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I'd like to specify the cpu-affinity of a particular pthread. All the references I've found so far deal with setting the cpu-affinity of a process (pid_t) not a thread (pthread_t). I tried some experiments passing pthread_t's around and as expected they fail. Am I trying to do something impossible? If not, can you send a pointer please? Thanks a million.

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5 Answers 5

Assuming linux:

The interface to setting the affinity is - as you've probably already discovered:

int sched_setaffinity(pid_t pid,size_t cpusetsize,cpu_set_t *mask);

Passing 0 as the pid, and it'll apply to the current thread only, or have other thread report their kernel pid with the linux specific call pid_t gettid(void); and pass that in as the pid.

Quoting the man page

The affinity mask is actually a per-thread attribute that can be adjusted independently for each of the threads in a thread group. The value returned from a call to gettid(2) can be passed in the argument pid. Specifying pid as 0 will set the attribute for the calling thread, and passing the value returned from a call to getpid(2) will set the attribute for the main thread of the thread group. (If you are using the POSIX threads API, then use pthread_setaffinity_np (3) instead of sched_setaffinity().)

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"If you are using the POSIX threads API, then use pthread_setaffinity_np (3) instead of sched_setaffinity()". How should I know if i'm using POSIX API? How to select use sched_setaffinity or pthread_setaffinity_np? –  javapowered Nov 24 '14 at 10:41
in RHEL 7 this is what man says If pid is zero, then the calling process is used. (process, not thread) –  javapowered Nov 26 '14 at 19:19
@javapowered That sentence in the man page is wrong. Read the NOTES section too. –  nos Nov 26 '14 at 20:43

This is a wrapper I've made to make my life easier. Its effect is that the calling thread gets "stuck" to the core with id core_id:

// core_id = 0, 1, ... n-1, where n is the system's number of cores

int stick_this_thread_to_core(int core_id) {
   int num_cores = sysconf(_SC_NPROCESSORS_ONLN);
   if (core_id < 0 || core_id >= num_cores)
      return EINVAL;

   cpu_set_t cpuset;
   CPU_SET(core_id, &cpuset);

   pthread_t current_thread = pthread_self();    
   return pthread_setaffinity_np(current_thread, sizeof(cpu_set_t), &cpuset);
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For future reference: It's needed to add #define _GNU_SOURCE and #include <sched.h> to work on gcc 4.7.2. Worked perfectly on arch linux, tested with oprofile and pthread. –  JohnTortugo May 19 '13 at 4:40
Also, #include <unistd.h> is needed for sysconf with gcc 4.8.1. –  highphi Sep 13 '13 at 16:36
For some reason it works on my computer with two cores, however on my other computer with 4 cores it gives the following error: <pre>Segmentation fault (core dumped)</pre> –  oneiros Sep 14 '13 at 22:49
Nice. Rather than failing when core_id > num_cores, another parameter could specify the default in that case: core_id = default_core; -1 as the default could mean to fail. –  Brent Foust Feb 18 '14 at 18:01
@Rubistro, that might lead to undesired effects, such as sticking a thread to a core X, when you wanted, say, core 6 to execute it... If the requested operation cannot be performed, I think it makes sense to return an error code... –  Eduardo Bezerra Feb 19 '14 at 15:08
//compilation: gcc -o affinity affinity.c -lpthread

#define _GNU_SOURCE
#include <sched.h>   //cpu_set_t , CPU_SET
#include <pthread.h> //pthread_t
#include <stdio.h>

void *th_func(void * arg); 

int main(void) {
  pthread_t thread; //the thread



  return 0;

void *th_func(void * arg)
  //we can set one or more bits here, each one representing a single CPU
  cpu_set_t cpuset; 

  //the CPU we whant to use
  int cpu = 2;

  CPU_ZERO(&cpuset);       //clears the cpuset
  CPU_SET( cpu , &cpuset); //set CPU 2 on cpuset

   * cpu affinity for the calling thread 
   * first parameter is the pid, 0 = calling thread
   * second parameter is the size of your cpuset
   * third param is the cpuset in which your thread will be
   * placed. Each bit represents a CPU
  sched_setaffinity(0, sizeof(cpuset), &cpuset);

  while (1);
       ; //burns the CPU 2

  return 0;

In POSIX environment you can use cpusets to control which CPUs can be used by processes or pthreads. This type of control is called CPU affinity.

The function 'sched_setaffinity' receives pthread IDs and a cpuset as parameter. When you use 0 in the first parameter, the calling thread will be affected

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perfect example. +1 –  Vishwadeep Nov 5 '14 at 4:33

The scheduler will change the cpu affinity as it sees fit; to set it persistently please see cpuset in /proc file system.


Or you can write a short program that sets the cpu affinity periodically (every few seconds) with sched_setaffinity

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Please find the below example program to cpu-affinity of a particular pthread.

Please add appropriate libs.

double waste_time(long n)

    double res = 0;
    long i = 0;
    while (i <n * 200000) {
        res += sqrt(i);
    return res;

void *thread_func(void *param)

    unsigned long mask = 1; /* processor 0 */

    /* bind process to processor 0 */
    if (pthread_setaffinity_np(pthread_self(), sizeof(mask),
        &mask) <0) {

    /* waste some time so the work is visible with "top" */
    printf("result: %f\n", waste_time(2000));

    mask = 2;   /* process switches to processor 1 now */
    if (pthread_setaffinity_np(pthread_self(), sizeof(mask),
        &mask) <0) {

    /* waste some more time to see the processor switch */
    printf("result: %f\n", waste_time(2000));

int main(int argc, char *argv[])

    pthread_t my_thread;

    if (pthread_create(&my_thread, NULL, thread_func, NULL) != 0) {

Compile above program with -D_GNU_SOURCE flag.

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Your program will work, but there are several issues that I see: 1) pthread_setaffinity_np takes a cpu_set_t, not an unsigned long. One should use the CPU_SET, CPU_ZERO, etc. macros to manipulate the masks before passing to the affinity functions 2) Finally, you don't need to launch a new thread with pthread_create to run the main part of your code –  J Teller Apr 27 '12 at 21:25

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