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Is there a way via .NET/C# to find out the number of CPU cores?

PS This is a straight code question, not a "Should I use multi-threading?" question! :-)

share|improve this question
Do you need to know how many cores there are or how many logical processors there are? For just running multiple threads, either is probably sufficient, but there are scenarios where the difference could be important. – Kevin Kibler Apr 19 '10 at 20:27
up vote 294 down vote accepted

There are several different pieces of information relating to processors that you could get:

  1. Number of physical processors
  2. Number of cores
  3. Number of logical processors.

These can all be different; in the case of a machine with 2 dual-core hyper-threading-enabled processors, there are 2 physical processors, 4 cores, and 8 logical processors.

The number of logical processors is available through the Environment class, but the other information is only available through WMI (and you may have to install some hotfixes or service packs to get it on some systems):

Make sure to add a reference in your project to System.Management.dll

Physical Processors:

foreach (var item in new System.Management.ManagementObjectSearcher("Select * from Win32_ComputerSystem").Get())
    Console.WriteLine("Number Of Physical Processors: {0} ", item["NumberOfProcessors"]);


int coreCount = 0;
foreach (var item in new System.Management.ManagementObjectSearcher("Select * from Win32_Processor").Get())
    coreCount += int.Parse(item["NumberOfCores"].ToString());
Console.WriteLine("Number Of Cores: {0}", coreCount);

Logical Processors:

Console.WriteLine("Number Of Logical Processors: {0}", Environment.ProcessorCount);


foreach (var item in new System.Management.ManagementObjectSearcher("Select * from Win32_ComputerSystem").Get())
    Console.WriteLine("Number Of Logical Processors: {0}", item["NumberOfLogicalProcessors"]);

Processors excluded from Windows:

You can also use Windows API calls in setupapi.dll to discover processors that have been excluded from Windows (e.g. through boot settings) and aren't detectable using the above means. The code below gives the total number of logical processors (I haven't been able to figure out how to differentiate physical from logical processors) that exist, including those that have been excluded from Windows:

static void Main(string[] args)
    int deviceCount = 0;
    IntPtr deviceList = IntPtr.Zero;
    // GUID for processor classid
    Guid processorGuid = new Guid("{50127dc3-0f36-415e-a6cc-4cb3be910b65}");

        // get a list of all processor devices
        deviceList = SetupDiGetClassDevs(ref processorGuid, "ACPI", IntPtr.Zero, (int)DIGCF.PRESENT);
        // attempt to process each item in the list
        for (int deviceNumber = 0; ; deviceNumber++)
            SP_DEVINFO_DATA deviceInfo = new SP_DEVINFO_DATA();
            deviceInfo.cbSize = Marshal.SizeOf(deviceInfo);

            // attempt to read the device info from the list, if this fails, we're at the end of the list
            if (!SetupDiEnumDeviceInfo(deviceList, deviceNumber, ref deviceInfo))
                deviceCount = deviceNumber - 1;
        if (deviceList != IntPtr.Zero) { SetupDiDestroyDeviceInfoList(deviceList); }
    Console.WriteLine("Number of cores: {0}", deviceCount);

[DllImport("setupapi.dll", SetLastError = true)]
private static extern IntPtr SetupDiGetClassDevs(ref Guid ClassGuid,
    [MarshalAs(UnmanagedType.LPStr)]String enumerator,
    IntPtr hwndParent,
    Int32 Flags);

[DllImport("setupapi.dll", SetLastError = true)]
private static extern Int32 SetupDiDestroyDeviceInfoList(IntPtr DeviceInfoSet);

[DllImport("setupapi.dll", SetLastError = true)]
private static extern bool SetupDiEnumDeviceInfo(IntPtr DeviceInfoSet,
    Int32 MemberIndex,
    ref SP_DEVINFO_DATA DeviceInterfaceData);

private struct SP_DEVINFO_DATA
    public int cbSize;
    public Guid ClassGuid;
    public uint DevInst;
    public IntPtr Reserved;

private enum DIGCF
    DEFAULT = 0x1,
    PRESENT = 0x2,
    ALLCLASSES = 0x4,
    PROFILE = 0x8,
share|improve this answer
All Hail WMI! - that repository has almost everything =) – StingyJack Apr 19 '10 at 20:29
@StingyJack: True, but I wish it were in a nicer format. Discoverability is pretty low when you have to build raw string queries. – Kevin Kibler Apr 19 '10 at 20:31
WMI Code Creator will help with value discovery and query creation (it can even generate stubs in c#/ – StingyJack Apr 20 '10 at 12:53
Great info, thx. I've changed this as the accepted answer. – MrGreggles Aug 5 '10 at 8:11
It's in System.Management.dll. Did you you include a reference to that assembly in your project? – Kevin Kibler Aug 12 '13 at 13:45


share|improve this answer
That's so beautifully simple I'm almost shedding tears. Thx for the reply! – MrGreggles Oct 9 '09 at 10:43
This gives the number of logical processors, not the number of cores. – Kevin Kibler Apr 19 '10 at 20:23
@KevinKibler From the question, I suspect the OP doesn't understand the difference, and if you don't know the difference this is probably what you want. – Glenn Maynard Jun 15 '14 at 15:45
This also returns the wrong count on many core systems. I'm running two dodeca core processors with hyper-threading, which gives me a total of 48 logical processors. Environment.ProcessorCount yields 32. – Alexander Morou Aug 30 '15 at 2:53

Environment.ProcessorCount should give you the number of cores on the local machine.

share|improve this answer
This gives the number of logical processors, not the number of cores. – Kevin Kibler Apr 19 '10 at 20:25

WMI queries are slow, so try to Select only the desired members instead of using Select *.

The following query takes 3.4s:

foreach (var item in new System.Management.ManagementObjectSearcher("Select * from Win32_Processor").Get())

While this one takes 0.122s:

foreach (var item in new System.Management.ManagementObjectSearcher("Select NumberOfCores from Win32_Processor").Get())
share|improve this answer
What system are you running this on? I use multiple "Select *" queries and it doesn't take anywhere near 3.4 seconds, tested on thousands of computers that my software is deployed on. I do a Select * because I am getting multiple properties from the object. However, I do it a bit different: create an ObjectQuery on the Select *; get the ManagementObjectCollection; then foreach ManagementObject in the ManagementObjectCollection. – deegee Aug 11 '13 at 20:23
@deegee: you are right, the query itself does not take much longer with "Select *", it's just that the int parsing below is slow if iterating all the values returned instead of just NumberOfCores. – Aleix Mercader Sep 13 '13 at 11:01
@AleixMercader : Understood. – deegee Sep 13 '13 at 18:10

One option would be to read the data from the registry. MSDN Article On The Topic:

The processors, I believe can be located here, HKEY_LOCAL_MACHINE\HARDWARE\DESCRIPTION\System\CentralProcessor

    private void determineNumberOfProcessCores()
        RegistryKey rk = Registry.LocalMachine;
        String[] subKeys = rk.OpenSubKey("HARDWARE").OpenSubKey("DESCRIPTION").OpenSubKey("System").OpenSubKey("CentralProcessor").GetSubKeyNames();

        textBox1.Text = "Total number of cores:" + subKeys.Length.ToString();

I am reasonably sure the registry entry will be there on most systems.

Though I would throw my $0.02 in.

share|improve this answer
This will give number of processors that is already available in Environment.ProcessorCount, is there any other similar way to get number of cores for each processor? – Armen Feb 2 '15 at 23:49

I was looking for the same thing but I don't want to install any nuget or servicepack, so I found this solution, it is pretty simple and straight forward, using this discussion, I thought it would be so easy to run that WMIC command and get that value, here is the C# code. You only need to use System.Management namespace (and couple more standard namespaces for process and so on).

    string fileName = Path.Combine(Environment.SystemDirectory, "wbem", "wmic.exe");
    string arguments = @"cpu get NumberOfCores";

    Process process = new Process
        StartInfo =
            FileName = fileName,
            Arguments = arguments,
            UseShellExecute = false,
            CreateNoWindow = true,
            RedirectStandardOutput = true,
            RedirectStandardError = true


    StreamReader output = process.StandardOutput;

    int exitCode = process.ExitCode;
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It's rather interesting to see how .NET get this internally to say the least... It's as "simple" as below:

namespace System.Threading
    using System;
    using System.Runtime.CompilerServices;

    internal static class PlatformHelper
        private const int PROCESSOR_COUNT_REFRESH_INTERVAL_MS = 0x7530;
        private static volatile int s_lastProcessorCountRefreshTicks;
        private static volatile int s_processorCount;

        internal static bool IsSingleProcessor
                return (ProcessorCount == 1);

        internal static int ProcessorCount
                int tickCount = Environment.TickCount;
                int num2 = s_processorCount;
                if ((num2 == 0) || ((tickCount - s_lastProcessorCountRefreshTicks) >= 0x7530))
                    s_processorCount = num2 = Environment.ProcessorCount;
                    s_lastProcessorCountRefreshTicks = tickCount;
                return num2;
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The following program prints the logical and physical cores of a windows machine.

#define STRICT
#include "stdafx.h"
#include <windows.h>
#include <stdio.h>
#include <omp.h>

template<typename T>
T *AdvanceBytes(T *p, SIZE_T cb)
 return reinterpret_cast<T*>(reinterpret_cast<BYTE *>(p) + cb);

class EnumLogicalProcessorInformation
 EnumLogicalProcessorInformation(LOGICAL_PROCESSOR_RELATIONSHIP Relationship)
  : m_pinfoBase(nullptr), m_pinfoCurrent(nullptr), m_cbRemaining(0)
  DWORD cb = 0;
  if (GetLogicalProcessorInformationEx(Relationship,
                                       nullptr, &cb)) return;
  if (GetLastError() != ERROR_INSUFFICIENT_BUFFER) return;

  m_pinfoBase =
                                     (LocalAlloc(LMEM_FIXED, cb));
  if (!m_pinfoBase) return;

  if (!GetLogicalProcessorInformationEx(Relationship, 
                                        m_pinfoBase, &cb)) return;

  m_pinfoCurrent = m_pinfoBase;
  m_cbRemaining = cb;

 ~EnumLogicalProcessorInformation() { LocalFree(m_pinfoBase); }

 void MoveNext()
  if (m_pinfoCurrent) {
   m_cbRemaining -= m_pinfoCurrent->Size;
   if (m_cbRemaining) {
    m_pinfoCurrent = AdvanceBytes(m_pinfoCurrent,
   } else {
    m_pinfoCurrent = nullptr;

                                         { return m_pinfoCurrent; }
 DWORD m_cbRemaining;

int __cdecl main(int argc, char **argv)
  int numLogicalCore = 0;
  int numPhysicalCore = 0;

  for (EnumLogicalProcessorInformation enumInfo(RelationProcessorCore);
      auto pinfo = enumInfo.Current(); enumInfo.MoveNext()) 
      int numThreadPerCore = (pinfo->Processor.Flags == LTP_PC_SMT) ? 2 : 1;
      // std::cout << "thread per core: "<< numThreadPerCore << std::endl;
      numLogicalCore += numThreadPerCore;
      numPhysicalCore += 1;

  printf ("Number of physical core = %d , Number of Logical core = %d \n", numPhysicalCore, numLogicalCore );

 char c = getchar(); /* just to wait on to see the results in the command prompt */
 return 0;

I tested with Intel Xeon four cores with hyper threading and here is the result
Number of physical core = 4 , Number of Logical core = 8
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