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I'm interested in measuring a specific point in time down to the nanosecond using C++ in Windows. Is this possible? If it isn't, is it possible to get the specific time in microseconds at least?. Any library should do, unless I suppose it's possible with managed code. thanks

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12 Answers 12

up vote 32 down vote accepted

If you have a threaded application running on a multicore computer QueryPerformanceCounter can (and will) return different values depending on which core the code is executing on. See this MSDN article. (rdtsc has the same problem)

This is not just a theoretical problem; we ran into it with our application and had to conclude that the only reliable time source is timeGetTime which only has ms precision (which fortunately was sufficient in our case). We also tried fixating the thread affinity for our threads to guarantee that each thread always got a consistent value from QueryPerformanceCounter, this worked but it absolutely killed the performance in the application.

To sum things up there isn't a reliable timer on windows that can be used to time thing with micro second precision (at least not when running on a multicore computer).

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+1 for pointing out the poorly-known pitfalls to QueryPerformanceCounter. High performance timers on Windows just don't reliably exist, which is a giant PITA for some systems. Compare and contrast to Unix-based systems, which do it with ease... –  Shaggy Frog Dec 3 '09 at 3:50
Is this still true in 2013? msdn.microsoft.com/en-us/library/windows/desktop/… says In general, the performance counter results are consistent across all processors in multi-core and multi-processor systems, even when measured on different threads or processes. –  Martin Thompson Mar 6 '14 at 13:15
@MartinThompson I don't know actually, it's been more than four years since I wrote this answer, things might have changed during that time. –  Andreas Brinck Apr 29 '14 at 19:27

Windows has a high-performance counter API.

You need to get the ticks form QueryPerformanceCounter and divide by the frequency of the processor, provided by QueryPerformanceFrequency.

LARGE_INTEGER frequency;
if (::QueryPerformanceFrequency(&frequency) == FALSE)
    throw "foo";

if (::QueryPerformanceCounter(&start) == FALSE)
    throw "foo";

// Calculation.

if (::QueryPerformanceCounter(&end) == FALSE)
    throw "foo";

double interval = static_cast<double>(end.QuadPart - start.QuadPart) / frequency.QuadPart;

This interval should be in seconds.

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Be warned, though, that intel's SpeedStep technology may change the PerformanceFrequency without your code noticing... –  xtofl Dec 1 '09 at 12:07
@xtofl: truth be told, the values of QPF are probably not all that accurate anyway (there was a good description of the risks somewhere). But repeated measures tend to average this out relatively well. –  Konrad Rudolph Dec 1 '09 at 12:08
QueryPerformanceFrequency/Coutner doesn't necessarily use the system clock for that very reason. However that means it uses another, lower frequency timer. Either the PIC timer, ACPI timer, or the HPET on very new systems. See blogs.msdn.com/oldnewthing/archive/2007/07/05/3695356.aspx for some details –  shf301 Dec 1 '09 at 12:13
For this very reason, recent versions of Windows won't use rdtsc for QPC, and hence don't return the processor frequency for QPF. They might use the 1.193182 MHz programmable interrupt timer (PIT) or the high-speed (>10 MHz) HPET. –  DrPizza Dec 1 '09 at 12:27
QPF gives counts per second, so interval in this code is in seconds, not nanoseconds. –  markh44 Dec 1 '09 at 12:28

For future reference, with Windows Vista, 2008 and higher, Windows requires the hardware support "HPET". This operates independently of the CPU and its clock and frequency. It is possible to obtain times with accuracies to the sub-microsecond.

In order to implement this, you DO need to use QPC/QPF. The problem is that QPF (frequency) is a NOMINAL value, so using the raw calls will cause time drifts that can exceed minutes per day. In order to accound for this, you have to measure the actual frequency and check for its drift over time as heat and other physical operating conditions will affect it.

An article that describes this can be found on MSDN (circa 2004!) at this link. http://msdn.microsoft.com/en-us/magazine/cc163996.aspx

I did implement something similar to this myself (and just found the above link today!) but prefer not to use "microsecond time" because the QPC call itself is rather lengthy compared to other Windows calls such as GetSystemTimeAsFileTime, and synchronization adds more overhead. So I prefer to use millisecond timestamps (approx 70% less call time than using QPC) especially when I'm trying to get the time hundreds of thousands of times per second.

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MSDN claims that -

A Scenario object is a highly-accurate timer that logs ETW events (Event Tracing for Windows) when you start and stop it. It's designed to be used for performance instrumentation and benchmarking, and comes in both C# and C++ versions. ... As a rule of thumb on modern hardware, a call to Begin() or End() takes on the order of a microsecond, and the resulting timestamps are accurate to 100ns (i.e. 0.1 microseconds). ... Versions are available for both .NET 3.5 (written in C#), and native C++, and run on both x86 and x64 platforms. The Scenario class was originally developed using Visual Studio 2008, but is now targeted at developers using Visual Studio 2010.]

From Scenario Home Page. As far as i know, it was provided by the same people as PPL.

Addionaly you can read this High Resolution Clocks and Timers for Performance Measurement in Windows.

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The best choice are the functions QueryPerformanceCounter and QueryPerformanceFrequency.

Microsoft has just recently (2014) released more detailed information about QueryPerformanceCounter:

See Acquiring high-resolution time stamps (MSDN 2014) for the details.

This is a comprehensive article with lots of examples and detailed description. A must read for users of QPC.

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You can use the Performance Counter API as Konrad Rudolf proposed, but should be warned that it is based on the CPU frequency. This frequency is not stable when e.g. a power save mode is enabled. If you want to use this API, make sure the CPU is at a constant frequency.

Otherwise, you can create some kind of 'statistical' system, correlating the CPU ticks to the PC BIOS clock. The latter is way less precise, but constant.

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In newer Windows versions you probably want GetSystemTimePreciseAsFileTime. See Acquiring high resolution timestamps.

Lots of this varies a rather unfortunate amount based on hardware and OS version.

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With respect to Konrad Rudolph's answer, note that in my experience the frequency of the performance counter is around 3.7MHz, so sub-microsecond, but certainly not nanosecond precision. The actual frequency is hardware (and power-save mode) dependent. Nanosecond precision is somewhat unreasonable in any case since interrupt latencies and process/thread context switching times are far longer than that, and that is also the order of magnitude of individual machine instructions.

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Not in my experience. See rdtsc x86 instruction. It reads a counter updated every CPU clock cycle. –  Jonas Byström Dec 7 '14 at 22:39
@JonasByström: The Windows performance counter API doe not use the TSC for the reasons described here. The TSC is much higher resolution but less consistent. Also this answer is five years old, and its content may or may not still be valid. –  Clifford Dec 9 '14 at 22:56
@JonasByström: Also in this discussion, it can be seen that results on my PC were very different from those of the question in discussion. YMMV. It is entirely hardware implementation dependent. –  Clifford Dec 9 '14 at 23:03
You're right in that it is implementation-specific, but I've only ever seen it implemented using TSC or better. And 3.7MHz seems a very low number for anything newer than P5 (launched 21 years ago?). –  Jonas Byström Dec 10 '14 at 17:06

rdtsc instruction is the most accurate.

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In English (although with different content) en.wikipedia.org/wiki/Time_Stamp_Counter –  Clifford Dec 1 '09 at 12:15
Sorry. I did not pay attention. Fixed –  Alexey Malistov Dec 1 '09 at 14:22

Here is a Timer class that will work both for Windows and Linux :


#if defined(_MSC_VER)
#  define NOMINMAX // workaround a bug in windows.h
#  include <windows.h>
#  include <sys/time.h>

namespace Utils
   class CTimer
#     if defined(_MSC_VER)
         LARGE_INTEGER m_depart;
#     else
         timeval m_depart;
#     endif

      inline void start()
#        if defined(_MSC_VER)
#        else
            gettimeofday(&m_depart, 0);
#        endif

      inline float GetSecondes() const
#        if defined(_MSC_VER)
            LARGE_INTEGER now;
            LARGE_INTEGER freq;


            return (now.QuadPart - m_depart.QuadPart) / static_cast<float>(freq.QuadPart);
#        else
            timeval now;
            gettimeofday(&now, 0);

            return now.tv_sec - m_depart.tv_sec + (now.tv_usec - m_depart.tv_usec) / 1000000.0f;
#        endif
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Thanks for the input...though I couldn't get nano, or microsecond resolution which would have been nice, I was however able to come up with this...maybe someone else will find it usefull.

    class N_Script_Timer
			running = false;
			milliseconds = 0;
			seconds = 0;
			start_t = 0;
			end_t = 0;
		void Start()
			running = true;
			start_t = timeGetTime();
		void End()
			running = false;
			end_t = timeGetTime();
			milliseconds = end_t - start_t;
			seconds = milliseconds / (float)1000;
		float milliseconds;
		float seconds;

		unsigned long start_t;
		unsigned long end_t;
		bool running;
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To improve your resolution, you may want to add timeBeginPeriod(1) and timeEndPeriod(1) in Start() and End(), respectively. –  mskfisher Jun 25 '10 at 15:21

using QueryPerformanceCounter (for windows)

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