In Windows X86, the CPU brand can be queried with cpuid intrinsic function. Here is a sample of the code:

#include <stdio.h>
#include <intrin.h>

int main(void)
    int cpubrand[4 * 3];

    __cpuid(&cpubrand[0], 0x80000002);
    __cpuid(&cpubrand[4], 0x80000003);
    __cpuid(&cpubrand[8], 0x80000004);

    char str[48];
    memset(str, 0, sizeof str);
    memcpy(str, cpubrand, sizeof cpubrand);
    printf("%s\n", str);

What is the alternative of this in Windows ARM64?


Although probably not the answer you're looking for (i.e. directly interrogating the CPU), you can fetch the "ProcessorNameString" value from the Windows Registry using code like the following:

#define BUFSIZ 64 // For easy adjustment of limits, if required

char answer[BUFSIZ] = "Error Reading CPU Name from Registry!", inBuffer[BUFSIZ] = "";
const char *csName = "HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\0";
HKEY hKey;  DWORD gotType, gotSize = BUFSIZ;
if (RegOpenKeyExA(HKEY_LOCAL_MACHINE, csName, 0, KEY_READ, &hKey) == ERROR_SUCCESS) {
    if (!RegQueryValueExA(hKey, "ProcessorNameString", nullptr, &gotType, (PBYTE)(inBuffer), &gotSize)) {
        if ((gotType == REG_SZ) && strlen(inBuffer)) strcpy(answer, inBuffer);

This will (or should) give you the processor's 'name' that the Windows system sees! I don't have access to an ARM64 system, so I can't properly test it but, on my x64 system, I get the following (correct) string: Intel(R) Core(TM) i7-8550U CPU @ 1.80GHz (which is exactly that returned by using __cpuid() calls to get the "Brand String").

However, like you, I would be very interested to know of a way to do this directly - i.e., how would the Windows O/S get this info on an ARM64 system?

  • the name in CPUID instruction is a 48-byte null-terminated string, so you don't actually need such a huge buffer – phuclv Mar 8 '20 at 16:55
  • @phuclv A very good point (see edit - also made code a bit cleaner). I transferred the code from part of a project that was using a similar registry entry, but which had potentially much longer strings. (I've used 64 chars, because I'm not sure the ARM64 system - if there even is one - conforms to the Intel standard.) – Adrian Mole Mar 8 '20 at 17:05
  • Just for the information, standard Task Manager on Win10 uses this method to get CPU name. – ge0rdi Jun 20 '20 at 19:34
  • @ge0rdi But the question still remains: How does Windows initially determine that info, so that it can be written to the registry? I suspect it's probably reading stuff from the BIOS (during installation). – Adrian Mole Jun 20 '20 at 19:37
  • "is a 48-byte null-terminated string, so you don't actually need such a huge buffer " ... famous last words. – Kaz Jul 8 '20 at 15:27

Not a way to get name directly from the CPU either, but you can get processor name from the WMI Win32_Processor class

It can be obtained by running wmic cpu get name in cmd or (Get-WmiObject Win32_Processor).Name in PowerShell. Getting it from C# is also easy, something like

ManagementObjectSearcher mos = new ManagementObjectSearcher("SELECT Name FROM Win32_Processor")
foreach (ManagementObject mo in mos.Get())

However doing that from C is a lot trickier. Luckily there's already a similar example in this answer. The main part should be like this

BSTR query    = SysAllocString(L"SELECT Name FROM Win32_Processor");
hr = services->lpVtbl->ExecQuery(services, language, query, WBEM_FLAG_BIDIRECTIONAL, NULL, &results);
hr = result->lpVtbl->Get(result, L"Name", 0, &name, 0, 0);
  • Using System.Management failed for me on a Surface Pro X. It threw an unexpected PlatformNotSupported exception citing the arm architecture. – Daniel Henry Feb 16 at 21:50
  • @DanielHenry can you try CIM_Processor? WMI has been deprecated and moved to CIM which is more platform independent – phuclv Feb 17 at 0:17

The direct way to get this information would be to read the Main ID Register MIDR_EL1. This could be done via the mrs instruction in (inline) assembly or via the _ReadStatusReg instrinct.

Unfortunately this register cannot be accessed from user mode (i.e. EL0) and every attempt throws an exception. At Linux the behavior is then emulated so that MIDR_EL1 can still be accessed. However, I do not know or have the opportunity to test whether Windows also offers this feature.


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