Given that the Stopwatch class in C# can use something like three different timers underneath e.g.

  • System timer e.g. precision of approx +-10 ms depending on timer resolution that can be set with timeBeginPeriod it can be approx +-1 ms.
  • Time Stamp Counter (TSC) e.g. with a tick frequency of 2.5MHz or 1 tick = 400 ns so ideally a precision of that.
  • High Precision Event Timer (HPET) e.g. with a tick frequency of 25MHz or 1 tick = 40 ns so ideally a precision of that.

how can we measure the observable precision of this? Precision being defined as

Precision refers to the closeness of two or more measurements to each other.

Now if the Stopwatch uses HPET does this mean we can use Stopwatch to get measurements of a precision equivalent to the frequency of the timer?

I don't think so, since this requires us to be able to use the timer with zero variance or a completely fixed overhead, which as far as I can tell is not true for Stopwatch. For example, when using HPET and calling:

var before_ticks = Stopwatch.GetTimestamp();
var after_ticks = Stopwatch.GetTimestamp();
var diff_ticks = after_ticks - before_ticks;

then the diff will be say approx 100 ticks or 4000 ns and it will have some variance too.

So how could one experimentally measure the observable precision of the Stopwatch? So it supports all possible timer modes underneath.

My idea would be to search for the minimum number of ticks != 0, to first establish the overhead in ticks of the Stopwatch that is for system timer this would be 0 until e.g. 10ms which is 10 * 1000 * 10 = 100,000 ticks since system timer has a tick resolution of 100ns, but the precision is far from this. For HPET it will never be 0 since the overhead of calling Stopwatch.GetTimestamp() is higher than the frequency of the timer.

But this says nothing about how precise we can measure using the timer. My definition would be how small a difference in ticks we can measure reliably.

The search could be performed by measuring different number of iterations ala:

var before = Stopwatch.GetTimestamp();
for (int i = 0; i < iterations; ++i)
{
    action(); // Calling a no-op delegate Action since this cannot be inlined
}
var after = Stopwatch.GetTimestamp();

First a lower bound could be found where all of say 10 of measurements for a given number of iterations yield a non-zero number of ticks, save these measurements in long ticksLower[10]. Then the closest possible number of iterations that yield tick difference that is always higher that any of the first 10 measurements could be found, save these in long ticksUpper[10].

Worst case precision would then be the highest ticks in ticksUpper minus lowest ticks in ticksLower.

Does this sound reasonable?

Why do I want to know the observable precision of the Stopwatch? Because this can be used for determining the length of time you would need to measure for to get a certain level of precision of micro-benchmarking measurements. I.e. for 3 digit precision the length should be >1000 times the precision of the timer. Of course, one would measure multiple times with this length.

  • I'm consistently getting a 0 or 1 for diff_ticks. My Stopwatch.Frequency is 1948294. What hardware/OS do you use? – Lucas Trzesniewski Mar 30 '16 at 19:59
  • By the way check the GetSystemTimePreciseAsFileTime function (you'll have to P/Invoke it). – Lucas Trzesniewski Mar 30 '16 at 20:03
  • I agree with @LucasTrzesniewski. diff_ticks is 0 or 1, with about 85% zeros at a frequency of 2610117 running in release mode on an i7 920 at 2.66 GHz. – Andrew Morton Mar 30 '16 at 20:18
  • Run the test for 1000.0 / Stopwatch.Frequency seconds and you're guaranteed to get a thousand ticks. However, you have to keep in mind that the clock is not that accurate, you can't measure less than 0.0156 seconds. And that measuring elapsed time is too expensive, it affects the result too much. So this can't work reliably, the only thing you can do is run action() up front several times to take a guestimate at how long it takes, then calculate iterations. It doesn't have to be perfect. – Hans Passant Mar 30 '16 at 23:25
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    @LucasTrzesniewski that just means you are using the TSC timer because you haven't enabled the HPET timer. You can enable by running "bcdedit /set useplatformclock true" and rebooting. – nietras Mar 31 '16 at 11:02

The Stopwatch class exposes a Frequency property that is the direct result of calling SafeNativeMethods.QueryPerformanceFrequency. Here is an excerpt of the property page:

The Frequency value depends on the resolution of the underlying timing mechanism. If the installed hardware and operating system support a high-resolution performance counter, then the Frequency value reflects the frequency of that counter. Otherwise, the Frequency value is based on the system timer frequency.

  • I thought you might, but you didn't mention it in your post and it seemed the most exact way of determining the precision of the underlying timer. StopWatch is a class to measure how much time elapsed from one point to another, though. The smallest time between two measurements - which is NOT the precision - depends on when you actually take the measurements and has little to do with the class that measures the time. The value of the time might be larger or smaller based on specific implementations, as well. Is there a larger purpose to your question? Maybe we should start with that. – Siderite Zackwehdex Mar 31 '16 at 11:15
  • That is exactly why I want to measure/estimate the precision of the timer, to be able to have a good basis for doing precise micro-benchmarking in the shortest possible time for example. This is not just for doing ad-hoc measurements but something ala BenchmarkDotNet, but they take the conservative route and run for a "long" time e.g. each measurement is for 1 second by finding number of iterations that give that time period for a given action that is being benchmarked. – nietras Mar 31 '16 at 11:26
  • Sorry, I might not really get what you want, because it sounds like you want to know how long it takes to give you the exact time, which is a bit circular. I would compute how long does it take to iterate an empty loop, how long it takes to iterate the same loop with GetTimeStamp and from there estimate how long it takes to execute GetTimeStamp, then maybe subtract that value from the measured time returned by the method. However, you have no idea how the compiler optimizes these calls. – Siderite Zackwehdex Mar 31 '16 at 11:34
  • Yeah, maybe I'm not explaining myself very well ;) What you describe sounds like overhead, this is not what I am looking for. Basically I want to determine the precision with which one can make timer measurements, not the theoretical precision given by Frequency (which isn't true for system timer anyway), but the precision that is observable or repeatable... – nietras Mar 31 '16 at 11:44

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