------------------------------------------------------------ libpfm-4.x: a helper library to program the performance monitoring events ------------------------------------------------------------ Copyright (c) 2009 Google, Inc Contributed by Stephane Eranian <eranian@gmail.com> Copyright (c) 2001-2007 Hewlett-Packard Development Company, L.P. Contributed by Stephane Eranian <eranian@hpl.hp.com> This package provides a library, called libpfm4 which is used to develop monitoring tools exploiting the performance monitoring events such as those provided by the Performance Monitoring Unit (PMU) of modern processors. This is a complete rewrite of libpfm3 and it is NOT backward compatible with it. Libpfm4 helps convert from an event name, expressed as a string, to the event encoding that is either the raw event as documented by HW vendor or the OS-specific encoding. In the latter case, the library is able to prepare the OS-specific data structures needed by the kernel to setup the event. The current libpfm4 provides support for the perf_events interface which was introduced in Linux v2.6.31. Perfmon support is not present yet. The library does not make any performance monitoring system calls. It is portable and supports other operating system environments beyond Linux, such as Mac OS X, and Windows. The library supports many PMUs. The current version can handle: - For AMD X86: AMD64 K7, K8 AMD64 Fam10h (Barcelona, Shanghai, Istanbul) AMD64 Fam11h (Turion) AMD64 Fam12h (Llano) AMD64 Fam14h (Bobcat) AMD64 Fam15h (Bulldozer) (core and uncore) AMD64 Fam16h (Jaguar) AMD64 Fam17h (Zen1) AMD64 Fam17h (Zen2) AMD64 Fam19h (Zen3) (core and L3) AMD64 Fam19h (Zen4) - For Intel X86: Intel P6 (Pentium II, Pentium Pro, Pentium III, Pentium M) Intel Yonah (Core Duo/Core Solo), Intel Core (Merom, Penryn, Dunnington) Intel Atom Intel Nehalem, Westmere Intel Sandy Bridge Intel Ivy Bridge Intel Haswell Intel Broadwell Intel SkyLake Intel CascadeLake Intel IceLake Intel SapphireRapid Intel EmeraldRapid Intel Silvermont Intel Airmont Intel Goldmont Intel Tremont Intel RAPL (energy consumption) Intel Knights Corner Intel Knights Landing (core, uncore) Intel Knights Mill (core, uncore) Intel architectural perfmon v1, v2, v3 - For ARM: ARMV7 Cortex A8 ARMV7 Cortex A9 ARMV7 Cortex A15 ARMV8 Cortex A57, A53 Applied Micro X-Gene Qualcomm Krait Fujitsu A64FX Arm Neoverse V1 Arm Neoverse V2 Huawei HiSilicon Kunpeng 920 - For SPARC Ultra I, II Ultra III, IIIi, III+ Ultra IV+ Niagara I, Niagara II - For IBM Power 4 Power 5 Power 6 Power 7 Power 8 Power 8 Nest Power 9 Power 10 PPC970 Torrent System z (s390x) - For MIPS Mips 74k WHAT'S THERE ------------- - the library source code including support for all processors listed above - a set of generic examples showing how to list and query events. They are in examples. - a set of examples showing how the library can be used with the perf_events interface. They are in perf_examples. - a set of library header files used to compile the library and perf_examples - man pages for all the library entry points - Python bindings for the library - a SPEC file to build RPMs from the library - the Debian-style config file to build a .deb package from the library INSTALLATION ------------ - edit config.mk to : - update some of the configuration variables - select your compiler options - type make - type make install - The default installation location is /usr/local. You can specify a diffierent install location as follows: $ make PREFIX=<install-dir> install Depending on your install location, you may need to run the 'ldconfig' command or use LD_LIBRARY_PATH when you build and run tools that link to the libpfm4 library. - By default, libpfm library files are installed in <install-dir>/lib. If 'make' builds 64-bit libraries on your system, and your target architecture expects 64-bit libraries to be located in a library named "lib64", then you should use the LIBDIR variable when installing, as follows: $ make LIBDIR=<install-dir>/lib64 install - To compile and install the Python bindings, you need to go to the python sub-directory and type make. Python may not be systematically built. - to compile the library for another ABI (e.g. 32-bit x86 on a 64-bit x86) system, you can pass the ABI flag to the compiler as follows (assuming you have the multilib version of gcc): $ make OPTIM="-m32 -O2" PACKAGING --------- The library comes with the config files necessary to generate RPMs or Debian packages. The source code produces 3 packages: - libpfm : runtime library - libpfm-dev: development files (headers, manpages, static library) - libpfm-python: Python bindings for the library To generate the RPMs: $ rpmbuild -ba libpfm.spec To generate the Debian packages: $ debuild -i -us -uc -b You may need to install some extra packages to make Debian package generation possible. REQUIREMENTS: ------------- - to run the programs in the perf_examples subdir, you MUST be using a linux kernel with perf_events. That means v2.6.31 or later. - to compile the Python bindings, you need to have SWIG and the python development packages installed - To compile on Windows, you need the MinGW and MSYS compiler environment (see www.mingw.org). The environment needs to be augmented with the mingw regex user contributed package (mingw-libgnurx-2.5.1.dev.tar.gz). - To compile on Mac OS X, you need to have gmake installed. DOCUMENTATION ------------- - man pages for all entry points. It is recommended you start with: man libpfm - More information can be found on library web site: http://perfmon2.sf.net
boomanaiden154/libpfm4
This is a mirror of the official libpfm4 git repository, https://sourceforge.net/p/perfmon2/libpfm4/ci/master/tree/ with some local branch for developing patches.
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