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I have a multithreaded c++ application that runs on Windows, Mac and a few Linux flavours.

To make a long story short: In order for it to run at maximum efficiency, I have to be able to instantiate a single thread per physical processor/core. Creating more threads than there are physical processors/cores degrades the performance of my program considerably. I can already correctly detect the number of logical processors/cores correctly on all three of these platforms. To be able to detect the number of physical processors/cores correctly I'll have to detect if hyper-treading is supported AND active.

My question therefore is if there is a way to detect whether hyperthreading is supported AND ENABLED? If so, how exactly.

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Check this out - stackoverflow.com/questions/150355/… –  Secko May 26 '10 at 1:21
Didn't you just ask the same question a couple days ago? stackoverflow.com/questions/2904283/… –  Ken Bloom May 27 '10 at 14:01
Have you abandoned this question? –  jcoffland Jul 16 '10 at 5:24
Did you ever get this resolved successfully? Do you still need help with this? –  jcolebrand Dec 14 '10 at 4:24

8 Answers 8

EDIT: This is no longer 100% correct due to Intel's ongoing befuddlement.

The way I understand the question is that you are asking how to detect the number of CPU cores vs. CPU threads which is different from detecting the number of logical and physical cores in a system. CPU cores are often not considered physical cores by the OS unless they have their own package or die. So an OS will report that a Core 2 Duo, for example, has 1 physical and 2 logical CPUs and an Intel P4 with hyper-threads will be reported exactly the same way even though 2 hyper-threads vs. 2 CPU cores is a very different thing performance wise.

I struggled with this until I pieced together the solution below, which I believe works for both AMD and Intel processors. As far as I know, and I could be wrong, AMD does not yet have CPU threads but they have provided a way to detect them that I assume will work on future AMD processors which may have CPU threads.

In short here are the steps using the CPUID instruction:

  1. Detect CPU vendor using CPUID function 0
  2. Check for HTT bit 28 in CPU features EDX from CPUID function 1
  3. Get the logical core count from EBX[23:16] from CPUID function 1
  4. Get actual non-threaded CPU core count
    1. If vendor == 'GenuineIntel' this is 1 plus EAX[31:26] from CPUID function 4
    2. If vendor == 'AuthenticAMD' this is 1 plus ECX[7:0] from CPUID function 0x80000008

Sounds difficult but here is a, hopefully, platform independent C++ program that does the trick:

#include <iostream>
#include <string>

using namespace std;

void cpuID(unsigned i, unsigned regs[4]) {
#ifdef _WIN32
  __cpuid((int *)regs, (int)i);

  asm volatile
    ("cpuid" : "=a" (regs[0]), "=b" (regs[1]), "=c" (regs[2]), "=d" (regs[3])
     : "a" (i), "c" (0));
  // ECX is set to zero for CPUID function 4

int main(int argc, char *argv[]) {
  unsigned regs[4];

  // Get vendor
  char vendor[12];
  cpuID(0, regs);
  ((unsigned *)vendor)[0] = regs[1]; // EBX
  ((unsigned *)vendor)[1] = regs[3]; // EDX
  ((unsigned *)vendor)[2] = regs[2]; // ECX
  string cpuVendor = string(vendor, 12);

  // Get CPU features
  cpuID(1, regs);
  unsigned cpuFeatures = regs[3]; // EDX

  // Logical core count per CPU
  cpuID(1, regs);
  unsigned logical = (regs[1] >> 16) & 0xff; // EBX[23:16]
  cout << " logical cpus: " << logical << endl;
  unsigned cores = logical;

  if (cpuVendor == "GenuineIntel") {
    // Get DCP cache info
    cpuID(4, regs);
    cores = ((regs[0] >> 26) & 0x3f) + 1; // EAX[31:26] + 1

  } else if (cpuVendor == "AuthenticAMD") {
    // Get NC: Number of CPU cores - 1
    cpuID(0x80000008, regs);
    cores = ((unsigned)(regs[2] & 0xff)) + 1; // ECX[7:0] + 1

  cout << "    cpu cores: " << cores << endl;

  // Detect hyper-threads  
  bool hyperThreads = cpuFeatures & (1 << 28) && cores < logical;

  cout << "hyper-threads: " << (hyperThreads ? "true" : "false") << endl;

  return 0;

I haven't actually tested this on Windows or OSX yet but it should work as the CPUID instruction is valid on i686 machines. Obviously, this wont work for PowerPC but then they don't have hyper-threads either.

Here is the output on a few different Intel machines:

Intel(R) Core(TM)2 Duo CPU T7500 @ 2.20GHz:

 logical cpus: 2
    cpu cores: 2
hyper-threads: false

Intel(R) Core(TM)2 Quad CPU Q8400 @ 2.66GHz:

 logical cpus: 4
    cpu cores: 4
hyper-threads: false

Intel(R) Xeon(R) CPU E5520 @ 2.27GHz (w/ x2 physical CPU packages):

 logical cpus: 16
    cpu cores: 8
hyper-threads: true

Intel(R) Pentium(R) 4 CPU 3.00GHz:

 logical cpus: 2
    cpu cores: 1
hyper-threads: true
share|improve this answer
the code in your post is not correct. –  Eric Feb 4 '11 at 0:48
Would you care to elaborate? –  jcoffland Jun 21 '11 at 0:39
@Alex, The Xeon E5520 in the example above was from a machine with two processor packages so the numbers are correct. However, the i7 does cause problems with this code. There weren't many i7s when I posted that solution. It seemed to worked at the time. With the introduction of the i7 Intel made their own CPID instruction almost impossible to use for this purpose. –  jcoffland Feb 16 '12 at 4:57
The code is still not working. It reported 16 logical cores on a i5-3317U cpu. –  xis Sep 4 '13 at 20:45
This code, if it ever worked, is now obsolete. –  Z boson Jul 18 at 11:39

Do you know boost?, assuming you are using C++ I would do it this way, for determining the number of hardware threads available:

#include <iostream>
#include <boost/thread.hpp>

int main()
    std::cout << boost::thread::hardware_concurrency();
    return 0;

Note this, does not give the number of physically cores as intended.

share|improve this answer
This is a very simple solution but it does not differentiate hardware threads, a.k.a. hyper-threads, from physical CPUs or cores which I think is the point of this question. –  jcoffland Jul 16 '10 at 5:23
Yes you are right I missed this detail, so should I delete my post? –  math Jul 19 '10 at 14:12
Don't delete your post, this information is very helpful. Thank you it helped me! –  Salgat Mar 12 at 13:42

Windows only solution desribed here:


for linux, /proc/cpuinfo file. I am not running linux now so can't give you more detail. You can count physical/logical processor instances. If logical count is twice as physical, then you have HT enabled (true only for x86).

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I've upvoted this because it works. For the textual record (and in case the link goes dead at some point), the msdn link in this answer uses GetLogicalProcessorInformation, which works ok on most recent versions of Windows. (Source says: "Windows Server 2003, Windows XP Professional x64 Edition, and Windows XP with SP3: This example reports the number of physical processors rather than the number of active processor cores.") This msdn link should not be confused with one for __cpuid, which unfortunately has non-woking example (on most post-2010 Intel CPUs.) –  user3588161 Aug 10 at 11:56

The current highest voted answer using CPUID appears to be obsolete. It reports both the wrong number of logical and physical processors. This appears to be confirmed from this answer cpuid-on-intel-i7-processors.

Specifically, using CPUID.1.EBX[23:16] to get the logical processors or CPUID.4.EAX[31:26]+1 to get the physical ones with Intel processors does not give the correct result on any Intel processor I have.

For Intel CPUID.Bh should be used Intel_thread/Fcore and cache topology. The solution does not appear to be trivial. For AMD a different solution is necessary.

Here is source code by by Intel which reports the correct number of physical and logical cores as well as the correct number of sockets https://software.intel.com/en-us/articles/intel-64-architecture-processor-topology-enumeration/. I tested this on a 80 logical core, 40 physical core, 4 socket Intel system.

Here is source code for AMD http://developer.amd.com/resources/documentation-articles/articles-whitepapers/processor-and-core-enumeration-using-cpuid/. It gave the correct result on my single socket Intel system but not on my four socket system. I don't have a AMD system to test.

I have not dissected the source code yet to find a simple answer (if one exists) with CPUID. It seems that if the solution can change (as it seems to have) that the best solution is to use a library or OS call.


Here is a solution for Intel processors with CPUID leaf 11 (Bh). The way to do this is loop over the logical processors and get the x2APIC ID for each logical processor from CPUID and count the number of x2APIC IDs were the least significant bit is zero. For systems without hyper-threading the x2APIC ID will always be even. For systems with hyper-threading each x2APIC ID will have an even and odd version.

// input:  eax = functionnumber, ecx = 0
// output: eax = output[0], ebx = output[1], ecx = output[2], edx = output[3]
//static inline void cpuid (int output[4], int functionnumber)  

int getNumCores(void) {
    //Assuming an Intel processor with CPUID leaf 11
    int cores = 0;
    #pragma omp parallel reduction(+:cores)
        int regs[4];
        if(!(regs[3]&1)) cores++; 
    return cores;

The threads must be bound for this to work. OpenMP by default does not bind threads. Setting export OMP_PROC_BIND=true will bind them or they can be bound in code as shown at thread-affinity-with-windows-msvc-and-openmp.

I tested this on my 4 core/8 HT system and it returned 4 with and without hyper-threading disabled in the BIOS. I also tested in on a 4 socket system with each socket having 10 cores / 20 HT and it returned 40 cores.

AMD processors or older Intel processors without CPUID leaf 11 have to do something different.

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Well, I upvoted you because this is better than the other answers, but you are not technically answering the question. He only wants to know if HT is enabled. Counting the active, non-HT cores doesn't do that. You need to change your code to return a yes/no answer, i.e. if(regs[3]&1) ht_cores++ and after the reduction ht_enabled = (ht_cores > 0). –  user3588161 Aug 10 at 6:30
Also, the AMD code doesn't work properly on the current Intel processors basically for the same reason that old Intel code enumeration doesn't work properly: it assumes no gaps in the APIC id space. But that assumption is incorrect for Intel processors starting in late 2009 or so. –  user3588161 Aug 10 at 6:44
Thanks for your answer, this was very useful. I have a related question: if you disable HT in the BIOS, what is the level type (e.g. bits 8:15 of the output value in ECX) reported by CPUID leaf 11 with ECX = 0? Is it "SMT" or "core"? –  void-pointer Aug 13 at 1:14
@user3588161, the OP asked to find the number of physical cores OR if hyper-threading was enabled. I answered the first part for Intel processors with leaf 11. I think that's what the OP was really after. –  Z boson Aug 13 at 7:27

I don't know that all three expose the information in the same way, but if you can safely assume that the NT kernel will report device information according to the POSIX standard (which NT supposedly has support for), then you could work off that standard.

However, differing of device management is often cited as one of the stumbling blocks to cross platform development. I would at best implement this as three strands of logic, I wouldn't try to write one piece of code to handle all platforms evenly.

Ok, all that's assuming C++. For ASM, I presume you'll only be running on x86 or amd64 CPUs? You'll still need two branch paths, one for each architecture, and you'll need to test Intel separate from AMD (IIRC) but by and large you just check for the CPUID. Is that what you're trying to find? The CPUID from ASM on Intel/AMD family CPUs?

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For Windows Platform Check this Article http://msdn.microsoft.com/en-us/library/hskdteyh(v=vs.90).aspx

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Welcome to Stack Overflow. Please note that this item (except for the (v=vs.90) part of the URL) was mentioned in the comments to one of the answers. Generally, if you answer a question a long time after it was first asked, you should make sure you're providing some good new information. In this case, it is not clear that you are doing that. –  Jonathan Leffler Oct 21 '12 at 4:31
Furthermore, the MS code, even as of 2013/2014, is shamefully incorrect on current Intel processors. The MS code basically hasn't been updated since 2008. See my answer in another thread. –  user3588161 Aug 10 at 6:47

On OS X, you can read these values from sysctl(3) (the C API, or the command line utility of the same name). The man page should give you usage information. The following keys may be of interest:

$ sysctl hw
hw.ncpu: 24
hw.activecpu: 24
hw.physicalcpu: 12  <-- number of cores
hw.physicalcpu_max: 12
hw.logicalcpu: 24   <-- number of cores including hyper-threaded cores
hw.logicalcpu_max: 24
hw.packages: 2      <-- number of CPU packages
hw.ncpu = 24
hw.availcpu = 24
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OpenMP should do the trick:

// test.cpp
#include <omp.h>
#include <iostream>

using namespace std;

int main(int argc, char** argv) {
  int nThreads = omp_get_max_threads();
  cout << "Can run as many as: " << nThreads << " threads." << endl;

most compilers support OpenMP. If you are using a gcc-based compiler (*nix, MacOS), you need to compile using:

$ g++ -fopenmp -o test.o test.cpp

(you might also need to tell your compiler to use the stdc++ library):

$ g++ -fopenmp -o test.o -lstdc++ test.cpp

As far as I know OpenMP was designed to solve this kind of problems.

share|improve this answer
How does that help with hyper-threading detection? –  jcoffland Nov 18 '12 at 3:13
It only gives the number of logical cores. –  timblechmann Jun 28 '13 at 8:30
This answer is not worse than the boost example. –  Z boson Jul 23 at 15:13

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