AArch64 | |
ppc64le | |
s390x | |
x86-64 |
- Add support for gcc8/9 building (jsc#SLE-8604).
- Build HPC master package for 'examples'.
- add a examples subpackage which include graphs* file to test Metis
- Set default module version correctly when installing master package, unset when deinstalling the default library package. - Fix %%post and %%postun scripts for HPC. - Fix dependencies for HPC. - Fix HPC modulefile: * Aibraries are always there when module file is installed. * Set PKG_CONFIG_PATH. - Fix package group names.
- Remove dependency to a non-existing module package for HPC.
- Edit description to put time-sensitive wording into context.
- General spec file clean up. - Touch-up to the HPC build.
- Implemented suse-hpc packaging - Added metis-makefile-c-directives.patch - Provides cflags option to help provide metis native build process
- Update to version 5.1.0, changes since version 4.0 * strtoidx() addition for portable input file parsing * Fixed some bad memory allocation calls * Incorporated GKlib into METIS, which replaced many of its internal functions. * A nearly complete re-write of Metis' code-based that changed expanded the functionality of the command-line programs and API routines * Multi-constraint partitioning can be used in conjunction with minimization of the total communication volume. * All graph and mesh partitioning routines take as input the target sizes of the partitions, which among others, allow them to compute partitioning solutions that are well-suited for parallel architectures with heterogeneous computing capabilities. * When multi-constraint partitioning is used, the target sizes of the partitions are specified on a per partition-constraint pair. * The multilevel k-way partitioning algorithms can compute a partitioning solution in which each partition is contiguous. * All partitioning and ordering routines can compute multiple different solutions and select the best as the final solution. * The mesh partitioning and mesh-to-graph conversion routines can operate on mixed element meshes. * The command-line programs provide full access to the entire set of capabilities provided by Metis' API. * Re-written the memory management subsystem to reduce overall memory requirements. * Added back Fortran support in the form of alternate API names (see libmetis/frename.h). * Changed the license to Apache Version 2 - Move metis shared library to separate package - Enable build tests - Use proper build parameters * metis-cmake.patch - Delete compilation time from metis programs to avoid unnecessary package republishing * metis-programs-no-compilation-time.patch
- Buildreqs libtool for 12.2 an higher - spec file reformating
- remove %%debug_package macro which broke build on 11.3
- new package