I have this script, but I do not know how to get the last element in the printout:

cat /proc/cpuinfo | awk '/^processor/{print $3}'

The last element should be the number of CPUs, minus 1.

  • 9
    You don't need to cat before awk, anyway: just awk '<script>' /proc/cpuinfo, like that: awk '/^processor/{n+=1}END{print n}' /proc/cpuinfo. And you get in without "minus one". – Tomasz Gandor Aug 1 '14 at 8:12

25 Answers 25

cat /proc/cpuinfo | awk '/^processor/{print $3}' | wc -l

or simply

grep -c ^processor /proc/cpuinfo     

which will count the number of lines starting with "processor" in /proc/cpuinfo

For systems with hyper-threading, you can use

grep ^cpu\\scores /proc/cpuinfo | uniq |  awk '{print $4}' 

which should return (for example) 8 (whereas the command above would return 16)

  • 39
    Note that both of these will end up counting twice as many cores as actually exist if you're on a system with hyperthreading (e.g, P4, or Core i7). – duskwuff Jun 26 '11 at 0:04
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    @duskwuff: which is precisely what you want in most cases. – Frank Kusters May 17 '13 at 10:52
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    grep -c '^processor' /proc/cpuinfo on zsh. – Steven Lu Jul 21 '13 at 20:23
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    cat /proc/cpuinfo | awk '/^processor/{print $3}' | tail -1 also will return the wrong number if the CPU numbers are 0-based. – Phazor May 4 '15 at 14:37
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    The first line return 1 Core less then existing. Better cat /proc/cpuinfo | awk '/^processor/{print $3}'| wc -l – Mirko Ebert May 13 '15 at 11:24

Processing the contents of /proc/cpuinfo is needlessly baroque. Use nproc which is part of coreutils, so it should be available on most Linux installs.

Command nproc prints the number of processing units available to the current process, which may be less than the number of online processors.

To find the number of all installed cores/processors use nproc --all

On my 8-core machine:

$ nproc --all
  • 5
    does it distinguish between virtual core and physical core? – Richard Jun 13 '13 at 20:06
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    This doesn't work with hyperthreading if I need the number of physical cores. Returns 8 on my quad core i7 box. – pratnala Jul 23 '13 at 15:23
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    @pratnala - teambob's answer purports to give you the number of physical cores. – Nick Chammas Mar 31 '14 at 17:41
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    Unfortunatelly, nproc is not a part of boot2docker – kgadek Aug 8 '16 at 15:36
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    This works for me on Debian and appears to query the processor instead of grep-ing a text file. – jaylweb Feb 28 '17 at 18:44

The most portable solution I have found is the getconf command:


This works on both Linux and Mac OS X. Another benefit of this over some of the other approaches is that getconf has been around for a long time. Some of the older Linux machines I have to do development on don't have the nproc or lscpu commands available, but they have getconf.

Editor's note: While the getconf utility is POSIX-mandated, the specific _NPROCESSORS_ONLN and _NPROCESSORS_CONF values are not. That said, as stated, they work on Linux platforms as well as on macOS; on FreeBSD/PC-BSD, you must omit the leading _.

  • 9
    This worked for me on Red Hat Entreprise Linux 5.4, Centos 6.5 & 7 and Mac OSX 10.9 (Mavericks). It seems this it the most portable, as lscpu is not installed by default on these systems. Thanks! – big_gie Aug 28 '14 at 18:50
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    I agree. This is quite portable. – bukzor Oct 22 '14 at 0:15
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    So portable it's in POSIX :) pubs.opengroup.org/onlinepubs/009604499/utilities/getconf.html – BCran Nov 19 '14 at 8:54
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    @CiroSantilli六四事件法轮功纳米比亚威视 From github.com/gstrauss/plasma/blob/master/plasma_sysconf.c it looks like I was wrong: it's only optional. "sysconf _SC_NPROCESSORS_ONLN and _SC_NPROCESSORS_CONF are not required by standards, but are provided on numerous unix platforms and documented as optional by Open Group." – BCran Oct 4 '15 at 20:36
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    This is the right answer. Works on OSX and Ubuntu. – Justin Apr 19 '16 at 17:17


  • The problem with the /proc/cpuinfo-based answers is that they parse information that was meant for human consumption and thus lacks a stable format designed for machine parsing: the output format can differ across platforms and runtime conditions; using lscpu -p on Linux (and sysctl on macOS) bypasses that problem.

  • getconf _NPROCESSORS_ONLN / getconf NPROCESSORS_ONLN doesn't distinguish between logical and physical CPUs.

Here's a sh (POSIX-compliant) snippet that works on Linux and macOS for determining the number of - online - logical or physical CPUs; see the comments for details.

Uses lscpu for Linux, and sysctl for macOS.

Terminology note: CPU refers to the smallest processing unit as seen by the OS. Non-hyper-threading cores each correspond to 1 CPU, whereas hyper-threading cores contain more than 1 (typically: 2) - logical - CPU.
Linux uses the following taxonomy, starting with the smallest unit: CPU < core < socket < book < node, with each level comprising 1 or more instances of the next lower level.
My knowledge is somewhat shaky here - do let me know if I'm wrong. Does anyone know what a "book" is in this context?


# macOS:           Use `sysctl -n hw.*cpu_max`, which returns the values of 
#                  interest directly.
#                  CAVEAT: Using the "_max" key suffixes means that the *maximum*
#                          available number of CPUs is reported, whereas the
#                          current power-management mode could make *fewer* CPUs 
#                          available; dropping the "_max" suffix would report the
#                          number of *currently* available ones; see [1] below.
# Linux:           Parse output from `lscpu -p`, where each output line represents
#                  a distinct (logical) CPU.
#                  Note: Newer versions of `lscpu` support more flexible output
#                        formats, but we stick with the parseable legacy format 
#                        generated by `-p` to support older distros, too.
#                        `-p` reports *online* CPUs only - i.e., on hot-pluggable 
#                        systems, currently disabled (offline) CPUs are NOT
#                        reported.

# Number of LOGICAL CPUs (includes those reported by hyper-threading cores)
  # Linux: Simply count the number of (non-comment) output lines from `lscpu -p`, 
  # which tells us the number of *logical* CPUs.
logicalCpuCount=$([ $(uname) = 'Darwin' ] && 
                       sysctl -n hw.logicalcpu_max || 
                       lscpu -p | egrep -v '^#' | wc -l)

# Number of PHYSICAL CPUs (cores).
  # Linux: The 2nd column contains the core ID, with each core ID having 1 or
  #        - in the case of hyperthreading - more logical CPUs.
  #        Counting the *unique* cores across lines tells us the
  #        number of *physical* CPUs (cores).
physicalCpuCount=$([ $(uname) = 'Darwin' ] && 
                       sysctl -n hw.physicalcpu_max ||
                       lscpu -p | egrep -v '^#' | sort -u -t, -k 2,4 | wc -l)

# Print the values.
cat <<EOF
# of logical CPUs:  $logicalCpuCount
# of physical CPUS: $physicalCpuCount

[1] macOS sysctl (3) documentation

Note that BSD-derived systems other than macOS - e.g., FreeBSD - only support the hw.ncpu key for sysctl, which are deprecated on macOS; I'm unclear on which of the new keys hw.npu corresponds to: hw.(logical|physical)cpu_[max].

Tip of the hat to @teambob for helping to correct the physical-CPU-count lscpu command.

Caveat: lscpu -p output does NOT include a "book" column (the man page mentions "books" as an entity between socket and node in the taxonomic hierarchy). If "books" are in play on a given Linux system (does anybody know when and how?), the physical-CPU-count command may under-report (this is based on the assumption that lscpu reports IDs that are non-unique across higher-level entities; e.g.: 2 different cores from 2 different sockets could have the same ID).

If you save the code above as, say, shell script cpus, make it executable with chmod +x cpus and place it in folder in your $PATH, you'll see output such as the following:

$ cpus
logical  4
physical 4
  • 1
    Yes sorry you are correct about the sort command. I can't find any information about books beyond the lscpu manual. I think it is related to NUMA en.wikipedia.org/wiki/Non-uniform_memory_access – teambob Apr 30 '14 at 21:06
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    I think most solutions here ignore multi-socket machines, unlike this one. Thanks! – dividebyzero Oct 16 '18 at 9:24

lscpu gathers CPU architecture information form /proc/cpuinfon in human-read-able format:

# lscpu

Architecture:          x86_64
CPU op-mode(s):        32-bit, 64-bit
Byte Order:            Little Endian
CPU(s):                8
On-line CPU(s) list:   0-7
Thread(s) per core:    1
Core(s) per socket:    4
CPU socket(s):         2
NUMA node(s):          1
Vendor ID:             GenuineIntel
CPU family:            6
Model:                 15
Stepping:              7
CPU MHz:               1866.669
BogoMIPS:              3732.83
Virtualization:        VT-x
L1d cache:             32K
L1i cache:             32K
L2 cache:              4096K
NUMA node0 CPU(s):     0-7

See also https://unix.stackexchange.com/questions/468766/understanding-output-of-lscpu.


This worked for me. tail -nX allows you to grab only the last X lines.

cat /proc/cpuinfo | awk '/^processor/{print $3}' | tail -1

If you have hyperthreading, this should work for grabbing the number of physical cores.

grep "^core id" /proc/cpuinfo | sort -u | wc -l
  • 3
    sort | uniq == sort -u – unbeli Jun 26 '11 at 9:12
  • nice, I didn't know that :) – lunixbochs Jun 26 '11 at 15:38
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    is "^core id" for total physical cores or just p-cores on one processor? – Richard Jul 20 '11 at 22:56
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    there is one core id line per unique physical core in the system. I don't know whether the numbers will start over at zero for a second physical processor, however... – lunixbochs Jul 21 '11 at 9:11
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    if you have more than one physical processor you will also need to look at "physical id". – Anne Oct 17 '12 at 15:54

For the total number of physical cores:

grep '^core id' /proc/cpuinfo |sort -u|wc -l

On multiple-socket machines (or always), multiply the above result by the number of sockets:

echo $(($(grep "^physical id" /proc/cpuinfo | awk '{print $4}' | sort -un | tail -1)+1))

@mklement0 has quite a nice answer below using lscpu. I have written a more succinct version in the comments


Using getconf is indeed the most portable way, however the variable has different names in BSD and Linux to getconf, so you have to test both, as this gist suggests: https://gist.github.com/jj1bdx/5746298 (also includes a Solaris fix using ksh)

I personally use:

$ getconf _NPROCESSORS_ONLN 2>/dev/null || getconf NPROCESSORS_ONLN 2>/dev/null || echo 1

And if you want this in python you can just use the syscall getconf uses by importing the os module:

$ python -c 'import os; print os.sysconf(os.sysconf_names["SC_NPROCESSORS_ONLN"]);'

As for nproc, it's part of GNU Coreutils, so not available in BSD by default. It uses sysconf() as well after some other methods.


Crossplatform solution for Linux, MacOS, Windows:

CORES=$(grep -c ^processor /proc/cpuinfo 2>/dev/null || sysctl -n hw.ncpu || echo "$NUMBER_OF_PROCESSORS")

You can also use Python! To get the number of physical cores:

$ python -c "import psutil; print(psutil.cpu_count(logical=False))"

To get the number of hyperthreaded cores:

$ python -c "import psutil; print(psutil.cpu_count(logical=True))"
  • With python 2.7.15 these commands do not print anything. In REPL they do. – Vytenis Bivainis Dec 19 '18 at 22:10
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    @VytenisBivainis Thanks, I fixed my answer! – ostrokach Dec 19 '18 at 22:11

If you want to do this so it works on linux and OS X, you can do:

CORES=$(grep -c ^processor /proc/cpuinfo 2>/dev/null || sysctl -n hw.ncpu)
  • This also works for FreeBSD and possibly others. – Thomas Feb 22 '14 at 19:08
  • My OSX 10.10.3 says sysctl: command not found – hoosierEE Jun 8 '15 at 17:44

The following should give you the number of "real" cores on both a hyperthreaded and non-hyperthreaded system. At least it worked in all my tests.

awk -F: '/^physical/ && !ID[$2] { P++; ID[$2]=1 }; /^cpu cores/ { CORES=$2 };  END { print CORES*P }' /proc/cpuinfo
  • -1, this returns 0 on a single core with an Opteron 4170 HE, but returns 4 on an eight core box with an Opteron 3280. ...part of me really wishes this one-liner would work! – zamnuts Feb 19 '14 at 1:26

You can use one of the following methods to determine the number of physical CPU cores.

  • Count the number of unique core ids (roughly equivalent to grep -P '^core id\t' /proc/cpuinfo | sort -u | wc -l).

    awk '/^core id\t/ {cores[$NF]++} END {print length(cores)}' /proc/cpuinfo

  • Multiply the number of 'cores per socket' by the number of sockets.

    lscpu | awk '/^Core\(s\) per socket:/ {cores=$NF}; /^Socket\(s\):/ {sockets=$NF}; END{print cores*sockets}'

  • Count the number of unique logical CPU's as used by the Linux kernel. The -p option generates output for easy parsing and is compatible with earlier versions of lscpu.

    lscpu -p | awk -F, '$0 !~ /^#/ {cores[$1]++} END {print length(cores)}'

Just to reiterate what others have said, there are a number of related properties.

To determine the number of processors available:

grep -cP '^processor\t' /proc/cpuinfo

To determine the number of processing units available (not necessarily the same as the number of cores). This is hyperthreading-aware.


I don't want to go too far down the rabbit-hole, but you can also determine the number of configured processors (as opposed to simply available/online processors) via getconf _NPROCESSORS_CONF. To determine total number of CPU's (offline and online) you'd want to parse the output of lscpu -ap.

  • this is the correct answer if you want physical cores. – Dinesh Sep 16 '15 at 0:45

Here's the way I use for counting the number of physical cores that are online on Linux:

lscpu --online --parse=Core,Socket | grep --invert-match '^#' | sort --unique | wc --lines

or in short:

lscpu -b -p=Core,Socket | grep -v '^#' | sort -u | wc -l

I also thought cat /proc/cpuinfo would give me the correct answer, however I recently saw that my ARM quad core Cortex A53 system only showed a single core. It seems that /proc/cpuinfo only shows the active cores, whereas:

cat /sys/devices/system/cpu/present

is a better measure of what's there. You can also

cat /sys/devices/system/cpu/online

to see which cores are online, and

cat /sys/devices/system/cpu/offline

to see which cores are offline. The online, offline, and present sysfs entries return the index of the CPUS, so a return value of 0 just means core 0, whereas a return value of 1-3 means cores 1,2, and 3.

See https://www.kernel.org/doc/Documentation/ABI/testing/sysfs-devices-system-cpu


Count "core id" per "physical id" method using awk with fall-back on "processor" count if "core id" are not available (like raspberry)

echo $(awk '{ if ($0~/^physical id/) { p=$NF }; if ($0~/^core id/) { cores[p$NF]=p$NF }; if ($0~/processor/) { cpu++ } } END { for (key in cores) { n++ } } END { if (n) {print n} else {print cpu} }' /proc/cpuinfo)
cat /proc/cpuinfo | grep processor

This worked fine. When I tried the first answer I got 3 CPU's as the output. I know that I have 4 CPUs on the system so I just did a grep for processor and the output looked like this:

[root@theservername ~]# cat /proc/cpuinfo | grep processor
processor       : 0
processor       : 1
processor       : 2
processor       : 3

Quicker, without fork

This work with almsost all .

while read line ;do
    [ "$line" ] && [ -z "${line%processor*}" ] && ncore=$((ncore+1))
  done </proc/cpuinfo
echo $ncore

In order to stay compatible with , , and others, I've used ncore=$((ncore+1)) instead of ((ncore++)).


while read -a line ;do
    [ "$line" = "processor" ] && ((ncore++))
  done </proc/cpuinfo
echo $ncore

If it's okay that you can use Python, then numexpr module has a function for this:

In [5]: import numexpr as ne

In [6]: ne.detect_number_of_cores()
Out[6]: 8

also this:

In [7]: ne.ncores
Out[7]: 8

To query this information from the command prompt use:

# runs whatever valid Python code given as a string with `-c` option
$ python -c "import numexpr as ne; print(ne.ncores)"

Or simply it is possible to get this info from multiprocessing.cpu_count() function

$ python -c "import multiprocessing; print(multiprocessing.cpu_count())"

Or even more simply use os.cpu_count()

$ python -c "import os; print(os.cpu_count())"
  • 1
    Is there a way make this work as a command in python? For example I tried python -m numexpr.ncores but that doesn't work. – MonsieurBeilto Jun 15 '18 at 12:21
  • 1
    @MonsieurBeilto Please have a look at the updated answer! – kmario23 Jun 15 '18 at 14:26
  • The count returned by cpu_count is wrong, it doesn't return the number of cores but merely the number of hyperthreads on Intel CPUs – Antti Haapala Feb 5 at 20:16

If you just want to count physical cores, this command did it for me.

lscpu -e | tail -n +2 | tr -s " " | cut -d " " -f 4 | sort | uniq | wc -w

Pretty basic, but seems to count actual physical cores, ignoring the logical count


Not my web page, but this command from http://www.ixbrian.com/blog/?p=64&cm_mc_uid=89402252817914508279022&cm_mc_sid_50200000=1450827902 works nicely for me on centos. It will show actual cpus even when hyperthreading is enabled.

cat /proc/cpuinfo | egrep "core id|physical id" | tr -d "\n" | sed s/physical/\\nphysical/g | grep -v ^$ | sort | uniq | wc -l

 dmidecode  | grep -i cpu | grep Version

gives me

Version: Intel(R) Xeon(R) CPU E5-2667 v4 @ 3.20GHz

Version: Intel(R) Xeon(R) CPU E5-2667 v4 @ 3.20GHz

Which is correct socket count - looking up the E5-2667 tells me each socket has 8 cores, so multiply and end up with 16 cores across 2 sockets.

Where lscpu give me 20 CPUs - which is totally incorrect - not sure why. (same goes for cat /proc/cpu - ends up with 20.


Python 3 also provide a few simple ways to get it:

$ python3 -c "import os; print(os.cpu_count());"


$ python3 -c "import multiprocessing; print(multiprocessing.cpu_count())"


  • This does return 8 for me when I have 4 cores with 2 threads on each... – Antti Haapala Feb 5 at 20:13

Use below query to get core details

[oracle@orahost](TESTDB)$ grep -c ^processor /proc/cpuinfo

Summary: to get physical CPUs do this:

grep 'core id' /proc/cpuinfo | sort -u

to get physical and logical CPUs do this:

grep -c ^processor /proc/cpuinfo

/proc << this is the golden source of any info you need about processes and

/proc/cpuinfo << is the golden source of any CPU information.

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