Selected BLAS and LAPACK Java bindings for Intel's oneAPI Math Kernel Library on Windows and Linux
The current implementation covers 76 prominent functions for column-major double[] arrays / dense matrices (about two-thirds from LAPACK, the rest focusing on level 2 / level 3 operations from BLAS and BLAS extensions). Roughly a dozen of those functions are also available in float[] and complex float / complex double versions adding up to about 110 functions overall.
In particular, the library has implementations for all 4 data types of
?gemm, ?imatcopy, ?omatadd, ?omatcopy
?geev
?gels
?geqrf
?gesdd
?gesv
?getrf
In addition, the special complex functions
cgemm3m, zgemm3m
cungqr, zungqr
(complex versions ofsorgqr / dorgqr
)
are also provided. Hence, the basic operations for general dense matrices, as well as the LU
, QR
, EVD
and SVD
decompositions are covered for all 4 data types (and there is more for double[] only).
The intended purpose of the library is to be a Java JNI wrapper of Intel's native oneAPI Math Kernel Library (oneMKL
). However, the float and double functions can also be used without an MKL installation as the pure Java org.netlib implementation of those functions is included as a dependency.
Given that the original Fortran API is very low-level, there is PlainLapack which is a very thin wrapper that provides automatic work array allocation and extensive parameter checking (the latter being only partially implemented by now).
Since parameter checking is crucial for the JNI implementation, the safest approach is to go through the PlainLapack
API.
Beyond that, no attempt has been made to hide or simplify the difficulties of the original BLAS / LAPACK API.
<dependency>
<groupId>net.sourceforge.streamsupport</groupId>
<artifactId>dedekind-mkl</artifactId>
<version>1.1.0</version>
</dependency>
dedekind-MKL doesn't ship with the Intel oneMKL library. If MKL isn't already installed on your system an easy path is to download one of the redistributables here or here, extract the archive to a directory and add that to your PATH
variable and you should be ready to go. There is also a nuget redistributable for Windows and a lot of Linux distros ship MKL in their repositories, for example, on Arch Linux, it's simply pacman -S intel-oneapi-mkl
and you're done. Of course, you can also download the official installer from Intel for a full installation which has a huge on-disk footprint (~ 8 GiB). Finally, the MKL binaries included in Python distributions like Anaconda or WinPython should also be usable.
By default, dedekind-MKL searches for its own dedekind-mkl.so/.dll native library on the java.library.path or in a directory that can be specified either through the environment variable DEDEKIND_SHAREDLIB_DIR
or via the Java system property dedekind.sharedlib.dir
. If that doesn't succeed, the shared library gets automatically unpacked from the jar file into java.io.tmpdir and loaded from there. The dedekind-mkl.so/.dll can only be loaded if the OS can find the dependent MKL
libraries somewhere on the PATH
.
You'll see an exception stack trace in the console if that doesn't work but dedekind-MKL will still be (partially) usable as it will fallback to the F2J pure Java implementation. However, none of the BLAS / LAPACK routines for complex datatypes nor the BLAS extensions will be usable in that case and you'll surrender major performance improvements especially for larger matrices.