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I am working towards achieving +/- ms timing precision. I want the time between threads to be 10ms, but when I measure the time I get something closer to 15ms.

I am trying to understand if the problem is due to the way I am measuring time or if I am measuring the time accurately and there is some delay introduced by CreateTimerQueueTimer

My code looks like

#include "stdafx.h"
#include <iostream>
#include <Windows.h>
#include <chrono>
#include <ctime>
using namespace std;
int current;
long long* toFill;
void talk()
    chrono::time_point<chrono::system_clock> tp = \
    toFill[current++]=chrono::duration_cast<chrono::milliseconds>(tp.time_since_epoch()).count() ;

int _tmain(int argc, _TCHAR* argv[])
    HANDLE hTimer;
    current = 0;
    toFill = new long long[1000];
    for (int i = 1;i<current;i++)
        cout << i << " : " << toFill[i]-toFill[i-1]<< endl;
    return 0;

Output looks like

161 : 16 <-- Should be 10
162 : 15
163 : 16
164 : 16
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3 Answers

up vote 3 down vote accepted

The accuracy of timers and the real time clock in Windows is limited by the clock tick interrupt rate. Which by default tocks 64 times per second, 1/64 sec = 15.625 msec. Just like you saw.

Increasing that rate is actually possible, call timeBeginPeriod(10) at the start of your program to get 10 msec accuracy.

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Not sure what you mean by "the real time clock in Windows". Schedulable timers indeed are only as accurate as the clock interrupt, but the time can be queried with much much better precision. –  Ben Voigt Jan 21 '13 at 21:33
The suggestion is a good one, but I don't think the statement about clock accuracy is true. The question I want to understand is if sleep() is wrong or if the clock::now() is wrong. When I increase the granularity by setting timeBeginPeroid(10) my sleep appears to wakeup faster (a similar code with mutex has them unlock quicker). This would hint that the clock::now() is always reporting the right time and that sleep() is the cause for the discrepancy. Sleeps too long. Perhaps, implementing a spinlock would clear this up. –  Mikhail Jan 21 '13 at 23:53
I don't know what _sleep() is. Use Sleep() instead. Regardless, it should have nothing to do with the interval between talk() callbacks. –  Hans Passant Jan 22 '13 at 0:06
@HansPassant, this is also not a bad suggestion, but I still need to know if discrepancies come from my measuring instrument (now()) or from the amount of work I am claiming to do sleep(). The way I understand your post, sleep(10) will sleep exactly for 10, but my metering (with now()) maybe inaccurate. I don't think this is the case. –  Mikhail Jan 22 '13 at 0:25
@Mikhail - the error is in the call to Sleep. Sleep uses the OS timer interrupt (whose interval specified in timeBeginPeriod) to determine when to wake back up. If you set the timer interrupt at a 10ms interval and call Sleep(1) you will actually sleep for 10ms (at least!) –  ajs410 Apr 3 at 20:25
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CreateTimerQueue is not meant for precise timing. It uses thread-pools underneath, which may introduce significant delays.

From MSDN's CreateTimerQueueTimer function document:

Callback functions are queued to the thread pool. These threads are subject to scheduling delays, so the timing can vary depending on what else is happening in the application or the system.

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If you need better resolution than 15 ms then this will hopefully help:

Implement a Continuously Updating, High-Resolution Time Provider for Windows

As for measuring time: If I had access to Windows or Visual Studio I would give high_resolution_clock a shot. (I switched to Linux 7 years ago, sorry, I can't check it myself.) As Xeo wrote: "high_resolution_clock is a typedef for system_clock with MSVC."

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high_resolution_clock is a typedef for system_clock with MSVC. :/ –  Xeo Jan 21 '13 at 13:07
@Xeo Thanks, I didn't know that. Edited the answer accordingly! –  Ali Jan 21 '13 at 13:10
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