I just ran into some unexpected behavior with DateTime.UtcNow while doing some unit tests. It appears that when you call DateTime.Now/UtcNow in rapid succession, it seems to give you back the same value for a longer-than-expected interval of time, rather than capturing more precise millisecond increments.

I know there is a Stopwatch class that would be better suited for doing precise time measurements, but I was curious if someone could explain this behavior in DateTime? Is there an official precision documented for DateTime.Now (for example, precise to within 50 ms?)? Why would DateTime.Now be made less precise than what most CPU clocks could handle? Maybe it's just designed for the lowest common denominator CPU?

public static void Main(string[] args)
    var stopwatch = new Stopwatch();
    for (int i=0; i<1000; i++)
        var now = DateTime.Now;
            "Ticks: {0}\tMilliseconds: {1}", now.Ticks, now.Millisecond));

    Console.WriteLine("Stopwatch.ElapsedMilliseconds: {0}",

  • What's the interval during which you get back the same value?
    – ChrisF
    Jan 26, 2010 at 22:26
  • 3
    Read stackoverflow.com/questions/307582/…
    – Dan Diplo
    Jan 26, 2010 at 22:27
  • When I ran the above code, I got only 3 unique values for ticks and milliseconds, and the final stop watch time was 147 ms, so it appears that on my machine it's only precise to around 50ms...
    – Andy White
    Jan 26, 2010 at 22:34
  • I should say, the loop ran a bunch of times, but I only saw 3 distinct values...
    – Andy White
    Jan 26, 2010 at 22:42
  • For anyone coming here, here is the TL;DR// Use the QueryPerformanceCounter function "Retrieves the current value of the performance counter, which is a high resolution (<1us) time stamp that can be used for time-interval measurements." (For managed code, the System.Diagnostics.Stopwatch class uses QPC as its precise time basis.) msdn.microsoft.com/en-us/library/windows/desktop/… Jun 3, 2014 at 18:00

7 Answers 7


Why would DateTime.Now be made less precise than what most CPU clocks could handle?

A good clock should be both precise and accurate; those are different. As the old joke goes, a stopped clock is exactly accurate twice a day, a clock a minute slow is never accurate at any time. But the clock a minute slow is always precise to the nearest minute, whereas a stopped clock has no useful precision at all.

Why should the DateTime be precise to, say a microsecond when it cannot possibly be accurate to the microsecond? Most people do not have any source for official time signals that are accurate to the microsecond. Therefore giving six digits after the decimal place of precision, the last five of which are garbage would be lying.

Remember, the purpose of DateTime is to represent a date and time. High-precision timings is not at all the purpose of DateTime; as you note, that's the purpose of StopWatch. The purpose of DateTime is to represent a date and time for purposes like displaying the current time to the user, computing the number of days until next Tuesday, and so on.

In short, "what time is it?" and "how long did that take?" are completely different questions; don't use a tool designed to answer one question to answer the other.

Thanks for the question; this will make a good blog article! :-)

  • 2
    @Eric Lippert: Raymond Chen has an oldie but goodie on the very topic of the difference between "precision" and "accuracy": blogs.msdn.com/oldnewthing/archive/2005/09/02/459952.aspx
    – jason
    Jan 27, 2010 at 0:40
  • 3
    Ok, good point about precision vs. accuracy. I guess I still don't really buy the statement that DateTime is not accurate because "it doesn't have to be." If I have a transactional system, and I want to mark a datetime for each record, to me it seems intuitive to use the DateTime class, but it seems that there are more accurate/precise time components in .NET, so why would DateTime be made less capable. I guess I'll have to do some more reading...
    – Andy White
    Jan 27, 2010 at 16:32
  • 11
    OK @Andy, suppose you do have such a system. On one machine you mark a transaction as occurring at January 1st, 12:34:30.23498273. On another machine in your cluster you mark a transaction as occurring at January 1st, 12:34:30.23498456. Which transaction occurred first? Unless you know that the two machines clocks are synchronized to within a microsecond of each other, you have no idea which one occurred first. The extra precision is misleading garbage. If I had my way, all DateTimes would be rounded to the nearest second, as they were in VBScript. Jan 27, 2010 at 16:52
  • 15
    not that this would resolve the problem you mention, since average unsynchronized PCs are usually out by minutes. Now if rounding to 1s doesn't solve anything then why round at all? In other words, I don't follow your argument for why the absolute values should have a smaller precision than the accuracy of delta time measurements. Feb 10, 2011 at 22:23
  • 3
    Let's say I'm creating an activity log that requires (1) knowing when something occurred in terms of calendar space (within a few seconds) (2) knowing very exactly the spacing between events (within 50 or so milliseconds). It sounds like the safest bet for this would be to use DateTime.Now for the timestamp of the first action, then use a Stopwatch for subsequent actions to determine the offset from the initial DateTime. Is this the approach you would advise, Eric?
    – devuxer
    Aug 6, 2013 at 17:38

DateTime's precision is somewhat specific to the system it's being run on. The precision is related to the speed of a context switch, which tends to be around 15 or 16 ms. (On my system, it is actually about 14 ms from my testing, but I've seen some laptops where it's closer to 35-40 ms accuracy.)

Peter Bromberg wrote an article on high precision code timing in C#, which discusses this.

  • 2
    The 4 Win7 machines that I've had over the years have all had roughly a 1ms accuracy. Now() sleep(1) Now() always resulted in a ~1ms change in datetime when I was testing.
    – Bengie
    May 14, 2015 at 20:57

I would like a precise Datetime.Now :), so I cooked this up:

public class PreciseDatetime
    // using DateTime.Now resulted in many many log events with the same timestamp.
    // use static variables in case there are many instances of this class in use in the same program
    // (that way they will all be in sync)
    private static readonly Stopwatch myStopwatch = new Stopwatch();
    private static System.DateTime myStopwatchStartTime;

    static PreciseDatetime()

            // In case the system clock gets updated
            SystemEvents.TimeChanged += SystemEvents_TimeChanged;
        catch (Exception)

    static void SystemEvents_TimeChanged(object sender, EventArgs e)

    // SystemEvents.TimeChanged can be slow to fire (3 secs), so allow forcing of reset
    static public void Reset()
        myStopwatchStartTime = System.DateTime.Now;

    public System.DateTime Now { get { return myStopwatchStartTime.Add(myStopwatch.Elapsed); } }
  • 2
    I like this solution, but I wasn't sure, so I asked my own question (stackoverflow.com/q/18257987/270348). As per the comment/answer from Servy, you shouldn't ever reset the stopwatch.
    – RobSiklos
    Aug 15, 2013 at 17:38
  • 1
    Maybe not in your context, but resetting makes sense in my context -- I just make sure its done before timing actually begins.
    – Jimmy
    Aug 15, 2013 at 22:54
  • You do not need the subscription and you do not need to reset stopwatch. Running this code every ~10ms is not necessary and consumes CPU. And this code is not thread-safe at all. Just initialize myStopwatchStartTime = DateTime.UtcNow; once, in static constructor. May 8, 2018 at 7:06
  • 1
    @VeganHunter I'm not sure if I'm understanding your comment right, but you seem to think that TimeChanged gets called every ~10ms? It doesn't.
    – Jimmy
    May 8, 2018 at 13:07
  • @Jimmy, you are right. My bad, I misunderstood the code. SystemEvents.TimeChanged event is called only if user changes system time. It is a rare event. May 8, 2018 at 23:49

From MSDN you'll find that DateTime.Now has an approximate resolution of 10 milliseconds on all NT operating systems.

The actual precision is hardware dependent. Better precision can be obtained using QueryPerformanceCounter.


For what it's worth, short of actually checking the .NET source, Eric Lippert provided a comment on this SO question saying that DateTime is only accurate to approx 30 ms. The reasoning for not being nanosecond accurate, in his words, is that it "doesn't need to be."

  • 4
    And it could be worse. In VBScript the Now() function rounds the returned result to the nearest second, despie the fact that the value returned has sufficient available precision to be precise to the microsecond. In C#, the structure is called DateTime; it's intended to represent a date and a time for typical real-world non-scientific domains, like when your life insurance expires or how long its been since your last reboot. It's not intended for high-precision sub-second timing. Jan 27, 2010 at 0:27

From MSDN documentation:

The resolution of this property depends on the system timer.

They also claim that the approximate resolution on Windows NT 3.5 and later is 10 ms :)


The resolution of this property depends on the system timer, which depends on the underlying operating system. It tends to be between 0.5 and 15 milliseconds.

As a result, repeated calls to the Now property in a short time interval, such as in a loop, may return the same value.


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