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The idea is to have add new drivers for ARM CPUs |
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.github/workflows | ||
cmake | ||
cpuid_tool | ||
drivers/x86/windows/msr | ||
libcpuid | ||
tests | ||
utils | ||
.gitignore | ||
AUTHORS | ||
ChangeLog | ||
cmake-format.py | ||
CMakeLists.txt | ||
configure.ac | ||
CONTRIBUTING.md | ||
COPYING | ||
libcpuid.dsw | ||
libcpuid.pc.in | ||
libcpuid_vc10.sln | ||
libcpuid_vc71.sln | ||
Makefile.am | ||
Readme.md |
libcpuid
libcpuid provides CPU identification. Supported CPU architectures are:
- x86:
- 32-bit CPUs (IA-32, also known as i386, i486, i586 and i686)
- 64-bit CPUs (x86_64, also known as x64, AMD64, and Intel 64)
- ARM (since v0.7.0):
- 64-bit CPUs (ARM64, also known as AArch64)
For details about the programming API, you might want to take a look at the project's website on sourceforge (https://libcpuid.sourceforge.net). There you'd find a short tutorial, as well as the full API reference.
Getting started
You have two ways to get libcpuid:
- build it from sources
- download a pre-compiled binary
Sources
Prerequisites
Using libcpuid requires no dependencies on any of the supported OSes. Building it requires build tool commands to be available, which is a matter of installing a few common packages with related names (e.g. automake, autoconf, libtool, cmake). It also requires a POSIX-compatible shell. On NetBSD, you may need to install one (credits to @brucelilly):
- Install a POSIX-compatible shell such as ksh93
pkg_add ast-ksh || pkgin in ast-ksh
- Export
CONFIG_SHELL
with correct path if required:
export CONFIG_SHELL=/usr/pkg/bin/ksh93
Configuring after checkout
Two build systems are supported, use the one you prefer.
By using autotools
Under POSIX systems, where you download the sources, there's no configure script to run. This is because it isn't a good practice to keep such scripts in a source control system. To create it, you need to run the following commands once, after you checkout the libcpuid sources from GitHub:
libtoolize
autoreconf --install
You need to have autoconf
, automake
and libtool
installed.
After that you can run ./configure
and make
- this will build
the library.
make dist
will create a tarball (with "configure" inside) with the
sources.
By using CMake
Basic example to build and install libcpuid by using CMake:
cmake -S . -B build -DCMAKE_BUILD_TYPE=RelWithDebInfo
cmake --build build
cmake --install build # may need administrative privileges, install under /usr/local by default
Downloads
You can find latest versioned archives here, with binaries for macOS and Windows.
Binary packages
Also, libcpuid is available for following systems in official repositories:
- Arch Linux:
pacman -S libcpuid
- Debian (since version 11 "Bullseye"):
apt install cpuidtool libcpuid-dev
- Fedora (since version 25):
dnf install libcpuid libcpuid-devel
- FreeBSD (since version 11):
pkg install libcpuid
- OpenMandriva Lx (since version 4.0 "Nitrogen"):
dnf install libcpuid-tools libcpuid-devel
- openSUSE Leap (since version 15.1):
zypper install libcpuid-tools libcpuid-devel
- Solus:
eopkg install libcpuid libcpuid-devel
- Ubuntu (since version 20.04 "Focal Fossa") :
apt install cpuidtool libcpuid-dev
Below, the full lists of repositories:
Build tool
- Vcpkg:
vcpkg install cpuid
Contributing
Refer to the dedicated page.
Users
So far, I'm aware of the following projects which utilize libcpuid (listed alphabetically):
- CPU-X (https://github.com/TheTumultuousUnicornOfDarkness/CPU-X)
- fre:ac (https://www.freac.org/)
- I-Nex (https://github.com/i-nex/I-Nex)
- Multiprecision Computing Toolbox for MATLAB (https://www.advanpix.com/)
- ucbench (http://anrieff.net/ucbench)
We'd love to hear from you if you are also using libcpuid and want your project listed above.