I want to know the number of CPUs on the local machine using Python. The result should be
user/real as output by
time(1) when called with an optimally scaling userspace-only program.
If you have python with a version >= 2.6 you can simply use
import multiprocessing multiprocessing.cpu_count()
If you're interested into the number of processors available to your current process, you have to check cpuset first. Otherwise (or if cpuset is not in use),
multiprocessing.cpu_count() is the way to go in Python 2.6 and newer. The following method falls back to a couple of alternative methods in older versions of Python:
import os import re import subprocess def available_cpu_count(): """ Number of available virtual or physical CPUs on this system, i.e. user/real as output by time(1) when called with an optimally scaling userspace-only program""" # cpuset # cpuset may restrict the number of *available* processors try: m = re.search(r'(?m)^Cpus_allowed:\s*(.*)$', open('/proc/self/status').read()) if m: res = bin(int(m.group(1).replace(',', ''), 16)).count('1') if res > 0: return res except IOError: pass # Python 2.6+ try: import multiprocessing return multiprocessing.cpu_count() except (ImportError, NotImplementedError): pass # https://github.com/giampaolo/psutil try: import psutil return psutil.cpu_count() # psutil.NUM_CPUS on old versions except (ImportError, AttributeError): pass # POSIX try: res = int(os.sysconf('SC_NPROCESSORS_ONLN')) if res > 0: return res except (AttributeError, ValueError): pass # Windows try: res = int(os.environ['NUMBER_OF_PROCESSORS']) if res > 0: return res except (KeyError, ValueError): pass # jython try: from java.lang import Runtime runtime = Runtime.getRuntime() res = runtime.availableProcessors() if res > 0: return res except ImportError: pass # BSD try: sysctl = subprocess.Popen(['sysctl', '-n', 'hw.ncpu'], stdout=subprocess.PIPE) scStdout = sysctl.communicate() res = int(scStdout) if res > 0: return res except (OSError, ValueError): pass # Linux try: res = open('/proc/cpuinfo').read().count('processor\t:') if res > 0: return res except IOError: pass # Solaris try: pseudoDevices = os.listdir('/devices/pseudo/') res = 0 for pd in pseudoDevices: if re.match(r'^cpuid@[0-9]+$', pd): res += 1 if res > 0: return res except OSError: pass # Other UNIXes (heuristic) try: try: dmesg = open('/var/run/dmesg.boot').read() except IOError: dmesgProcess = subprocess.Popen(['dmesg'], stdout=subprocess.PIPE) dmesg = dmesgProcess.communicate() res = 0 while '\ncpu' + str(res) + ':' in dmesg: res += 1 if res > 0: return res except OSError: pass raise Exception('Can not determine number of CPUs on this system')
Another option is to use the
psutil library, which always turn out useful in these situations:
>>> import psutil >>> psutil.cpu_count() 2
This should work on any platform supported by
psutil(Unix and Windows).
Note that in some occasions
multiprocessing.cpu_count may raise a
psutil will be able to obtain the number of CPUs. This is simply because
psutil first tries to use the same techniques used by
multiprocessing and, if those fail, it also uses other techniques.
In Python 3.4+: os.cpu_count().
multiprocessing.cpu_count() is implemented in terms of this function but raises
None ("can't determine number of CPUs").
import os print(os.cpu_count())
multiprocessing.cpu_count() will return the number of logical CPUs, so if you have a quad-core CPU with hyperthreading, it will return
8. If you want the number of physical CPUs, use the python bindings to hwloc:
#!/usr/bin/env python import hwloc topology = hwloc.Topology() topology.load() print topology.get_nbobjs_by_type(hwloc.OBJ_CORE)
hwloc is designed to be portable across OSes and architectures.
Can't figure out how to add to the code or reply to the message but here's support for jython that you can tack in before you give up:
# jython try: from java.lang import Runtime runtime = Runtime.getRuntime() res = runtime.availableProcessors() if res > 0: return res except ImportError: pass
len(os.sched_getaffinity(0)) is what you usually want
os.sched_getaffinity(0) (added in Python 3) returns the set of CPUs available considering the
sched_setaffinity Linux system call, which limits which CPUs a process and its children can run on.
0 means to get the value for the current process. The function returns a
set() of allowed CPUs, thus the need for
multiprocessing.cpu_count() on the other hand just returns the total number of physical CPUs.
The difference is especially important because certain cluster management systems such as Platform LSF limit job CPU usage with
Therefore, if you use
multiprocessing.cpu_count(), your script might try to use way more cores than it has available, which may lead to overload and timeouts.
We can see the difference concretely by restricting the affinity with the
For example, if I restrict Python to just 1 core (core 0) in my 16 core system:
taskset -c 0 ./main.py
with the test script:
#!/usr/bin/env python3 import multiprocessing import os print(multiprocessing.cpu_count()) print(len(os.sched_getaffinity(0)))
then the output is:
nproc respects affinity by default:
taskset -c 0 nproc
man nproc makes that quite explicit:
print the number of processing units available
nproc has the
--all flag for the less common case that you want to get the physical CPU count:
taskset -c 0 nproc --all
Tested in Ubuntu 16.04, Python 3.5.2.
You can also use "joblib" for this purpose.
import joblib print joblib.cpu_count()
This method will give you the number of cpus in the system. joblib needs to be installed though. More information on joblib can be found here https://pythonhosted.org/joblib/parallel.html
Alternatively you can use numexpr package of python. It has lot of simple functions helpful for getting information about the system cpu.
import numexpr as ne print ne.detect_number_of_cores()
Another option if you don't have Python 2.6:
import commands n = commands.getoutput("grep -c processor /proc/cpuinfo")
This is the function cpu_count from multiprocessing
import os import sys def cpu_count(): ''' Returns the number of CPUs in the system ''' if sys.platform == 'win32': try: num = int(os.environ['NUMBER_OF_PROCESSORS']) except (ValueError, KeyError): num = 0 elif 'bsd' in sys.platform or sys.platform == 'darwin': comm = '/sbin/sysctl -n hw.ncpu' if sys.platform == 'darwin': comm = '/usr' + comm try: with os.popen(comm) as p: num = int(p.read()) except ValueError: num = 0 else: try: num = os.sysconf('SC_NPROCESSORS_ONLN') except (ValueError, OSError, AttributeError): num = 0 if num >= 1: return num else: raise NotImplementedError('cannot determine number of cpus')
Since I cannot comment yet:
These give you the "physical" CPU count
These give you the virtual machine CPU count
Only matters if you works on VMs.
protected by Ciro Santilli 新疆改造中心996ICU六四事件 Apr 5 at 7:21
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