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I am using c# and from what I understand (mainly from using c++) that getting the system time DateTime.Now can be slow. I am trying to improve on this by using a timer/Stopwatch

class Time {
    private DateTime _starttime;
    private Stopwatch _timer;

    public Time() {
        _timer = new Stopwatch();
        _starttime = DateTime.Now; //trying to improve on multiple calls to `DateTime.Now` by only calling it once

    public DateTime Now {
        get { return _starttime + _timer.Elapsed; }


Now my class can have a member private Time _time; and call _time.Now; anytime it wants to know the current time.

My current time can be off by a little bit (I'm trying to measure latency and want to know if I am slow by a couple of seconds or more), but I do want to be able to look at the current time a lot without a performance hit of numerous system calls.

While I start creating some performance tests, I was wondering if anyone knew of a better/different way (or maybe someone knows if I am completely off base here).

share|improve this question
Where did you hear that DateTime.Now is slow? It isn't. – John Saunders Oct 15 '13 at 21:43
I'd say you're off base worrying about this before proving that you've got anything to worry about. How often are you actually expecting this to be called? Stopwatch is not an appropriate way of getting the current system time - it's a good way of measuring elapsed time, usually for performance testing. – Jon Skeet Oct 15 '13 at 21:44
Ever heard of Premature Optimization? – HighCore Oct 15 '13 at 21:44
@MarkB42: "100+ messages per minute" is a tiny number unless that "+" really means "out by several orders of magnitude". Are you really worried about that? On my laptop, calling DateTime.Now 10 million times takes about 4 seconds. Calling DateTime.UtcNow 10 million times (which would probably be a better idea anyway - use UTC everywhere if you can) takes 82 milliseconds. Still think you need to optimize? – Jon Skeet Oct 15 '13 at 21:56
@JonSkeet I don't think MarkB42 needs to optimize. I think he needs your laptop. :) – Scott Mermelstein Oct 15 '13 at 21:58
up vote 2 down vote accepted

See this question here on SO for a discussion about why DateTime.Now and DateTime.UtcNow are so slow/expensive...

Why are DateTime.Now DateTime.UtcNow so slow/expensive

If you will look at my answer in that thread (I did not have any information on why those operations are "so slow" (if, indeed, they are)), but I did share some code from NLog that is apparently trying to optimize the retrieval of the current time in the context of possibly many requests for the current time.

In essence, when determining the current time, NLog caches the result of DateTime.UtcNow. For future requests, if the current tick count (Environment.TickCount) is the same as last time, return the cached DateTime.UtcNow value. Otherwise, get the current DateTime.UtcNow value and save Environment.TickCount.

Whether or not DateTime.Now and DateTime.UtcNow are "slow", the NLog code does provide an interesting way to avoid the "slow" part of getting the current time, in the case that the result of DateTime.Now (or DateTime.UtcNow) will be the same as the last time it was called. I haven't benchmarked it, so I can't tell you if this is really faster or not. Or, if it is, how many current time operations you will have perform before you will see a benefit.

Good luck!

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I was curious, so I checked a bit. DateTime.Now internally calls DateTime.UtcNow, which in turn calls internal CLR method:


Here is MSDN documentation of the method and here is stackoverflow post with more details.

share|improve this answer
Importantly, it calls UtcNow and then does a time zone calculation (which isn't as fast as it might be). – Jon Skeet Oct 15 '13 at 22:01

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