commit | 503937b094c01144945f2fc50f9ea4cc81e6bc60 | [log] [tgz] |
---|---|---|
author | Kulin Seth <kulinseth@gmail.com> | Mon Jul 25 18:53:21 2022 |
committer | GitHub <noreply@github.com> | Mon Jul 25 18:53:21 2022 |
tree | 1d47f1bd6b54652b70f3b919aaf8ec7e84a2dd5e | |
parent | 5e63739504f0f8e18e941bd63b2d6d42536c7d90 [diff] |
Use sysctls available in macOS 12 / iOS 15 for hardware feature support. (#100) * Use sysctls available in macOS 12 / iOS 15 for hardware feature support. Co-authored-by: Developer-Ecosystem-Engineering <65677710+Developer-Ecosystem-Engineering@users.noreply.github.com>
cpuinfo is a library to detect essential for performance optimization information about host CPU.
Log processor name:
cpuinfo_initialize(); printf("Running on %s CPU\n", cpuinfo_get_package(0)->name);
Detect if target is a 32-bit or 64-bit ARM system:
#if CPUINFO_ARCH_ARM || CPUINFO_ARCH_ARM64 /* 32-bit ARM-specific code here */ #endif
Check if the host CPU supports ARM NEON
cpuinfo_initialize(); if (cpuinfo_has_arm_neon()) { neon_implementation(arguments); }
Check if the host CPU supports x86 AVX
cpuinfo_initialize(); if (cpuinfo_has_x86_avx()) { avx_implementation(arguments); }
Check if the thread runs on a Cortex-A53 core
cpuinfo_initialize(); switch (cpuinfo_get_current_core()->uarch) { case cpuinfo_uarch_cortex_a53: cortex_a53_implementation(arguments); break; default: generic_implementation(arguments); break; }
Get the size of level 1 data cache on the fastest core in the processor (e.g. big core in big.LITTLE ARM systems):
cpuinfo_initialize(); const size_t l1_size = cpuinfo_get_processor(0)->cache.l1d->size;
Pin thread to cores sharing L2 cache with the current core (Linux or Android)
cpuinfo_initialize(); cpu_set_t cpu_set; CPU_ZERO(&cpu_set); const struct cpuinfo_cache* current_l2 = cpuinfo_get_current_processor()->cache.l2; for (uint32_t i = 0; i < current_l2->processor_count; i++) { CPU_SET(cpuinfo_get_processor(current_l2->processor_start + i)->linux_id, &cpu_set); } pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpu_set);
If you would like to provide your project's build environment with the necessary compiler and linker flags in a portable manner, the library by default when built enables CPUINFO_BUILD_PKG_CONFIG
and will generate a pkg-config manifest (libcpuinfo.pc). Here are several examples of how to use it:
If you used your distro's package manager to install the library, you can verify that it is available to your build environment like so:
$ pkg-config --cflags --libs libcpuinfo -I/usr/include/x86_64-linux-gnu/ -L/lib/x86_64-linux-gnu/ -lcpuinfo
If you have installed the library from source into a non-standard prefix, pkg-config may need help finding it:
$ PKG_CONFIG_PATH="/home/me/projects/cpuinfo/prefix/lib/pkgconfig/:$PKG_CONFIG_PATH" pkg-config --cflags --libs libcpuinfo -I/home/me/projects/cpuinfo/prefix/include -L/home/me/projects/cpuinfo/prefix/lib -lcpuinfo
To use with the GNU Autotools include the following snippet in your project's configure.ac
:
# CPU INFOrmation library... PKG_CHECK_MODULES( [libcpuinfo], [libcpuinfo], [], [AC_MSG_ERROR([libcpuinfo missing...])]) YOURPROJECT_CXXFLAGS="$YOURPROJECT_CXXFLAGS $libcpuinfo_CFLAGS" YOURPROJECT_LIBS="$YOURPROJECT_LIBS $libcpuinfo_LIBS"
To use with Meson you just need to add dependency('libcpuinfo')
as a dependency for your executable.
project( 'MyCpuInfoProject', 'cpp', meson_version: '>=0.55.0' ) executable( 'MyCpuInfoExecutable', sources: 'main.cpp', dependencies: dependency('libcpuinfo') )
This project can be built using Bazel.
You can also use this library as a dependency to your Bazel project. Add to the WORKSPACE
file:
load("@bazel_tools//tools/build_defs/repo:git.bzl", "git_repository") git_repository( name = "org_pytorch_cpuinfo", branch = "master", remote = "https://github.com/Vertexwahn/cpuinfo.git", )
And to your BUILD
file:
cc_binary( name = "cpuinfo_test", srcs = [ # ... ], deps = [ "@org_pytorch_cpuinfo//:cpuinfo", ], )
To use with CMake use the FindPkgConfig module. Here is an example:
cmake_minimum_required(VERSION 3.6) project("MyCpuInfoProject") find_package(PkgConfig) pkg_check_modules(CpuInfo REQUIRED IMPORTED_TARGET libcpuinfo) add_executable(${PROJECT_NAME} main.cpp) target_link_libraries(${PROJECT_NAME} PkgConfig::CpuInfo)
To use within a vanilla makefile, you can call pkg-config directly to supply compiler and linker flags using shell substitution.
CFLAGS=-g3 -Wall -Wextra -Werror ... LDFLAGS=-lfoo ... ... CFLAGS+= $(pkg-config --cflags libcpuinfo) LDFLAGS+= $(pkg-config --libs libcpuinfo)
/proc/cpuinfo
on ARMro.chipname
, ro.board.platform
, ro.product.board
, ro.mediatek.platform
, ro.arch
properties (Android)dmesg
) on ARM Linux/proc/cpuinfo
on 32-bit ARM EABI (Linux)FPSID
and WCID
registers (32-bit ARM)getauxval
(Linux/ARM)/proc/self/auxv
(Android/ARM)/proc/cpuinfo
(Linux/pre-ARMv7)sysctlbyname
(Mach)typology
directories (ARM/Linux)cache
directories (Linux)GetLogicalProcessorInformationEx
on ARM64 Windows/proc/cpuinfo
(Linux)host_info
(Mach)GetLogicalProcessorInformationEx
(Windows)