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When I execute the following program and look at the performance counter the results don't make sense to me. The average value is zero and the min/max values are ~0.4 when I would expect ~0.1 or ~100.

What is my problem?


class Program
    const string CategoryName = "____Test Category";
    const string CounterName = "Average Operation Time";
    const string BaseCounterName = "Average Operation Time Base";

    static void Main(string[] args)
        if (PerformanceCounterCategory.Exists(CategoryName))

        var counterDataCollection = new CounterCreationDataCollection();

        var avgOpTimeCounter = new CounterCreationData()
            CounterName = CounterName,
            CounterHelp = "Average Operation Time Help",
            CounterType = PerformanceCounterType.AverageTimer32

        var avgOpTimeBaseCounter = new CounterCreationData()
            CounterName = BaseCounterName,
            CounterHelp = "Average Operation Time Base Help",
            CounterType = PerformanceCounterType.AverageBase

        PerformanceCounterCategory.Create(CategoryName, "Test Perf Counters", PerformanceCounterCategoryType.SingleInstance, counterDataCollection);

        var counter = new PerformanceCounter(CategoryName, CounterName, false);
        var baseCounter = new PerformanceCounter(CategoryName, BaseCounterName, false);

        for (int i = 0; i < 500; i++)
            var sw = Stopwatch.StartNew();

            Console.WriteLine(string.Format("t({0}) ms({1})", sw.Elapsed.Ticks, sw.Elapsed.TotalMilliseconds));


Performance Counter Screenshot Performance Counter Screenshot

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3 Answers 3

up vote 25 down vote accepted

The System.Diagnostics API contains a pretty subtle source of great confusion: System.Diagnostics 'ticks' are not the same as DateTime or TimeSpan 'ticks'!

If you use StopWatch.ElapsedTicks instead of StopWatch.Elapsed.Ticks, it should work.

The documentation contains more information about this.

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This is an old thread, but I thought I'd chime in. I was told by someone from Microsoft that I shouldn't use TimeSpan, StopWatch, or DateTime when working with Performance Counters. Instead, he recommended adding the following native method to my project:

internal static class NativeMethods
    public static extern void QueryPerformanceCounter(ref long ticks); 

When incrementing a counter, he recommended doing so like this:

public void Foo()
    var beginTicks = 0L;

    var endTicks = 0L;

    NativeMethods.QueryPerformanceCounter(ref beginTicks);

    // Do stuff

    NativeMethods.QueryPerformanceCounter(ref endTicks);

    this.Counter.IncrementBy(endTicks - beginTicks);
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Did he also give a reason for that? StopWatch is just a wrapper over QueryPerformanceCounter (with a fallback if it's not available). If StopWatch.IsHighResolution is true, StopWatch.GetTimeStamp() is equivalent to QueryPerformanceCounter. – CodesInChaos Jun 11 '14 at 17:07
He cited a Microsoft Patterns and Practices book about Performance. His reasoning was that you wanted as little overhead as possible when performing the same action many times. Performance Counters may be incremented many times per second. By using a StopWatch, you're instantiating a StopWatch object each time you want to measure the performance of a method and increment the counter. These Stopwatch objects must then be garbage collected. By calling QueryPerformanceCounter directly, you cut out the middle-man and save the construction and collection of the Stopwatch object. – RobV8R Jun 12 '14 at 15:35
StopWatch.GetTimeStamp() is a static method and a thin wrapper over QueryPerformanceCounter. The only extra cost is a branch on a static field that doesn't change over time, so branch prediction should work pretty well. – CodesInChaos Jun 21 '14 at 14:08

Mark Seemann explained the confusing source of the problem but I would like to provide a little bit of additional information.

If you want to set your AverageTimer32 performance counter from a TimeSpan and not a Stopwatch you can perform the following conversion:

// TimeSpan ticks are 100 ns.
const Int32 TimeSpanTicksPerSecond = 10000000;
var performanceCounterTicks =
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Why do you need casting unchecked((Int32)...) ? performanceCounterTicks is evaluated as long, all the values are actually long numbers. – Davide Icardi Jan 2 '13 at 15:25
@DavideIcardi: Thanks, you are right that the signature of the IncrementBy method accepts an Int64 so there is no need to perform a cast. I have removed the cast from the code. – Martin Liversage Jan 2 '13 at 16:18
Nice! right what I was looking for! – vtortola Apr 24 '14 at 21:31

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