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I saw many topics about this, even on stackoverflow, for example:

How can I measure CPU time and wall clock time on both Linux/Windows?

I want to measure both cpu and wall time. Although person who answered a question in topic I posted recommend using gettimeofday to measure a wall time, I read that its better to use instead clock_gettime. So, I wrote the code below (is it ok, is it really measure a wall time, not cpu time? Im asking, cause I found a webpage: http://nadeausoftware.com/articles/2012/03/c_c_tip_how_measure_cpu_time_benchmarking#clockgettme where it says that clock_gettime measures a cpu time...) Whats the truth and which one should I use to measure a wall time?

Another question is about cpu time. I found the answer that clock is great about it, so I wrote a sample code for it too. But its not what I really want, for my code it shows me a 0 secods of cpu time. Is it possible to measure cpu time more precisely (in seconds)? Thanks for any help (for now on, Im interested only in Linux solutions).

Heres my code:

#include <time.h>
#include <stdio.h>      /* printf */
#include <math.h>       /* sqrt */
#include <stdlib.h>

int main()
    int i;
    double sum;

    // measure elapsed wall time
    struct timespec now, tmstart;
    clock_gettime(CLOCK_REALTIME, &tmstart);
    for(i=0; i<1024; i++){
        sum += log((double)i);
    clock_gettime(CLOCK_REALTIME, &now);
    double seconds = (double)((now.tv_sec+now.tv_nsec*1e-9) - (double)(tmstart.tv_sec+tmstart.tv_nsec*1e-9));
    printf("wall time %fs\n", seconds);

    // measure cpu time
    double start = (double)clock() /(double) CLOCKS_PER_SEC;
    for(i=0; i<1024; i++){
        sum += log((double)i);
    double end = (double)clock() / (double) CLOCKS_PER_SEC;
    printf("cpu time %fs\n", end - start);

    return 0;

Compile it like this:

gcc test.c -o test -lrt -lm

and it shows me:

wall time 0.000424s
cpu time 0.000000s

I know I can make more iterations but thats not the point here ;)


printf("CLOCKS_PER_SEC is %ld\n", CLOCKS_PER_SEC);


CLOCKS_PER_SEC is 1000000
share|improve this question
Use profiler... –  sashkello Jul 6 '13 at 11:00
@sashkello: I wish I could but I need to do it myself :) –  Brian Brown Jul 6 '13 at 11:01
Perhaps if you were not dividing the result of the clock() function by CLOCKS_PER_SEC your resolution would be better than one second, hrm? –  mah Jul 6 '13 at 11:01
@BrianBrown what happens when you take a number and divide it by another, does it get more accurate or less? Easier question: does it get larger or smaller? Yes, the website you link does the division in its example, but it falls on you to understand the reasoning, and without doubt, whatever reason it has is not for improved resolution. As to "correct cpu time for sure" -- if clock() is returning correct cpu time, then by not modifying it, of course. NEVER type in code you find in a random place without pondering what it actually does first. –  mah Jul 6 '13 at 11:07
"Whats the truth and which one should I use to measure a wall time?" - The fact is that there are many different ways to measure wall time. Some more precise than others. Some more portable than others. You get to take you pick and use whatever suits your fancy. My answer on the question you linked uses gettimeofday() because that was the first thing that worked well enough for me. –  Mysticial Jul 6 '13 at 16:44

1 Answer 1

up vote 3 down vote accepted

According to my manual page on clock it says

POSIX requires that CLOCKS_PER_SEC equals 1000000 independent of the actual resolution.

When increasing the number iterations on my computer the measured cpu-time starts showing on 100000 iterations. From the returned figures it seems the resolution is actually 10 millisecond.

Beware that when you optimize your code, the whole loop may disappear because sum is a dead value. There is also nothing to stop the compiler from moving the clock statements across the loop as there are no real dependences with the code in between.

Let me elaborate a bit more on micro measurements of performance of code. The naive and tempting way to measure performance is indeed by adding clock statements as you have done. However since time is not a concept or side effect in C, compilers can often move these clock calls at will. To remedy this it is tempting to make such clock calls have side effects by for example having it access volatile variables. However this still doesn't prohibit the compiler from moving highly side-effect free code over the calls. Think for example of accessing regular local variables. But worse, by making the clock calls look very scary to the compiler, you will actually negatively impact any optimizations. As a result, mere measuring of the performance impacts that performance in a negative and undesirable way.

If you use profiling, as already mentioned by someone, you can get a pretty good assessment of the performance of even optimized code, although the overall time of course is increased.

Another good way to measure performance is just asking the compiler to report the number of cycles some code will take. For a lot of architectures the compiler has a very accurate estimate of this. However most notably for a Pentium architecture it doesn't because the hardware does a lot of scheduling that is hard to predict.

Although it is not standing practice I think compilers should support a pragma that marks a function to be measured. The compiler then can include high precision non-intrusive measuring points in the prologue and epilogue of a function and prohibit any inlining of the function. Depending on the architecture it can choose a high precision clock to measure time, preferably with support from the OS to only measure time of the current process.

share|improve this answer
according to cplusplus.com/reference/ctime/clock I need to divide clocks difference by CLOCKS_PER_SEC, right? But your point is, only with 100000 or more iterations I can see results in seconds? –  Brian Brown Jul 6 '13 at 11:25
My point is that even though CLOCKS_PER_SEC is 1000000, the clock function will return multiples of 10000 on my system and I guess on most Linux systems. So to get a reasonable measurement you need to run the application for at least some tenths of seconds. But really my point is that it is very hard to do such micro measurements on code, because the compiler is unaware of the things you want to measure and can schedule your measuring points in unexpected ways. –  Bryan Olivier Jul 6 '13 at 11:33
@BrianBrown I've added some more elaboration on micro measurements. –  Bryan Olivier Jul 6 '13 at 11:50

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