How can you tell, from the command line, how many cores are on the machine when you're running Mac OS X? On Linux, I use:

x=$(awk '/^processor/ {++n} END {print n+1}' /proc/cpuinfo)

It's not perfect, but it's close. This is intended to get fed to make, which is why it gives a result 1 higher than the actual number. And I know the above code can be written denser in Perl or can be written using grep, wc, and cut, but I decided the above was a good tradeoff between conciseness and readability.

VERY LATE EDIT: Just to clarify: I'm asking how many logical cores are available, because this corresponds with how many simultaneous jobs I want make to spawn. jkp's answer, further refined by Chris Lloyd, was exactly what I needed. YMMV.

  • For linux, I avoid having to add one by using: grep ^processor /proc/cpuinfo | wc -l
    – courtlandj
    Commented Jul 1, 2014 at 21:30
  • 4
    See stackoverflow.com/questions/6481005/… Note the nproc command. Commented Jul 1, 2014 at 22:57
  • sorry if this is a noob question but when you mean logical cores you mean physical cores? How are the terms different (or not)? Just to understand what your asking better. Commented Oct 31, 2016 at 16:26
  • No, I don't mean physical cores. A physical core is a group of transistors on a chip that implements a core. A logical core is something that appears to be a core to the operating system and user programs. In the vast number of cases, these are the same. However, Intel's Hyperthreading technology (and maybe others) makes each physical core appear as two logical cores. Commented Nov 20, 2016 at 14:27
  • 1
    As a FYI, on Linux nowadays the nproc utility is the preferred way to find out this information, rather than trying to count processor information. nproc lets you find out the total cores and the maximum your process is allowed to spawn. That's an important distinction sometimes.
    – Greg Smith
    Commented Jun 25, 2020 at 19:44

17 Answers 17


You can do this using the sysctl utility:

sysctl -n hw.ncpu
  • 9
    On a mid-2011 1.7GHz MacBook Air, this command says 4. However, I suspected it really only has 2 cores, and system_profiler SPHardwareDataType seems to agree. Can you explain the discrepancy? Commented Sep 24, 2011 at 1:42
  • 16
    @JoshuaFlanagan how many physical cores does the machine have and what chip is it? If it's a core i7 with 2 physical cores for example, it will show as 4 because the chip supports hyper-threading and presents itself to the OS as if it has 4 addressable cores.
    – jkp
    Commented Sep 26, 2011 at 8:51
  • 157
    If you really care, try sysctl hw.physicalcpu or sysctl hw.logicalcpu, and in general sysctl hw for all of the options. Commented Nov 1, 2011 at 0:25
  • 30
    Editors: Please don't change the answer years after I've accepted it. Commented May 13, 2014 at 17:04
  • 2
    Doesnt work on Early 2015 Mac running El Capitan. I get "error: "hw.ncpu" is an unknown key". There is no cpu related entry in /etc/sysctl.conf as well. Frozen Flame's answer worked.
    – TheGT
    Commented Oct 5, 2016 at 23:39

Even easier:

sysctl -n hw.ncpu
  • 3
    The number reported by this is actually double the number of cores is your processor supports hyper-threading.
    – mikeazo
    Commented Apr 24, 2014 at 15:31
  • 3
    this gives me 4, but when I use system_profiler SPHardwareDataType which i can believe ` Model Identifier: MacBookPro9,2 Processor Name: Intel Core i5 Processor Speed: 2.5 GHz Number of Processors: 1 Total Number of Cores: 2` Commented Jun 11, 2014 at 13:30
  • Doesn't work in some virtual environments. In RHEL7 running in WSL, "sysctl: cannot stat /proc/sys/hw/ncpu: No such file or directory". I do have /proc/cpuinfo, but it's hard to figure out how to interpret its contents correctly. Commented May 15 at 0:54

This should be cross platform. At least for Linux and Mac OS X.

python -c 'import multiprocessing as mp; print(mp.cpu_count())'

A little bit slow but works.


getconf works both in Mac OS X and Linux, just in case you need it to be compatible with both systems:


system_profiler SPHardwareDataType shows I have 1 processor and 4 cores.

[~] system_profiler SPHardwareDataType

    Hardware Overview:

      Model Name: MacBook Pro
      Model Identifier: MacBookPro9,1
      Processor Name: Intel Core i7
      Processor Speed: 2.6 GHz
      Number of Processors: 1
      Total Number of Cores: 4



However, sysctl disagrees:

[~] sysctl -n hw.logicalcpu
[~] sysctl -n hw.physicalcpu

But sysctl appears correct, as when I run a program that should take up all CPU slots, I see this program taking close to 800% of CPU time (in top):

4306  top          5.6   
4304  java         745.7 
4296  locationd    0.0  
  • 4
    You're seeing Hyperthreading at work. This lets each core handle two execution threads (not necessarily the same as OS threads, such as pthreads). As a result, MacOS treats each physical core as two logical cores. Commented Jun 11, 2013 at 13:27
  • Hello @MikeDeSimone can you show me how to check if hyper threading at work in case of CentOS ? Commented Jun 11, 2014 at 13:32
  • 1
    stackoverflow.com/questions/2901694/… Commented Jun 12, 2014 at 3:17
  • @Ciastopiekarz I am fairly certain hyper threading is a feature of the CPU architecture (Intel) rather than something the OS does, I think the whole point is to make the OS think it has physical cpu:s x 2 logical cores without having to do anything special to access them. So if your CPU is an Intel (all Macs come with Intel) then yes, you have hyper threading. If, however you run CentOS on a PC, you may have an AMD processor. They don't have hyper threading but since they usually come with twice as many cores at the same (or lower) price I'm not sure there's a practical difference.
    – Erk
    Commented Sep 8, 2016 at 22:38
  • @Erk The OS knows the difference, in fact, it knows the difference between CPUs and Cores as well as multiple threads running on a physical. sysctl hw.physicalcpu will show how many physical cpu cores are available to you, sysctl hw.logicalcpu will show how many logical cpus available to you. OS's like Windows/OSX/Linux do all work of making it seems like you have multiple CPUs (regardless of what type it is). OS's like linux allow you to configure which cpu, cores, threading can be used.
    – Rahly
    Commented Sep 23, 2018 at 23:29

To do this in C you can use the sysctl(3) family of functions:

int count;
size_t count_len = sizeof(count);
sysctlbyname("hw.logicalcpu", &count, &count_len, NULL, 0);
fprintf(stderr,"you have %i cpu cores", count);

Interesting values to use in place of "hw.logicalcpu", which counts cores, are (from this comment in the kernel source):

  • hw.ncpu: The maximum number of processors that could be available this boot.

    Use this value for sizing of static per processor arrays; i.e. processor load statistics.

  • hw.activecpu: The number of processors currently available for executing threads.

    Use this number to determine the number threads to create in SMP aware applications.

    This number can change when power management modes are changed.

  • hw.physicalcpu: The number of physical processors available in the current power management mode.

  • hw.physicalcpu_max: The maximum number of physical processors that could be available this boot.

  • hw.logicalcpu: The number of logical processors available in the current power management mode.

  • hw.logicalcpu_max: The maximum number of logical processors that could be available this boot.

  • Mike, thanks for the edit, didn't realize that oldplen was an in-out parameter.
    – alfwatt
    Commented Mar 4, 2015 at 5:03
  • Precisely what I was looking for, and bonus points for the other entries. Thank you.
    – aremmell
    Commented Oct 4, 2023 at 0:50
$ system_profiler | grep 'Total Number Of Cores'
  • 2
    faster: $ system_profiler SPHardwareDataType | grep 'Total Number Of Cores'
    – kent
    Commented Nov 11, 2009 at 14:44
  • 6
    slower though if you include typing time Commented Nov 11, 2009 at 19:04
  • 2
    It's in a bash script; typing time is irrelevant. Commented Nov 23, 2009 at 22:58
  • 3
    it appears as though Apple has changed the formatting of the output. Notice the capitalization: previously was 'Total Number Of Cores' now it is 'Total Number of Cores' ... either that or I just typed it wrong previously... sorry about that!
    – kent
    Commented Feb 12, 2013 at 8:38
  • 3
    you could use grep -i Commented Oct 1, 2013 at 21:37

Use the system_profiler | grep "Cores" command.

I have a:

MacBook Pro Retina, Mid 2012.

Processor: 2.6 GHz Intel Core i7

user$ system_profiler | grep "Cores"
      Total Number of Cores: 4

user$ sysctl -n hw.ncpu

According to Wikipedia, (http://en.wikipedia.org/wiki/Intel_Core#Core_i7) there is no Core i7 with 8 physical cores so the Hyperthreading idea must be the case. Ignore sysctl and use the system_profiler value for accuracy. The real question is whether or not you can efficiently run applications with 4 cores (long compile jobs?) without interrupting other processes.

Running a compiler parallelized with 4 cores doesn't appear to dramatically affect regular OS operations. So perhaps treating it as 8 cores is not so bad.

  • 1
    Spawning a number of processes equal to the number of logical cores (twice the number of physical cores in the case of HyperThreading, as you note) has performed quite well for me. Commented Jun 27, 2013 at 13:57

As jkp said in a comment, that doesn't show the actual number of physical cores. to get the number of physical cores you can use the following command:

system_profiler SPHardwareDataType
  • The goal was to determine how many processes to spawn with make, so jkp's answer (number of logical cores) fits best. Commented Nov 1, 2011 at 17:37

It wasn't specified in the original question (although I saw OP post in comments that this wasn't an option), but many developers on macOS have the Homebrew package manager installed.

For future developers who stumble upon this question, as long as the assumption (or requirement) of Homebrew being installed exists (e.g., in an engineering organization in a company), nproc is one of the common GNU binaries that is included in the coreutils package.

brew install coreutils

If you have scripts that you would prefer to write once (for Linux + macOS) instead of twice, or to avoid having if blocks where you need to detect the OS to know whether or not to call nproc vs sysctl -n hw.logicalcpu, this may be a better option.


The following command gives you all information about your CPU

$ sysctl -a | sort | grep cpu
  • 1
    Nice, but not what was asked. Commented Dec 5, 2017 at 16:17

Comments for 2 good replies above:

1) re the accepted reply (and comments) by jkp: hw.ncpu is apparently deprecated in favor of hw.logicalcpu (https://ghc.haskell.org/trac/ghc/ticket/8594)

2) re the 2014 update by Karl Ehr: on my computer (with 2.5 ghz intel core i7),sysctl -a | grep machdep.cpu | grep per_package returns different numbers:

machdep.cpu.logical_per_package: 16

machdep.cpu.cores_per_package: 8

The desired values are:

machdep.cpu.core_count: 4

machdep.cpu.thread_count: 8

Which match:

hw.physicalcpu: 4

hw.logicalcpu: 8

  • I also get what seems like nonsense values for X_per_package on a 6-core 2018 Intel Mac Mini: machdep.cpu.logical_per_package: 16 machdep.cpu.cores_per_package: 8 machdep.cpu.core_count: 6 machdep.cpu.thread_count: 6
    – craig65535
    Commented Jul 20, 2022 at 3:28


When this question was asked the OP did not say that he wanted the number of LOGICAL cores rather than the actual number of cores, so this answer logically (no pun intended) answers with a way to get the actual number of real physical cores, not the number that the OS tries to virtualize through hyperthreading voodoo.


Due to a weird bug in OS X Yosemite (and possibly newer versions, such as the upcoming El Capitan), I've made a small modification. (The old version still worked perfectly well if you just ignore STDERR, which is all the modification does for you.)

Every other answer given here either

  1. gives incorrect information
  2. gives no information, due to an error in the command implementation
  3. runs unbelievably slowly (taking the better part of a minute to complete), or
  4. gives too much data, and thus might be useful for interactive use, but is useless if you want to use the data programmatically (for instance, as input to a command like bundle install --jobs 3 where you want the number in place of 3 to be one less than the number of cores you've got, or at least not more than the number of cores)

The way to get just the number of cores, reliably, correctly, reasonably quickly, and without extra information or even extra characters around the answer, is this:

system_profiler SPHardwareDataType 2> /dev/null | grep 'Total Number of Cores' | cut -d: -f2 | tr -d ' '
  • 3
    I just ran sysctl -n hw.ncpu on my Mac Pro and had none of those problems. Commented Jan 10, 2014 at 12:11
  • I obviously have not tested on all types of Macs, but I'll believe you that it is sometimes accurate. However, sysctl does not give accurate results on my machine, and others have reported the same thing. If it can't be relied on to always give accurate results, then it can't be considered reliable and accurate.
    – iconoclast
    Commented Jan 10, 2014 at 15:50
  • You could also explain the erroneous behavior you see, and what platform(s) you see it on, so the bounds of sysctl's proper operation are better known, like user1706991 did. Commented Jan 12, 2014 at 20:01
  • Others have suggested that this is due to hyper threading, so the number you see with sysctl is the number of cores the system is trying to simulate, even though it does not actually have that many. If you want accurate numbers, use my method. If you want to know how many cores the computer is pretending to have, use sysctl.
    – iconoclast
    Commented Jan 12, 2014 at 20:09
  • @iconoclast in testing this I found that 'Total Number of Cores' is localized. If OS X is set to anything but English your solution fails. Ended up using: sysctl -n hw.physicalcpu_max
    – C.O.
    Commented Jul 1, 2018 at 15:14

On a MacBook Pro running Mavericks, sysctl -a | grep hw.cpu will only return some cryptic details. Much more detailed and accessible information is revealed in the machdep.cpu section, ie:

sysctl -a | grep machdep.cpu

In particular, for processors with HyperThreading (HT), you'll see the total enumerated CPU count (logical_per_package) as double that of the physical core count (cores_per_package).

sysctl -a | grep machdep.cpu  | grep per_package
  • On my Early 2008 Mac Pro, that gives me 4. The actual number of cores is 8, since it has two quad-core CPU chips. Commented Jul 21, 2014 at 3:57
  • sysctl machdep.cpu also works instead of reading all other unnecessary information.
    – hsn
    Commented Mar 25, 2019 at 7:22

This can be done in a more portable way:

$ nproc --all

Compatible with macOS and Linux.

  • 8
    nproc doesn't seem to be available on macOS Mojave. Commented Sep 7, 2019 at 20:25
  • 1
    Thanks for letting me know, Mike. nproc is a trivial install through homebrew.
    – Jay Taylor
    Commented Sep 16, 2019 at 20:57
  • 1
    The system I was running was disconnected from the internet, so homebrew doesn't help. Can't use anything that needs "curl site | sudo bash" Commented Sep 18, 2019 at 0:36
  • It's available in my Mac Ventura Commented Dec 3, 2022 at 18:39
  • It's also lying. I ran nproc --all on a VM with 6 CPUs assigned and it also said 32.
    – aremmell
    Commented Oct 4, 2023 at 4:13

To follow up on @alfwatt's answer, I went ahead and used sysctlnametomib to get the MIB values for all of these entries (macOS 13.6 here).

According to the man page:

the sysctl function runs in about a third the time as the same request made via the sysctlbyname function

So, I think it's worthwhile to take this route. Here are the MIB values for each corresponding string value:

Entry Name MIB (Management Information Base)
hw.ncpu int mib[2] = {6, 3};
hw.activecpu int mib[2] = {6, 25};
hw.physicalcpu int mib[2] = {6, 104};
hw.physicalcpu_max int mib[2] = {6, 105};
hw.logicalcpu int mib[2] = {6, 106};
hw.logicalcpu_max int mib[2] = {6, 107};

Here's how you use them (I'll use the first one as an example):

int mib[2]      = {6, 3};      // MIB
u_int mib_size  = 2;           // it's not actually the size; it's the count
int ret_value   = 0;           // where the returned value will be stored
size_t ret_size = sizeof(int); // size of the area of the return value

int sc = sysctl(mib, mib_size, &ret_value, &ret_size, NULL, 0);

// if sc != -1, we're good:
printf("the value is: %d\n", ret_value);

Cross-platform solution:

nproc 2>/dev/null || sysctl -n hw.logicalcpu

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