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Besides being implementations, BLAS and LAPACK are also API standards for basic linear algebra operations (such as vector and matrix multiplication). Many implementations of these API exist. The reference implementation of BLAS and LAPACK from Netlib is very stable but is not as fast as optimized ones such as ATLAS and OpenBLAS.

Implementations of BLAS:

  • blas - Reference implementation from Netlib.
  • atlas - Automatically Tuned Linear Algebra Software.
  • blis - BLAS-like Library Instantiation Software framework.
  • openblas - OpenBLAS, an optimized BLAS based on GotoBLAS2.

Both BLIS and OpenBLAS provide several flavors: a sequential version, a threaded one, and another with OpenMP support (all of them with or without support for 64-bit integers).

Implementations of LAPACK:

  • lapack - Reference implementation from Netlib.
  • ATLAS, BLIS and OpenBLAS provide an optimized subset of LAPACK.

Due to implementation differences, it is important that all components of a particular software stack link to the same BLAS/LAPACK implementation. Also, users may want to choose a particular implementation that works best for them at run time. This guideline gives a structure that can enforce the first while allowing the second, as well as providing a transparent fallback mechanism to Netlib's reference implementation for those symbols not included in the selected backend.


FlexiBLAS is a framework that wraps both BLAS and LAPACK APIs in a single library. BLAS/LAPACK consumers must link against FlexiBLAS, and this wrapper is able to redirect calls to a selected optimized backend with negligible overhead. It also provides transparent fallback to Netlib's reference implementation if a certain symbol is not present in the selected backend. These are the main features:

  • Provides a 100% BLAS and LAPACK compatible ABI/API, with interfaces for both 32- and 64-bit integers.
  • Runtime exchangeable BLAS and LAPACK backend without recompilation via an environment variable.
  • Integration of user-owned BLAS libraries without administrator privileges, even in system-wide installed programs.
  • Works with OpenBLAS, ATLAS, Intel MKL, ACML, ...
  • Flexible per-system/user/host configuration files.
  • Basic profiling support.

FlexiBLAS provides a common interface, as well as fallbacks to Netlib's reference implementation:

%files netlib

%files netlib64

and, finally, several wrappers for different implementations under different names:

%files atlas

%files blis-serial

%files blis-threads

%files blis-openmp

%files openblas-serial

%files openblas-threads

%files openblas-openmp

plus the 64-bit versions for BLIS and OpenBLAS under %{_libdir}/flexiblas64 in 64-bit architectures. These are sub-packaged separately to avoid pulling the whole stack of implementations. The netlib and netlib64 sub-packages require a default implementation that is currently set to openblas-serial:

%global default_backend openblas-serial

%package        netlib
Requires:       %{name}%{?_isa} = %{version}-%{release}
Requires:       %{name}-%{default_backend}%{?_isa} = %{version}-%{release}

%package        netlib64
Requires:       %{name}%{?_isa} = %{version}-%{release}
Requires:       %{name}-%{default_backend}64%{?_isa} = %{version}-%{release}

Packaging guidelines

BLAS/LAPACK implementations

Implementations of BLAS and/or LAPACK available in Fedora do not need to change anything.

BLAS/LAPACK dependent packages

Consumers of any subset of BLAS and/or LAPACK must compile against FlexiBLAS:

BuildRequires: pkgconfig(flexiblas)

if the package requires the 32-bit interface (this is the most common case), or a conditional BuildRequires such as

%if 0%{?__isa_bits} == 64
BuildRequires: pkgconfig(flexiblas64)
BuildRequires: pkgconfig(flexiblas)

if the package uses the 64-bit interface when available. Another possibility would be to build 64-bit versions for 64-bit architectures as subpackages. However, note that if the package only supports this 64-bit interface, then 32-bit architectures must be excluded.

In any case, by compiling against FlexiBLAS, they will automatically use the system-wide default backend, and will benefit from any other system/user/host-selected optimized subset of routines.

Backend selection

System-level selection

A package compiled against FlexiBLAS pulls out the corresponding flexiblas-netlib(64) subpackage, which in turn requires the default optimized backend, e.g., flexiblas-openblas-serial(64). This is set via the "default=IMPLEMENTATION-NAME" key (by default, default=openblas-serial), present in the main configuration file shipped in the main subpackages:

%files netlib
%config(noreplace) %{_sysconfdir}/flexiblasrc

%files netlib64
%config(noreplace) %{_sysconfdir}/flexiblas64rc

To allow system-level selection of other BLAS/LAPACK implementations, more backends must be installed in the first place (e.g., flexiblas-atlas, flexiblas-blis-serial...), and then they can be swapped system-wide via the flexiblas CLI tool, or just by modifying the "default" key in the configuration file by hand.

User-level selection

Persistent user-level selection of system-provided BLAS/LAPACK implementations can be done via the CLI tool:

$ flexiblas64 set IMPLEMENTATION-NAME

provided the sub-package for IMPLEMENTATION-NAME is installed.

Non-persistent user-level selection can be triggered via an environment variable:


User-level selection of user-owned BLAS/LAPACK libraries can be achieved just by changing IMPLEMENTATION-NAME with a path to any custom BLAS/LAPACK-compatible library in the examples above.