • Take a look on my answer. The error is only 3 to 4 microseconds. Here: s23.postimg.org/qf4ke0dgr/solution.png – ZDS Alpha Aug 3 '15 at 11:33

Seems like I've found a sattisfactory solution:

new System.Threading.ManualResetEvent(false).WaitOne(delayInMilliseconds) instead of await Task.Delay(delayInMilliseconds);

I've used following code to test both methods:

async void Probe()
    {
        for (int i = 0; i < 1000; i++)
        {
            // METHOD 1
            await Task.Delay(3); 
           // METHOD 2
           new System.Threading.ManualResetEvent(false).WaitOne(3); 
         }
    }

The code above should take exactly 3 seconds to execute. With METHOD 2 it took around 3300 ms, so the eror is 0.3 ms per call. Acceptable for me. But the METHOD 1 tok around 15 seconds (!) to execute which gives totally unacceptable error for my scenario. I only wonder what's the usage of CPU with Method 2, hope it doesn't use polling, the documentation says something about use of signals but unfortnatelly it doesn't automatically mean that polling isn't used spomewhere else.

  • Hm, that's interesting. Both should use the same timing facility in the kernel. Did you really not change anything else such as raising the timer frequency? The Chrome browser increases it to 1ms for example. – usr Jul 31 '15 at 11:09
  • 1
    I can't reproduce this. This will not work reliably. – usr Jul 31 '15 at 11:11
  • This artificial test says nothing about how this would work in an animation scenario as you mentioned in comments. Instead of trying to handle each individual frame or sound packet, use animations and transitions to define when each animation should start, end, etc. – Panagiotis Kanavos Jul 31 '15 at 11:17
  • BTW, using animations is much better for battery life and/or heat generation. – Panagiotis Kanavos Jul 31 '15 at 11:24
  • Whenever in XAML I extensively use storyboards, and transitions etc. and I think really they are great. I'm rather not the type who likes reinventing the wheel, but this case is not typical: I cooperate through XAML's SwapChainPanel component with C++/DirectX component which in addition to XAML does rendering on its own, and I have to synchronize them too. Unfortunatelly I can't go too much in app's details here. – xcoder37 Jul 31 '15 at 11:36

After working hard I found a solution to sleep the thread for specific time and the error is just 3 to 4 microseconds on my Core 2 Duo CPU 3.00 GHz. Here it is:enter image description here

Here is code.(C# code is also given at the end.) Use "ThreadSleepHandler":

Public Class ThreadSleepHandler
Private Stopwatch As New Stopwatch
Private SpinStopwatch As New Stopwatch
Private Average As New TimeSpan
Private Spinner As Threading.SpinWait
Public Sub Sleep(Time As TimeSpan)
    Stopwatch.Restart()
    If Average.Ticks = 0 Then Average = GetSpinTime()
    While Stopwatch.Elapsed < Time
        If Stopwatch.Elapsed + Average < Time Then
            Average = TimeSpan.FromTicks((Average + GetSpinTime()).Ticks / 2)
        End If
    End While
End Sub
Public Function GetSpinTime() As TimeSpan
    SpinStopwatch.Restart()
    Spinner.SpinOnce()
    SpinStopwatch.Stop()
    Return SpinStopwatch.Elapsed
End Function
End Class

Here is example code:

Sub Main()
    Dim handler As New ThreadSleepHandler
    Dim stopwatch As New Stopwatch
    Do
        stopwatch.Restart()
        handler.Sleep(TimeSpan.FromSeconds(1))
        stopwatch.Stop()
        Console.WriteLine(stopwatch.Elapsed)
    Loop
End Sub

For c# programmers here is code (I have converted this code but I am not sure):

static class Main
{
public static void Main()
{
    ThreadSleepHandler handler = new ThreadSleepHandler();
    Stopwatch stopwatch = new Stopwatch();
    do {
        stopwatch.Restart();
        handler.Sleep(TimeSpan.FromSeconds(1));
        stopwatch.Stop();
        Console.WriteLine(stopwatch.Elapsed);
    } while (true);
}
}
public class ThreadSleepHandler
{
private Stopwatch Stopwatch = new Stopwatch();
private Stopwatch SpinStopwatch = new Stopwatch();
private TimeSpan Average = new TimeSpan();
private Threading.SpinWait Spinner;
public void Sleep(TimeSpan Time)
{
    Stopwatch.Restart();
    if (Average.Ticks == 0)
        Average = GetSpinTime();
    while (Stopwatch.Elapsed < Time) {
        if (Stopwatch.Elapsed + Average < Time) {
            Average = TimeSpan.FromTicks((Average + GetSpinTime()).Ticks / 2);
        }
    }
}
public TimeSpan GetSpinTime()
{
    SpinStopwatch.Restart();
    Spinner.SpinOnce();
    SpinStopwatch.Stop();
    return SpinStopwatch.Elapsed;
}
}

Note: "ThreadSleepHandler" is thread unsafe. You cannot use a single "ThreadSleepHandler" for multiple threads.

The first sleep time will not be enough accurate.

  • Unfortunately, this doesn't answer the question at all. The OP wanted to control animations by executing multiple actions per second. Your code puts the thread to sleep for an entire second. At the 1 sec scale, the difference between a Timer or freezing and thawing the thread isn't really significant – Panagiotis Kanavos Aug 3 '15 at 12:12
  • So he needs to create a timer that should raise event at accurate time? – ZDS Alpha Aug 3 '15 at 13:42
  • Your solution polls the Stopwatch in loop which is heavy on CPU. I checked in resources monitor and CPU's usage increases noticably when I put thread to sleep using this method. In fact, your solution comes down to method Delay1() which is in my code snipped in my question. – xcoder37 Aug 4 '15 at 11:30
  • "ThreadSleepHandler" spins CPU to decrease CPU usage but it enters in loop (without spin) when the thread pointer is about to exit "Sleep()". This loop starts "one spin time" (or 8 to 10 milliseconds) before time to leave . "ThreadSleepHandler" cannot be used for sleeping thread for short time. I bet you cannot achieve more accuracy. I have implemented this to make a such accurate time. You can check it at the end of the discussion: social.msdn.microsoft.com/Forums/vstudio/en-US/… – ZDS Alpha Aug 4 '15 at 13:36

In my tests, I found that DispatcherTimer at 20ms intervals will deliver sufficiently smooth animation if you must do it in code. Doing it in XAML is another alternative as already mentioned.

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