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I'm trying to find out if there is anyway to get an idea of the CPU frequency of the system my C code is running on.

To clarify, I'm looking for an abstract solution, (one that will not be tied to a specific architecture or OS) which can give me an idea of the operating frequency of the computer that my code is executing on. I don't need to be exact, but I'd like to be in the ball park (ie. I have a 2.2GHz processor, I'd like to be able to tell in my program that I'm within a few hundred MHz of that)

Does anyone have an idea use standard C code?

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Don't reinvent the wheel. The operating system manages hardware and already has this functionality, so find a way to detect which OS the program is executing on and then extract the CPU frequency accordingly. – Alex W Jul 29 '12 at 4:14
This is basically meaningless. Say you have a program, running under a modern multitasking operating system, installed on a virtual cloud server. What is the meaning of clock speed? Even running bare-metal on a micro-controller with interrupts disabled, off of zero wait state internal memory, of what relevance is "clock speed" without knowing the instructions your program is compiled to and how many clock cycles each requires? – Chris Stratton Jul 29 '12 at 4:31
this topic may inspire you: stackoverflow.com/questions/2814569/… Regards. – TOC Jul 29 '12 at 4:45
You can't. Standard C (defined by some normative document in English) is not even supposed to be run on hardware -you can run in an emulator, or unethically using a team of human slaves to interpret your code. So the very notion of CPU and its frequency is meaning less in Standard C. Of course, for some given operating system and API, there are some specific answers. (On Linux, read sequentially /proc/cpuinfo) – Basile Starynkevitch Aug 20 '14 at 8:39
I think many of the people on SO would fail the Turing test. Anything that's slightly ambiguous returns syntax error. I found a solution to find the operating frequency for a real Intel processor (not a virtual one) using C/C++ with intrinsics and people debate what Standard C is. Will I ever understand programmers? Does anyone care about hardware anymore? – Z boson Aug 20 '14 at 15:29
up vote 7 down vote accepted

How you find the CPU frequency is both architecture AND OS dependent, and there is no abstract solution.

If we were 20+ years ago and you were using an OS with no context switching and the CPU executed the instructions given it in order, you could write some C code in a loop and time it, then based on the assembly it was compiled into compute the number of instructions at runtime. This is already making the assumption that each instruction takes 1 clock cycle, which is a rather poor assumption ever since pipelined processors.

But any modern OS will switch between multiple processes. Even then you can attempt to time a bunch of identical for loop runs (ignoring time needed for page faults and multiple other reasons why your processor might stall) and get a median value.

And even if the previous solution works, you have multi-issue processors. With any modern processor, it's fair game to re-order your instructions, issue a bunch of them in the same clock cycle, or even split them across cores.

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Yeah, that's pretty much what I figured. I was just crossing my fingers that I missed something stupid. Some way to prevent task switching, force the CPU to run single context, and make a measurement.. or something along those lines. Asking for too much. Thanks for the input. – Mike Jul 30 '12 at 3:38

It is possible to find a general solution which gets the operating frequency correctly for one thread or many threads. This does not need admin/root privileges or access to model specific registers. I have tested this on Linux and Windows on Intel processors including, Nahalem, Ivy Bridge, and Haswell with one socket up to four sockets (40 threads). The results all deviate less than 0.5% from the correct answers. Before I show you how to do this let me show the results (from GCC 4.9 and MSVC2013):

Linux:    E5-1620 (Ivy Bridge) @ 3.60GHz    
1 thread: 3.789, 4 threads: 3.689 GHz:  (3.8-3.789)/3.8 = 0.3%, 3.7-3.689)/3.7 = 0.3%

Windows:  E5-1620 (Ivy Bridge) @ 3.60GHz
1 thread: 3.792, 4 threads: 3.692 GHz: (3.8-3.789)/3.8 = 0.2%, (3.7-3.689)/3.7 = 0.2%

Linux:  4xE7-4850 (Nahalem) @ 2.00GHz
1 thread: 2.390, 40 threads: 2.125 GHz:, (2.4-2.390)/2.4 = 0.4%, (2.133-2.125)/2.133 = 0.4%

Linux:    i5-4250U (Haswell) CPU @ 1.30GHz
1 thread: within 0.5% of 2.6 GHz, 2 threads wthin 0.5% of 2.3 GHz

Windows: 2xE5-2667 v2 (Ivy Bridge) @ 3.3 GHz
1 thread: 4.000 GHz, 16 threads: 3.601 GHz: (4.0-4.0)/4.0 = 0.0%, (3.6-3.601)/3.6 = 0.0%

I got the idea for this from this link http://randomascii.wordpress.com/2013/08/06/defective-heat-sinks-causing-garbage-gaming/

To do this you you first do what you do from 20 years ago. You write some code with a loop where you know the latency and time it. Here is what I used:

static int inline SpinALot(int spinCount)
    __m128 x = _mm_setzero_ps();
    for(int i=0; i<spinCount; i++) {
        x = _mm_add_ps(x,_mm_set1_ps(1.0f));
    return _mm_cvt_ss2si(x);

This has a carried loop dependency so the CPU can't reorder this to reduce the latency. It always takes 3 clock cycles per iteration. The OS won't migrate the thread to another core because we will bind the threads.

Then you run this function on each physical core. I did this with OpenMP. The threads must be bound for this. In linux with GCC you can use export OMP_PROC_BIND=true to bind the threads and assuming you have ncores physical core do also export OMP_NUM_THREADS=ncores. If you want to programmatically bind and find the number of physical cores for Intel processors see this programatically-detect-number-of-physical-processors-cores-or-if-hyper-threading and thread-affinity-with-windows-msvc-and-openmp.

void sample_frequency(const int nsamples, const int n, float *max, int nthreads) {
    *max = 0;
    volatile int x = 0;
    double min_time = DBL_MAX;
    #pragma omp parallel reduction(+:x) num_threads(nthreads)
        double dtime, min_time_private = DBL_MAX;
        for(int i=0; i<nsamples; i++) {
             #pragma omp barrier
             dtime = omp_get_wtime();
             x += SpinALot(n);
             dtime = omp_get_wtime() - dtime;
             if(dtime<min_time_private) min_time_private = dtime;
        #pragma omp critical
            if(min_time_private<min_time) min_time = min_time_private;
    *max = 3.0f*n/min_time*1E-9f;

Finally run the sampler in a loop and print the results

int main(void) {
    int ncores = getNumCores();
    printf("num_threads %d, num_cores %d\n", omp_get_max_threads(), ncores);       
    while(1) {
        float max1, median1, max2, median2;
        sample_frequency(1000, 1000000, &max2, &median2, ncores);
        sample_frequency(1000, 1000000, &max1, &median1,1);          
        printf("1 thread: %.3f, %d threads: %.3f GHz\n" ,max1, ncores, max2);

I have not tested this on AMD processors. I think AMD processors with modules (e.g Bulldozer) will have to bind to each module not each AMD "core". This could be done with export GOMP_CPU_AFFINITY with GCC. You can find a full working example at https://bitbucket.org/zboson/frequency which works on Windows and Linux on Intel processors and will correctly find the number of physical cores for Intel processors (at least since Nahalem) and binds them to each physical core (without using OMP_PROC_BIND which MSVC does not have).

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bitbucket seems to have a "login-wall". would you mind cloning your repo to somwhere with login-free access? – frans Feb 22 at 14:45
This has broken in Skylake which changed the latency of addps – harold Jun 18 at 21:09
@harold, yeah it's 4 with Sklake instead of 3. Maybe there is one that is constant for Core2 through Skylake otherwise an exception has to be made for Skylake. – Z boson Jun 19 at 13:47

The CPU frequency is a hardware related thing, so there's no general method that you can apply to get it, it also depend on the OS you are using.

For example if you are using Linux, you can either read the file /proc/cpuinfo or you can parse the dmesg boot log to get this value or if you want you can see how linux kernel handle this stuff here and try to customize the code to meet your need :



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