SuiteSparse/5.13.0-cpeCray24.03-OpenMP (SuiteSparse-5.13.0-cpeCray24.03-OpenMP.eb)
To access module help and find out for which stacks and partitions the module is
installed, use module spider SuiteSparse/5.13.0-cpeCray24.03-OpenMP
.
EasyConfig:
easyblock = 'ConfigureMake'
local_metis_version = '5.1.0'
local_MPFR_version = '4.2.0'
local_SuiteSparse_version = '5.13.0'
name = 'SuiteSparse'
version = local_SuiteSparse_version
versionsuffix = '-OpenMP'
homepage = 'https://faculty.cse.tamu.edu/davis/suitesparse.html'
whatis = ['Description: SuiteSparse is a collection of libraries to manipulate sparse matrices.']
description = """
SuiteSparse is a suite of sparse matrix algorithms. This package include:
- AMD : approximate minimum degree ordering
- BTF : permutation to block triangular form
- CAMD : constrained approximate minimum degree ordering
- CCOLAMD : constrained column approximate minimum degree ordering
- CHOLMOD : sparse Cholesky factorization
- COLAMD : column approximate minimum degree ordering
- CXSparse : CSparse Extended, includes support for complex matrices
- KLU : parse LU factorization, primarily for circuit simulation
- LDL : a very concise LDL' factorization package
- RBio : read/write sparse matrices in Rutherford/Boeing format
- SPQR : sparse QR factorization.
- UMFPACK : sparse LU factorization
"""
toolchain = {'name': 'cpeCray', 'version': '24.03'}
toolchainopts = {'unroll': True, 'pic': True, 'openmp': True}
source_urls = ['https://github.com/DrTimothyAldenDavis/SuiteSparse/archive']
sources = ['v%(version)s.tar.gz']
checksums = ['59c6ca2959623f0c69226cf9afb9a018d12a37fab3a8869db5f6d7f83b6b147d']
builddependencies = [
('buildtools', '%(toolchain_version)s', '', True),
('craype-network-none', EXTERNAL_MODULE),
('craype-accel-host', EXTERNAL_MODULE),
]
dependencies = [
('METIS', local_metis_version),
('MPFR', local_MPFR_version),
]
skipsteps = ['configure']
prebuildopts = ' && '.join([
'export LD_LIBRARY_PATH=%(builddir)s/SuiteSparse-%(version)s/lib:$LD_LIBRARY_PATH',
'export CMAKE_OPTIONS="-DCMAKE_INSTALL_PREFIX=%(installdir)s"',
'rm -f GraphBLAS/CUDA/test/graphblascuda_test',
'module unload rocm xpmem',
]) + ' && '
# Make sure we only link the multithreaded variant of libsci
prebuildopts += 'LDFLAGS="-fopenmp" '
preinstallopts = prebuildopts
local_commonopts = ' '.join([
'BLAS="" LAPACK=""',
'MY_METIS_LIB="$EBROOTMETIS/lib/libmetis.%s"' % SHLIB_EXT,
'MY_METIS_INC="$EBROOTMETIS/include"',
]) + ' '
buildopts = local_commonopts
installopts = local_commonopts + 'INSTALL="%(installdir)s"'
postinstallcmds = [
'mkdir -p %(installdir)s/share/licenses/%(name)s',
'cd ../%(name)s-%(version)s && cp LICENSE.txt CITATION.bib %(installdir)s/share/licenses/%(name)s',
]
local_libnames = [
'AMD', 'BTF', 'CAMD', 'CCOLAMD', 'CHOLMOD', 'COLAMD',
'CXSparse', 'KLU', 'LDL', 'RBio', 'SPQR', 'UMFPACK'
]
sanity_check_paths = {
'files': [
'lib/lib%s.%s' % (lib.lower(), SHLIB_EXT) for lib in local_libnames
],
'dirs': []
}
moduleclass = 'numlib'