This is a Nim wrapper for the BLAS routines.
You can import nimblas/cblas
to use the standard BLAS interface, or just
import nimblas
for a version that is more Nim-friendly.
The Nim version removes the prefixes and uses dispatch based on types instead.
This means that, for instance, both cblas_saxpy
and cblas_daxpy
become
simply axpy
, and the correct version is chosen by checking the size of
parameters at the usage site.
Only a subset of BLAS is available under nimblas
, with more operations added
on necessity.
For a higher-level linear algebra library based on this, check out
The library requires to link some BLAS implementation to perform the actual linear algebra operations. By default, it tries to link whatever is the default system-wide BLAS implementation.
You can link against a different BLAS implementation by a combination of:
--clibdir
for this).--define:blas
flag. By default (i.e. if you don't set this flag), the system
tries to load a BLAS library by looking for the most common blas library file names according
to the underling operating system (e.g. blas.dll
, openblas.dll
, libopenblas.dll
,
mkl_intel_lp64.dll
in Windows, libblas.so
, libcblas.so
or libopenblas.so
on Linux, etc).
However, if you want to link to one specific library, skipping the automatic search, you can
specify it with this flag. For instance, the Linux Arch distribution and its derivatives (such
as Manjaro) expose the C API for BLAS inside a library called libcblas.so
(unlike most other
distributions that put it into libblas.so
). To explicitly link with that library, you can set
--define:blas=cblas
. Note the missing lib
prefix and .so
suffix, which nimblas adds automatically
(similarly on windows you should not include the .dll
extension when setting this flag).For more examples, see the tasks inside nimblas.nimble.
(Previously there was a more ad hoc mechanism using flags called -d:atlas
,
-d:openblas
or -d:mkl
, which is deprecated as of NimBLAS 0.2.)
Packages for various BLAS implementations are available from the package
managers of many Linux distributions. On OSX one can add the brew formulas
from Homebrew Science, such
as brew install homebrew/science/openblas
. On Windows you can download pre-built
binaries from the OpenBLAS github repository
and add the library folder to your PATH or copy it into your executable folder.
You may also need to add suitable paths for the includes and library dirs. On OSX, this should do the trick
switch("clibdir", "/usr/local/opt/openblas/lib")
switch("cincludes", "/usr/local/opt/openblas/include")
If you have problems with MKL, you may want to link it statically. Just pass the options
--dynlibOverride:mkl_intel_lp64
--passL:${PATH_TO_MKL}/libmkl_intel_lp64.a
to enable static linking.