#include <stdio.h>
static inline unsigned long long tick() 
        unsigned long long d;
        __asm__ __volatile__ ("rdtsc" : "=A" (d) );
        return d;

int main()
        long long res;

        return 0;

I have compiled this code with gcc with -O0 -O1 -O2 -O3 optimizations. And I always get 2000-2500 cycles. Can anyone explain the reason for this output? How to spend these cycles?

First function "tick" is wrong. This is right.

Another version of function "tick"

static __inline__ unsigned long long tick()
  unsigned hi, lo;
  __asm__ __volatile__ ("rdtsc" : "=a"(lo), "=d"(hi));
  return ( (unsigned long long)lo)|( ((unsigned long long)hi)<<32 );

This is assembly code for -O3

 .file  "rdtsc.c"
.section    .rodata.str1.1,"aMS",@progbits,1
    .string "%d"
    .p2align 4,,15
.globl main
    .type   main, @function
    leal    4(%esp), %ecx
    andl    $-16, %esp
    pushl   -4(%ecx)
    pushl   %ebp
    movl    %esp, %ebp
    subl    $40, %esp
    movl    %ecx, -16(%ebp)
    movl    %ebx, -12(%ebp)
    movl    %esi, -8(%ebp)
    movl    %edi, -4(%ebp)
# 6 "rdtsc.c" 1
# 0 "" 2
    movl    %edx, %edi
    movl    %eax, %esi
# 6 "rdtsc.c" 1
# 0 "" 2
    movl    %eax, %ecx
    movl    %edx, %ebx
    subl    %esi, %ecx
    sbbl    %edi, %ebx
    movl    %ecx, 4(%esp)
    movl    %ebx, 8(%esp)
    movl    $.LC0, (%esp)
    call    printf
    movl    -16(%ebp), %ecx
    xorl    %eax, %eax
    movl    -12(%ebp), %ebx
    movl    -8(%ebp), %esi
    movl    -4(%ebp), %edi
    movl    %ebp, %esp
    popl    %ebp
    leal    -4(%ecx), %esp
    .size   main, .-main
    .ident  "GCC: (Debian 4.3.2-1.1) 4.3.2"
    .section    .note.GNU-stack,"",@progbits

This is CPU

processor   : 0
vendor_id   : GenuineIntel
cpu family  : 15
model       : 4
model name  : Intel(R) Xeon(TM) CPU 3.00GHz
stepping    : 3
cpu MHz     : 3000.105
cache size  : 2048 KB
fdiv_bug    : no
hlt_bug     : no
f00f_bug    : no
coma_bug    : no
fpu     : yes
fpu_exception   : yes
cpuid level : 5
wp      : yes
flags       : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss constant_tsc up pebs bts pni
bogomips    : 6036.62
clflush size    : 64
| |
  • 1
    Much implies you cant count it. Use many instead. – leppie Nov 30 '11 at 8:03
  • rdtsc writes to %edx:%eax`. Your tick() function is wrong. – moshbear Nov 30 '11 at 8:12
  • with second function the same output – eXXXXXXXXXXX2 Nov 30 '11 at 8:23
  • 2
    Make sure you understand why rdtsc is not a reliable timer. – Thanatos Nov 30 '11 at 8:44
  • 6
    When I run your code, I almost always get 42. Douglas Adams would be happy. :-) – NPE Nov 30 '11 at 10:16

I've tried your code on several Linux distros running on different Intel CPUs (admittedly all more recent than the Pentium 4 HT 630 you appear to be using). In all those tests I got values between 25 and 50 cycles.

My only hypothesis that's consistent with all the evidence is that you're running your operating system inside a virtual machine rather than on bare metal, and TSC is getting virtualized.

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There are any number of reasons to get a large number:

  • The OS did a context switch, and your process got put to sleep.
  • A disk seek occurred, and your process got put to sleep.
  • …any of a slew of reasons as to why your process might get ignored.

Note that rdtsc is not particularly reliable for timing without work, because:

  • Processor speeds can change, and thus, the length of a cycle (when measured in seconds) changes.
  • Different processors may have different values for the TSC for a given instant in time.

Most operatings systems have a high-precision clock or timing method. clock_gettime on Linux for example, particularly the monotonic clocks. (Understand too the difference between a wall-clock and a monotonic clock: a wall clock can move backwards — even in UTC.) On Windows, I think the recommendation is QueryHighPerformanceCounter. Typically these clocks provide more than enough accuracy for most needs.

Also, looking at the assembly, it looks like you're only getting 32-bits of the answer: I don't see %edx getting saved after rdtsc.

Running your code, I get timings from 120-150 ns for clock_gettime using CLOCK_MONOTONIC, and 70-90 cycles for rdtsc (~20 ns at full speed, but I suspect the processor is clocked down, and that's really about 50 ns). (On a laptopdesktop (darn SSH, forgot which machine I was on!) that is at about a constant 20% CPU use) Sure your machine isn't bogged down?

| |
  • struct timespec ts1,ts2; clock_gettime(CLOCK_MONOTONIC,&ts1); clock_gettime(CLOCK_MONOTONIC,&ts2); ts2.tv_nsec-ts1.tv_nsec ~8000 it is too large. – eXXXXXXXXXXX2 Nov 30 '11 at 9:44
  • =A copies values both from edx and eax. – pronvit Nov 30 '11 at 9:46
  • @mifki: If you say so: perhaps OP is mis-compiling. Do you see %edx getting saved in the assembly? – Thanatos Nov 30 '11 at 9:48
  • @Thanatos again: if compiled for 32 bits, =A constraint will copy both eax and edx to specified location. – pronvit Nov 30 '11 at 9:59
  • @eXXXXXXXXXXX: I get diffs in the ~130 range, on a Intel Core i7. – Thanatos Nov 30 '11 at 9:59

It looks like your OS disabled execution of RDTSC in user space. And your application has to switch to kernel and back, which takes a lot of cycles.

This is from the Intel Software Developer’s Manual:

When in protected or virtual 8086 mode, the time stamp disable (TSD) flag in register CR4 restricts the use of the RDTSC instruction as follows. When the TSD flag is clear, the RDTSC instruction can be executed at any privilege level; when the flag is set, the instruction can only be executed at privilege level 0. (When in real-address mode, the RDTSC instruction is always enabled.)


Answering aix's comment, I explain, why TSD is most likely the reason here.

I know only these possibilities for a program to perform a single instruction longer than usual:

  1. Running under some emulator,
  2. using self-modified code,
  3. context switch,
  4. kernel switch.

First 2 reasons cannot usually delay execution for more than a few hundred cycles. 2000-2500 cycles are more typical for context/kernel switch. But it is practically impossible to catch a context switch several times on the same place. So it should be kernel switch. Which means that either program is running under debugger or RDTSC is not allowed in user mode.

The most likely reason for OS to disable RDTSC may be security. There were attempts to use RDTSC to crack encryption programs.

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  • I didn't vote on the answer either way, but I think it would be improved if you stated why you thought TSD might be the culprit. – NPE Nov 30 '11 at 10:26
  • @aix I have explained this. Thanks. – Evgeny Kluev Nov 30 '11 at 10:53
  • @Evgeny Kluev and for clock_gettime similar explanations? I got 8000 nsec with using CLOCK_MONOTONIC id. It is huge=/ – eXXXXXXXXXXX2 Nov 30 '11 at 11:04
  • @eXXXXXXXXXXX clock_gettime is most likely performed by the kernel, so at least 2000 cycles is required. May be more. But 8000 nsec seems too high - I cannot explain it. – Evgeny Kluev Nov 30 '11 at 11:13
  • 1
    @eXXXXXXXXXXX Probably the only way to measure short intervals is to convince your sysadmin to allow RDTSC (because system has only one core and therefore there is no security risk on this system). – Evgeny Kluev Nov 30 '11 at 11:32

Instruction cache miss? (this is my guess)

Also, possibly,

Switch to hypervisor in a virtualized system? Remnants of program bootstrap (including network activity on same CPU)?

To Thanatos: On systems more recent than 2008, rdtsc() is a wall clock and does not vary with frequency steps.

Can you try this little code?

int main()
    long long res;

    fflush(stdout);           // chnage the exact timing of stdout, in case there is something to write in a ssh connection, together with its interrupts

    for (int pass = 0; pass < 2; pass++)
    printf("%d",res);     // ignore result on first pass, display the result on second pass.
    return 0;
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  • This technically isn't an answer, it's more follow up engagement. However, you don't have enough rep to comment and it looks like you're actively engaging the OP (and seem to have the knowledge to answer this), so I'm not removing this post. If you don't get a reply from the OP, please turn this into an answer that simply assumes what you stated - or it will likely be removed. – Tim Post Oct 31 '12 at 5:29

Just an idea - maybe these two rdtsc instructions are executed on different cores? rdtsc values may slightly vary across cores.

| |
  • only core, judging by /sys/devices/system/cpu/ – eXXXXXXXXXXX2 Nov 30 '11 at 9:55

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