libfftw3_omp3-32bit-3.3.6-lp151.5.1 >  A \Ը/=„ng^ov4!l&\`bc3`59gwhvH BS@~Մo t;'c. `r'͙~/rco>N喪FcD{rt6{[}:' ҫ+6-5$E~omMŀ8ųXC+/]Bj/9(DQo*5+KFd3N~ώoKKh4C}hb4yLc0f10aa5027b62422a536df20dbcc2ad43dfedb4b142d67266d67acebb31d6983c2aa9cfbfccf73cc911ea0381a1bb60dda7da39]\Ը/=„`)tp}!jОj*;(pVba1/]ǏAYRkU=+,h]6{I @+ҽHhY#Df " U3+YOnmVxs|VF,xC@>#"dǿ%5U1uvF*-b j\j/!nl`6,n)G"zqkeDKu _qsrl2xS~s6>p>+0?+ d & \ +4= Wt     2Pp,C(j8t(9(:(>& G&H&,I&DX&LY&`\&]&^'b'"c'd(Ee(Jf(Ml(Ou(dv(|w*4x*Ly*d***+Clibfftw3_omp3-32bit3.3.6lp151.5.1Discrete Fourier Transform (DFT) C subroutine libraryFFTW is a C subroutine library for computing the Discrete Fourier Transform (DFT) in one or more dimensions, of both real and complex data, and of arbitrary input size.\lamb022openSUSE Leap 15.1openSUSEGPL-2.0+https://bugs.opensuse.orgProductivity/Scientific/Mathhttp://www.fftw.orglinuxx86_64/sbin/ldconfigfLfLfL\\\\\\a7cbe841828f42d3214e7600c5ad860dc650f76d47d77ddb602794f5d82d69d43c811a0cc93d3ca318f1015c27d52af3268b158f7c8abf3a66db871b23304bf807be5eeeeacdb4a5847133bef5165c63668859dadc239d6f68914a4fa695b861libfftw3_omp.so.3.5.6libfftw3f_omp.so.3.5.6libfftw3l_omp.so.3.5.6rootrootrootrootrootrootrootrootrootrootrootrootfftw3-3.3.6-lp151.5.1.src.rpmlibfftw3_omp.so.3libfftw3_omp3-32bitlibfftw3_omp3-32bit(x86-32)libfftw3f_omp.so.3libfftw3l_omp.so.3@@@@@@@@@@    /bin/shlibc.so.6libc.so.6(GLIBC_2.1.3)libc.so.6(GLIBC_2.4)libfftw3.so.3libfftw3f.so.3libfftw3l.so.3libgomp.so.1libgomp.so.1(GOMP_4.0)libgomp.so.1(OMP_1.0)libpthread.so.0rpmlib(CompressedFileNames)rpmlib(FileDigests)rpmlib(PayloadFilesHavePrefix)rpmlib(PayloadIsXz)3.0.4-14.6.0-14.0-15.2-14.14.1\j@ZZZe@ZaZX@ZOhZ Z7Z@YYYY@YY@YY4W9SRe@SRe@PͷOOĺ@O8Oc+@OU@OU@OU@OU@NwNwN=@NN @N;@N98@MK:@J_@IX@Egbert Eich eich@suse.comnmoreychaisemartin@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comeich@suse.comcgoll@suse.comcgoll@suse.commardnh@gmx.demardnh@gmx.demardnh@gmx.dedhall@wustl.educoolo@suse.comtiwai@suse.deadrian@suse.dealinm.elena@gmail.comdhall@wustl.edudhall@wustl.edudhall@wustl.edudhall@wustl.eduidoenmez@suse.dero@suse.dejengelh@medozas.deadrian@suse.dedhall@wustl.edudhall@wustl.edudhall@wustl.edutoddrme2178@gmail.comdavejplater@gmail.comtiwai@suse.detiwai@suse.de- Add FFTW_BIN to environment variable with module file (bsc#1125824).- Add support for openmpi2 for the HPC build (FATE#325089).- Switch to openmpi2 instead of openmpi (bsc#1082302), apart from ppc64 as openmpi2 does not support it.- Fix typo in flavor gnu7-hpc settings.- Change the name of the MPI version of the module file directory to pfftw3 to distinguish it from the 'serial' one (boo#1075933).- Disable the openmpi3 flavor in some products.- Add gcc7 as additional compiler flavor for HPC on SLES. - Fix library package requires - use HPC macro (boo#1074890). - Add support for mpich and openmpi3 for HPC.- Fix library package dependencies - limit certain dependencies to HPC packages.- Fix HPC library requires package and modules file.- update to 3.3.6-pl2 * Bugfix: MPI Fortran-03 headers were missing in FFTW 3.3.6-pl1. * Bugfix: FFTW 3.3.6 had the wrong libtool version number, and generated shared libraries of the form libfftw3.so.2.6.6 instead of libfftw3.so.3.*. * The fftw_make_planner_thread_safe() API introduced in 3.3.5 didn't work, and this 3.3.6 fixes it. Sorry about that. * compilation fixes for IBM XLC * compilation fixes for threads on Windows * fix SIMD autodetection on amd64 when (_MSC_VER > 1500)- Don't use openmpi-devel for HPC builds.- Fix dependencies for the HPC devel package.- Add magic to limit the number of flavors built in the in the OBS ring.- For HPC build package static libraries as well.- Generate baselib.conf dynamically and only for the non-HPC build: this avoids issues with the source validator.- removed unnedded dependency packages- rewrote for hpc library support * added environment modules * reduced number of hpc realted packages to two (FATE#321716).- update to version 3.3.5 * New SIMD support: - Power8 VSX instructions in single and double precision. To use, add --enable-vsx to configure. - Support for AVX2 (256-bit FMA instructions). To use, add --enable-avx2 to configure. - Experimental support for AVX512 and KCVI. (--enable-avx512, --enable-kcvi) This code is expected to work but the FFTW maintainers do not have hardware to test it. - Support for AVX128/FMA (for some AMD machines) (--enable-avx128-fma) - Double precision Neon SIMD for aarch64. This code is expected to work but the FFTW maintainers do not have hardware to test it. - generic SIMD support using gcc vector intrinsics * Add fftw_make_planner_thread_safe() API * fix #18 (disable float128 for CUDACC) * fix #19: missing Fortran interface for fftwq_alloc_real * fix #21 (don't use float128 on Portland compilers, which pretend to be gcc) * fix: Avoid segfaults due to double free in MPI transpose- add support for long-double precision- update to version 3.3.4 * New functions fftw_alignment_of (to check whether two arrays are equally aligned for the purposes of applying a plan) and fftw_sprint_plan (to output a description of plan to a string). * Bugfix in fftw-wisdom-to-conf; thanks to Florian Oppermann for the bug report. * Fixed manual to work with texinfo-5. * Increased timing interval on x86_64 to reduce timing errors. * Default to Win32 threads, not pthreads, if both are present. * Various build-script fixes. - Drop obsoleted 1_man_macro.patch- update to version 3.3.3 * Fix deadlock bug in MPI transforms (thanks to Michael Pippig for the bug report and patch, and to Graham Dennis for the bug report). * Use 128-bit ARM NEON instructions instead of 64-bit instructions. This change appears to speed up even ARM processors with a 64-bit NEON pipe. * Speed improvements for single-precision AVX. * Speed up planner on machines without "official" cycle counters, such as ARM.- update to 3.3.2 to fix crashes with gcc 4.7 * Removed an archaic stack-alignment hack that was failing with gcc-4.7/i386. * Added stack-alignment hack necessary for gcc on Windows/i386. We will regret this in ten years (see previous change). * Fix incompatibility with Intel icc which pretends to be gcc but does not support quad precision. * make libfftw{threads,mpi} depend upon libfftw when using libtool; this is consistent with most other libraries and simplifies the life of various distributors of GNU/Linux.- Enable AVX support (bnc#763657)- fix build on %arm * disable neon it would require --enable-single (precision) - enable openmpi for %arm- source the mpi environment- delete INSTALL file- patch macros in man files- add use of neon extensions on ARM- updated to version 3.3.1 * Reduced planning time in estimate mode for sizes with large prime factors. * Added AVX autodetection under Visual Studio. Thanks Carsten Steger for submitting the necessary code. * Modern Fortran interface now uses a separate fftw3l.f03 interface file for the long double interface, which is not supported by some Fortran compilers. Provided new fftw3q.f03 interface file to access the quadruple-precision FFTW routines with recent versions of gcc/gfortran. * Added support for the NEON extensions to the ARM ISA. * MPI code now compiles even if mpicc is a C++ compiler; thanks to Kyle Spyksma for the bug report.- Ignore rpmlint fixed dependency errors- fix build on s390/s390x without openmpi- Remove redundant/unwanted tags/section (cf. specfile guidelines) - Employ shlib naming (fftw3 -> libfftw3)- enable sse only on supported architectures- enable sse2 and sse code generation- specfile cleanup * Remove authors from description * use %makeinstall - fix devel and mpi-devel to include proper header files- updated to version 3.3: * Compiling OpenMP support (--enable-openmp) now installs a fftw3_omp library, instead of fftw3_threads, so that OpenMP and POSIX threads (--enable-threads) libraries can be built and installed at the same time. * Add support for the AVX extensions to x86 and x86-64 * Added Fortran 2003 interface * Added MPI distributed-memory transforms * Add support for quad-precision __float128 in gcc 4.6 or later (on x86. x86-64, and Itanium). The new routines use the fftwq_ prefix. * New convenience functions fftw_alloc_real and fftw_alloc_complex to use fftw_malloc for real and complex arrays without typecasts or sizeof. * New convenience functions fftw_export_wisdom_to_filename and fftw_import_wisdom_from_filename that export/import wisdom to a file, which don't require you to open/close the file yourself. * New function fftw_cost to return FFTW's internal cost metric for a given plan * Remove --enable-portable-binary flag: we new produce portable binaries by default. * Fixed build problem failure when srand48 declaration is missing * Fixed bug in fftw_set_timelimit: ensure that a negative timelimit is equivalent to no timelimit in all cases * Fixed stack-overflow problem on OpenBSD caused by using alloca with too large a buffer. - added openmp library support - added mpi library support- Add 32bit compatibility libraries - Changed -devel package groups to Development/Libraries/C and C++ (fix for RPMLINT warning)- Added provides fftw-devel- updated to version 3.2.2: * Improve performance of some copy operations of complex arrays * Add configure flag to disable alloca() * Planning in FFTW_ESTIMATE mode for r2r transforms became slower between fftw-3.1.3 and 3.2. This regression has now been fixed.- remove obsolste fdupes check in spec file - avoid unnecessary autoreconf/bin/sh3.3.6-lp151.5.13.3.6-lp151.5.1libfftw3_omp.so.3libfftw3_omp.so.3.5.6libfftw3f_omp.so.3libfftw3f_omp.so.3.5.6libfftw3l_omp.so.3libfftw3l_omp.so.3.5.6/usr/lib/-fomit-frame-pointer -fmessage-length=0 -grecord-gcc-switches -O2 -Wall -D_FORTIFY_SOURCE=2 -fstack-protector-strong -funwind-tables -fasynchronous-unwind-tables -fstack-clash-protection -gobs://build.opensuse.org/openSUSE:Leap:15.1/standard/b5942dfbce03c2376b59bb67203ea4eb-fftw3:standardcpioxz5x86_64-suse-linuxELF 32-bit LSB shared object, Intel 80386, version 1 (SYSV), dynamically linked, BuildID[sha1]=4d057920b4e930c3a4dead6e6c42c21ec70d3818, strippedELF 32-bit LSB shared object, Intel 80386, version 1 (SYSV), dynamically linked, BuildID[sha1]=a5cae82c20665aac8239556543996e8526f8564d, strippedELF 32-bit LSB shared object, Intel 80386, version 1 (SYSV), dynamically linked, BuildID[sha1]=911576eebc78d78caa19d6c4730cc4cd1197825d, stripped  PRRRR RRR RPRRRR RRR RPRRRR RRR Rutf-8f9cfee568088d19523dbca6249431eeeeace8fe989bc184e5524bbb92e65bee1? 7zXZ !t/6.=] cr$x#tZQۀa@q/TIh͔ԘI&P݂$@"P0ԒYYE++S r>(4JH/f V5=7)krQ*xEϵLDt8'#1]OC+4c, Lm >{vn4Fc@lkA+ھj(,BbgU_pҭNfD#Bn-+#?Q 9$ !dY!ad$QOlwza|G ^; #ekL؍Sm+:$s| I]aAzEvP@ۭ Ao5DU~}qn3yM29ytai`CnGbX@xwB/0E $zz_hBwJM,ĚQi 2WWq}%AH|J\Ys` R^QPÈ"ڍm۲EEMFL@o$䁖9~'qQ{ 3Xeq<@XeCZ%mʭ'OZg9f:/PMW\QjdZ3{KwTRV$k`d3 "7f敬X)HћC]*'))6]^Zs\<20DwC|DȫoHͭ/]ϧ8D&fäylBjJW!wS9-?qLL3(SGlBke`☴ V=>Vg%Cmܳ˖Wq-zSGΒ}vo<<~QtV E|gR}4};rz> ŦNjC i<&pJoW %%t[oڲ2E?DҺ\nb@R"/qE#9-tfFЛvS=M߬)BFƟE 圌KS%HJ3q9s yfA&a N>e,cQl>[\!^K:)C{ #w//UЕz!tF N <4M]3X:BS-wsH}'tVS1r؂t崳]0kMV'6)念ǔ1K4ÙDƆF:2ƒg;߀? 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