Package: boost-all Version: 1.60.0-1 Architecture: amd64 Maintainer: None Installed-Size: 51662 Depends: libbz2-1.0, libc6 (>= 2.14), libgcc1 (>= 1:4.0), libstdc++6 (>= 5.2), zlib1g (>= 1:1.1.4) Filename: ./amd64/boost-all_1.60.0-1_amd64.deb Size: 5149006 MD5sum: 0ede2742a7b0c0cdb6492d69f621fbd8 SHA1: faec54c5c66ea42196f133a7e30ac68a013232d6 SHA256: b0e09063da98a5a2a047b3e78e09f021ab5c91b27c10a05b839e7bbbc8330163 Section: misc Priority: optional Description: Boost library, version 1.60.0-1 (shared libraries) Package: boost-all-dev Source: boost-all Version: 1.60.0-1 Architecture: amd64 Maintainer: None Installed-Size: 105346 Depends: boost-all (= 1.60.0-1) Filename: ./amd64/boost-all-dev_1.60.0-1_amd64.deb Size: 6425514 MD5sum: cc0a53467cdf60fc3559617c4d9edc93 SHA1: 8155db9bf6e939392adb62f506b60795948436ea SHA256: 4dfbe5c875b1f304f5620550d5ffcf6597a7d76acf3c00dd527c2366dc50969f Section: misc Priority: optional Description: Boost library, version 1.60.0-1 (development files) Package: boost-build Source: boost-all Version: 1.60.0-1 Architecture: amd64 Maintainer: None Installed-Size: 157267 Filename: ./amd64/boost-build_1.60.0-1_amd64.deb Size: 11665496 MD5sum: 4f7de4b41bc390d7e69ac9c87f766a87 SHA1: c389b3ca06f80e63f44a4177b634c5c19f23608c SHA256: 61e94ef463fab7ba33450039dd92559f40c78ca106c1f91bf42faaf75425e9b3 Section: misc Priority: optional Description: Boost Build v2 executable Package: dolfin-bin Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 93 Depends: python-dolfin (>= 2017.1.0-1~ppa6~xenial1), python-numpy, python:any (>= 2.7~) Filename: ./all/dolfin-bin_2017.1.0-1~ppa6~xenial1_all.deb Size: 25142 MD5sum: 09a1f53e010733618e16782f646b51cb SHA1: 836978f74a39b6bc46aac4c537bebdc3bbe54a8a SHA256: 290d6645db757dbc6401b9d79d51fd39925df5c574f64609a5889527346c5066 Section: math Priority: extra Homepage: http://fenicsproject.org Description: Executable scripts for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains executable scripts for DOLFIN. Original-Maintainer: Debian Science Team Package: dolfin-doc Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 18720 Depends: libdolfin-dev (>= 2017.1.0-1~ppa6~xenial1), python-dolfin (>= 2017.1.0-1~ppa6~xenial1) Suggests: cmake (>= 2.8.0) Filename: ./all/dolfin-doc_2017.1.0-1~ppa6~xenial1_all.deb Size: 2240668 MD5sum: 63339e8f9babb9965f742f4425814c5f SHA1: eb55dc7926bb0bf93e99ff123a0aec83e479e78b SHA256: aec3543b569d9e6cd1b59a91b42826244d1992cf15843434a4d1593c3dc39b5b Section: doc Priority: extra Homepage: http://fenicsproject.org Description: Documentation and demo programs for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains documentation and demo programs for DOLFIN. Original-Maintainer: Debian Science Team Package: fenics Version: 1:2017.1.0.1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 12 Depends: libdolfin-dev (>= 2017.1.0), python-dolfin (>= 2017.1.0), dolfin-doc (>= 2017.1.0), dolfin-bin (>= 2017.1.0), python-ffc (>= 2017.1.0), python-fiat (>= 2017.1.0), python-instant (>= 2017.1.0), python-ufl (>= 2017.1.0), python-ufl-doc (>= 2017.1.0), python-dijitso (>= 2017.1.0), libmshr-dev (>= 2017.1.0), python-mshr (>= 2017.1.0), mshr-demos (>= 2017.1.0) Filename: ./all/fenics_2017.1.0.1~ppa1~xenial1_all.deb Size: 3542 MD5sum: 1a47dec995b382a3aca0ae66530d7983 SHA1: 4022b9e3ed68b2d79e71e3792de0050e98c98a5c SHA256: 8f79d1e49a96e65e525bee5f2c9c0cf4ae730061c90ce70dc8c4fd3df5b79318 Section: math Priority: extra Homepage: http://fenicsproject.org Description: Automated Solution of Differential Equations FEniCS is a collection of free software for automated, efficient solution of differential equations. . FEniCS has an extensive list of features, including automated solution of variational problems, automated error control and adaptivity, a comprehensive library of finite elements, high performance linear algebra and many more. . FEniCS is organized as a collection of interoperable components, including the problem-solving environment DOLFIN, the form compiler FFC, the finite element tabulator FIAT, the just-in-time compiler Instant, the code generation interface UFC, the form language UFL and a range of additional components. Original-Maintainer: Debian Science Team Package: gerris-snapshot Version: 20131206 Architecture: amd64 Maintainer: Stephane Popinet Installed-Size: 7842 Depends: libc6 (>= 2.14), libfftw3-double3, libgfortran3 (>= 4.6), libglib2.0-0 (>= 2.30.0), libgsl2, libgts-snapshot (>= 0.7.6), libnetcdf11 (>= 3.6.1), libopenmpi1.10, libproj9 (>= 4.8.0), mpi-default-dev, mpi-default-bin, libgts-snapshot-dev, pkg-config, gcc, sed, gawk, m4 Suggests: gfsview-snapshot, source-highlight, imagemagick, ffmpeg Conflicts: gerris, libgfs-1.3-1, libgfs-1.3-2, libgfs-dev, libgfs-mpi-1.3-2, libgfs-mpi-dev Filename: ./amd64/gerris-snapshot_20131206_amd64.deb Size: 1254690 MD5sum: 9f45a36e89e899176b6d8692545809e5 SHA1: e16b3ad26e76c02cdbbd2c60c98a03325d226740 SHA256: 6a75f16464a63335df738fac51048336b76e3d591bb9d241c381fa071b22690f Section: science Priority: optional Homepage: http://gfs.sourceforge.net/ Description: Gerris Flow Solver (development snapshot) Gerris is a system for the solution of the partial differential equations describing fluid flow. . A brief summary of its main features: . * Quadtree-based (Octree in 3D) spatial discretisation with automatic and dynamic refinement. * Multigrid Poisson solver. * Second-order Godunov type advection scheme. * Solves the time-dependent incompressible Euler, Stokes ans Navier-Stokes equations. * Support for complex solid boundaries (automatic locally-refined mesh generation). . See http://gfs.sf.net for more information and documentation. Package: gfsview-snapshot Version: 20131206 Architecture: amd64 Maintainer: Stephane Popinet Installed-Size: 2002 Depends: gerris-snapshot (>= 20131206), libatk1.0-0 (>= 1.12.4), libc6 (>= 2.14), libftgl2 (>= 2.1.3~rc5), libgdk-pixbuf2.0-0 (>= 2.22.0), libgl1-mesa-glx | libgl1, libglib2.0-0 (>= 2.31.8), libglu1-mesa | libglu1, libgtk2.0-0 (>= 2.8.0), libgtkglext1, libgts-snapshot (>= 0.7.6), libopenmpi1.10, libosmesa6 (>= 10.2~), libstartup-notification0 (>= 0.2), libx11-6, zenity, gzip Replaces: gfsview Filename: ./amd64/gfsview-snapshot_20131206_amd64.deb Size: 358432 MD5sum: e6792d071099eab151cf53cdeb23c479 SHA1: be688be26ab1a92e6f90455cd9a59cf22a295ba1 SHA256: dc6823753630ff879d5ffc89ea9ee6950e2944fa2031d1a41c2676a84e73df5a Section: science Priority: optional Homepage: http://gfs.sourceforge.net/ Description: Gerris Flow Solver Visualisation (development snapshot) Gerris is a system for the solution of the partial differential equations describing fluid flow. . GfsView displays the results of 2D and 3D Gerris simulations. A brief summary of its main features: . * Scalar and vector cross-sections. * Isosurfaces. * Streamlines. * User-defined functions. * Fast adaptive display (using the multiresolution data representation of Gerris). * Scriptable. * Offline image generation. * Quality PostScript, PDF and bitmap outputs. . See http://gfs.sf.net for more information and documentation. Package: hello Version: 2.10-1 Architecture: amd64 Maintainer: Santiago Vila Installed-Size: 267 Depends: libc6 (>= 2.14) Conflicts: hello-traditional Breaks: hello-debhelper (<< 2.9) Replaces: hello-debhelper (<< 2.9), hello-traditional Filename: ./amd64/hello_2.10-1_amd64.deb Size: 50716 MD5sum: 01f97f9420ba68db3432f6e0a089c4fa SHA1: 95f11c69f77a9a57af6bed69a2e1bc8cfc924da7 SHA256: c83917bde8dbfa499e45b27a60fecd21d15490beae65c178231f16e88fa62110 Section: devel Priority: optional Homepage: http://www.gnu.org/software/hello/ Description: example package based on GNU hello The GNU hello program produces a familiar, friendly greeting. It allows non-programmers to use a classic computer science tool which would otherwise be unavailable to them. . Seriously, though: this is an example of how to do a Debian package. It is the Debian version of the GNU Project's `hello world' program (which is itself an example for the GNU Project). Package: libdeal.ii-8.5.1 Source: deal.ii Version: 8.5.1-2+obsbuild Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 262381 Depends: libblas3 | libblas.so.3, libbz2-1.0, libc6 (>= 2.14), libgcc1 (>= 1:4.0), libgsl2, libhdf5-openmpi-10 (>= 1.8.14), liblapack3 | liblapack.so.3, libmuparser2v5 (>= 2.2.3), libnetcdf-c++4 (>= 4.2), liboce-foundation10, liboce-modeling10, libopenmpi1.10, libp4est-1.1, libp4est-sc-1.1, libpetsc3.7.3, libslepc3.7.2, libstdc++6 (>= 5.2), libtbb2, libtrilinos-amesos12, libtrilinos-aztecoo12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ifpack12, libtrilinos-ml12, libtrilinos-muelu12, libtrilinos-shylu12, libtrilinos-teuchos12, libtrilinos-tpetra12, libtrilinos-xpetra12, libumfpack5.7.1, zlib1g (>= 1:1.2.0) Filename: ./amd64/libdeal.ii-8.5.1_8.5.1-2+obsbuild_amd64.deb Size: 33198722 MD5sum: fab8067d72e595bb8567273a96a3fa6c SHA1: feeee3d8ad9b99741866b0aa5bbdc2976420d611 SHA256: bc07c8d0c703769d368e17cb6c440c4efb1d24bb0dc449f213c9301cc7c46a18 Section: libs Priority: optional Multi-Arch: same Homepage: http://www.dealii.org/ Description: Finite Element Differential Equations Analysis Library deal.II is a C++ program library targeted at the computational solution of partial differential equations using adaptive finite elements. It uses state-of-the-art programming techniques to offer you a modern interface to the complex data structures and algorithms required. . This package contains the shared libraries. Package: libdeal.ii-dev Source: deal.ii Version: 8.5.1-2+obsbuild Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 77905 Depends: libarpack2-dev, libbz2-dev, libdeal.ii-8.5.1 (= 8.5.1-2+obsbuild), libgsl-dev, libhdf5-dev, libhdf5-mpi-dev, liblapack-dev, libmuparser-dev, libnetcdf-cxx-legacy-dev, libnetcdf-dev, liboce-foundation-dev, liboce-modeling-dev, liboce-ocaf-dev, liboce-visualization-dev, libp4est-dev, libsuitesparse-dev, libtbb-dev, mpi-default-dev, petsc-dev, slepc-dev, trilinos-all-dev, zlib1g-dev, libmetis-dev, libmumps-dev, libscalapack-mpi-dev Recommends: cmake Filename: ./amd64/libdeal.ii-dev_8.5.1-2+obsbuild_amd64.deb Size: 5338750 MD5sum: 76c155c8ee36a8e1e45145126cb58d50 SHA1: 552ee192101d54c302d296210a49719f55edc664 SHA256: 95981c5f91e944a6060160c8dae9a298e5dec187759fa3b4f59a8baa0c2e7356 Section: libdevel Priority: optional Homepage: http://www.dealii.org/ Description: Differential Equations Analysis Library - development files deal.II is a C++ program library targeted at the computational solution of partial differential equations using adaptive finite elements. It uses state-of-the-art programming techniques to offer you a modern interface to the complex data structures and algorithms required. . This package contains the development files. Package: libdeal.ii-doc Source: deal.ii Version: 8.5.1-2+obsbuild Architecture: all Maintainer: Debian Science Maintainers Installed-Size: 162930 Filename: ./all/libdeal.ii-doc_8.5.1-2+obsbuild_all.deb Size: 15192882 MD5sum: 0ff43f9fc66bd60dc9cf4b0781bf9cd4 SHA1: e0101828b18ec20d8a48cdb6adb371d8d36852e7 SHA256: b2faeb896b2cc9e1ae337895c9892f0e67f4a6d82764800ce25409fbe9c62cf8 Section: doc Priority: optional Homepage: http://www.dealii.org/ Description: Differential Equations Analysis Library - html doc. and examples deal.II is a C++ program library targeted at the computational solution of partial differential equations using adaptive finite elements. It uses state-of-the-art programming techniques to offer you a modern interface to the complex data structures and algorithms required. . This package contains the documentation and examples. Package: libdolfin-dev Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 1811 Depends: cmake (>= 2.8.0), libboost-chrono-dev, libboost-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-math-dev, libboost-mpi-dev, libboost-program-options-dev, libboost-serialization-dev, libboost-thread-dev, libboost-timer-dev, libdolfin2017.1 (= 2017.1.0-1~ppa6~xenial1), libeigen3-dev, libhdf5-mpi-dev, libsuitesparse-dev, libscotch-dev, libvtk6-dev, libxml2-dev, pkg-config, python-ffc (>= 2017.1.0) | python3-ffc (>= 2017.1.0), python-ffc (<< 2017.2~) | python3-ffc (<< 2017.2~), libpetsc3.7.3-dev, libslepc3.7.2-dev, python-petsc4py (>= 3.7) | python3-petsc4py (>= 3.7), python-petsc4py (<< 3.8) | python3-petsc4py (<< 3.8), python-slepc4py (>= 3.7) | python3-slepc4py (>= 3.7), python-slepc4py (<< 3.8) | python3-slepc4py (<< 3.8) Conflicts: libdolfin0-dev, libdolfin1.0-dev, libdolfin1.1-dev, libdolfin1.2-dev, libdolfin1.3-dev, libdolfin1.4-dev Replaces: libdolfin0-dev, libdolfin1.0-dev, libdolfin1.1-dev, libdolfin1.2-dev, libdolfin1.3-dev, libdolfin1.4-dev Filename: ./amd64/libdolfin-dev_2017.1.0-1~ppa6~xenial1_amd64.deb Size: 222956 MD5sum: ebe239099f2d0d7f7cae4b8f9457da9d SHA1: 844f176d25c33b2ae6a4e4d36ce4c45a2779f650 SHA256: 2bdfb08f96e28b7fd14b3d907296d807c86ce732fcbf16c847fcb6bc6c0ceee4 Section: libdevel Priority: extra Homepage: http://fenicsproject.org Description: Shared links and header files for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the development files. Original-Maintainer: Debian Science Team Package: libdolfin2017.1 Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 6131 Depends: libboost-filesystem1.58.0, libboost-iostreams1.58.0, libboost-program-options1.58.0, libboost-system1.58.0, libboost-timer1.58.0, libc6 (>= 2.14), libcholmod3.0.6, libgcc1 (>= 1:3.0), libgomp1 (>= 4.9), libhdf5-openmpi-10 (>= 1.8.14), libopenmpi1.10, libpetsc3.7.3, libptscotch-5.1, libslepc3.7.2, libstdc++6 (>= 5.2), libumfpack5.7.1, libvtk6.2, zlib1g (>= 1:1.1.4) Suggests: dolfin-doc, libdolfin2017.1-dbg, python-dolfin Filename: ./amd64/libdolfin2017.1_2017.1.0-1~ppa6~xenial1_amd64.deb Size: 1692722 MD5sum: c64dd7c4433576c7e1c8927101acb882 SHA1: 4fbfecbd60d87b9fd85c3d93739fb8d70ac6eb7d SHA256: 38008c99e654cd740b06ca6737d5d438ec579e94e881cd9ab4eaba0271ae19cf Section: libs Priority: extra Homepage: http://fenicsproject.org Description: Shared libraries for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the shared libraries. Original-Maintainer: Debian Science Team Package: libdolfin2017.1-dbg Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 38246 Depends: libdolfin2017.1 (= 2017.1.0-1~ppa6~xenial1) Filename: ./amd64/libdolfin2017.1-dbg_2017.1.0-1~ppa6~xenial1_amd64.deb Size: 37779414 MD5sum: 6144fec37aaff3b9827001a580b29495 SHA1: 3c7478c927c7928d2b4ad03910ffe52b4e693d39 SHA256: 7c11ae938fce6f2963f4fb5e7c8975a976b17c59481b467bb86138454844e4d9 Section: debug Priority: extra Homepage: http://fenicsproject.org Description: Shared libraries with debugging symbols for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the shared libraries with debugging symbols. Build-Ids: 446440d4a3a327c29f8f58f433b2f67038c93c81 Original-Maintainer: Debian Science Team Package: libgetfem++-dbg Source: getfem++ Version: 4.2.1~beta1~svn4635~dfsg-5ubuntu2 Architecture: amd64 Maintainer: Ubuntu Developers Installed-Size: 104896 Depends: libgetfem4++v5 (= 4.2.1~beta1~svn4635~dfsg-5ubuntu2) Filename: ./amd64/libgetfem++-dbg_4.2.1~beta1~svn4635~dfsg-5ubuntu2_amd64.deb Size: 102476980 MD5sum: 81d29017d2aba5a49e9441a7cf849ae1 SHA1: fe06a771b30d8aabb5b0e8de6ac92885461a1bbb SHA256: b5373e596e847d7d5360254cdaff635701dd1713eb49e9c364cc7d60fb0244c7 Section: debug Priority: extra Homepage: http://home.gna.org/getfem/ Description: Debugging symbols for the GETFEM++ generic finite element library GETFEM++ is a library allowing the computation of any elementary matrix (even for mixed finite element methods) on the largest class of methods and elements, and for arbitrary dimension. . This package contains debugging files used to investigate problems with binaries included in the GETFEM++ packages. Build-Ids: f5f75e8f5505a4038f4e6de6490ac79b3114fbe1 Original-Maintainer: Debian Science Team Package: libgetfem++-dev Source: getfem++ Version: 4.2.1~beta1~svn4635~dfsg-5ubuntu2 Architecture: amd64 Maintainer: Ubuntu Developers Installed-Size: 23276 Depends: libboost-dev, libgetfem4++v5 (= 4.2.1~beta1~svn4635~dfsg-5ubuntu2), libgmm++-dev, libmuparser-dev, libsuperlu-dev Filename: ./amd64/libgetfem++-dev_4.2.1~beta1~svn4635~dfsg-5ubuntu2_amd64.deb Size: 3012638 MD5sum: c60d2dc5968f096c44c2f67af60b65cd SHA1: 2e6937d79ac79b89a1ec2582b4bb84e8c3c55358 SHA256: 02a3d56e1e2156da1e12cbde42f42abccdcb24bf46bbdc0c4681b6b22cece7f7 Section: libdevel Priority: extra Homepage: http://home.gna.org/getfem/ Description: Development files for the GETFEM++ generic finite element library GETFEM++ is a library allowing the computation of any elementary matrix (even for mixed finite element methods) on the largest class of methods and elements, and for arbitrary dimension. . This package contains development files for building software that uses the GETFEM++ library. Original-Maintainer: Debian Science Team Package: libgetfem4++v5 Source: getfem++ Version: 4.2.1~beta1~svn4635~dfsg-5ubuntu2 Architecture: amd64 Maintainer: Ubuntu Developers Installed-Size: 6577 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:4.0), libmumps-seq-4.10.0, libmuparser2v5 (>= 2.2.3), libqhull7, libstdc++6 (>= 5.2), libsuperlu5 Breaks: libgetfem4++ Replaces: libgetfem4++ Filename: ./amd64/libgetfem4++v5_4.2.1~beta1~svn4635~dfsg-5ubuntu2_amd64.deb Size: 2041450 MD5sum: 7cf95a8110dd425d0cc84e1fbaa9d065 SHA1: b8819da0b8c8d846164723cd4e6bee3183f7efe4 SHA256: 40275f0d68a709c009b1c812745f02d94cf3d877584ef411624d672886c0b7dc Section: libs Priority: extra Multi-Arch: same Homepage: http://home.gna.org/getfem/ Description: GETFEM++ generic finite element library GETFEM++ is a library allowing the computation of any elementary matrix (even for mixed finite element methods) on the largest class of methods and elements, and for arbitrary dimension. Original-Maintainer: Debian Science Team Package: libgmm++-dev Source: getfem++ Version: 4.2.1~beta1~svn4635~dfsg-5ubuntu2 Architecture: all Maintainer: Ubuntu Developers Installed-Size: 937 Depends: libmumps-dev Filename: ./all/libgmm++-dev_4.2.1~beta1~svn4635~dfsg-5ubuntu2_all.deb Size: 120448 MD5sum: 560b27754ee0e10d0ea0edb85fa31b10 SHA1: 2d56795be23cf220f2d1d186d106cff7406d07e0 SHA256: 4fb0cb3de63ec254a8723d92b1bf5c1703679164e1cb9077f11d08b9475bdb7b Section: libdevel Priority: extra Homepage: http://home.gna.org/getfem/ Description: Generic C++ template library for sparse, dense and skyline matrices GMM++ is a framework of pre-defined methods for matrix computation. It is built as a set of generic algorithms for any interfaced vector type or matrix type. . It can be viewed as a glue library allowing cooperation between several vector and matrix types. However, basic sparse, dense and skyline matrix/vector types are built-in, hence it can be used as a standalone linear algebra library. Original-Maintainer: Debian Science Team Package: libgts-snapshot Source: gts-snapshot Version: 0.7.6-121130 Architecture: amd64 Maintainer: Stephane Popinet Installed-Size: 597 Depends: libc6 (>= 2.14), libglib2.0-0 (>= 2.16.0), libnetpbm10 Conflicts: libgts-0.7-1, libgts-0.7-5, libgts-bin Filename: ./amd64/libgts-snapshot_0.7.6-121130_amd64.deb Size: 192046 MD5sum: a5dcdcea09061c71c7f8b72dbdf27be4 SHA1: 25db0a8e19046797eeb0888e48e428752f686911 SHA256: 995e07c4f6195f9fef7bc16b8aaccc0df785b672d91f3a1a140b844b58c173fb Section: libs Priority: optional Homepage: http://gts.sourceforge.net/ Description: GTS Library (development snapshot) -- runtime environment GTS includes a number of useful functions to deal with triangulated surfaces. Refer to the libgts-dev package description for more details. . This package provides runtime support for GTS Package: libgts-snapshot-dev Source: gts-snapshot Version: 0.7.6-121130 Architecture: amd64 Maintainer: Stephane Popinet Installed-Size: 823 Depends: libglib2.0-dev, libgts-snapshot (= 0.7.6-121130) Suggests: libgts-snapshot-doc Conflicts: libgts-bin, libgts-dev Filename: ./amd64/libgts-snapshot-dev_0.7.6-121130_amd64.deb Size: 180762 MD5sum: 19f74ab9a91e0204d8b2c8e94fad51c8 SHA1: 9737ac5fc07600d41c2e5b43781c7a63df21b778 SHA256: 9e3560ddb9fe5452be8b48b8a5cb2bfa28fc0daf84d08cf04696548c890567be Section: libdevel Priority: optional Homepage: http://gts.sourceforge.net/ Description: GTS Library (development snapshot) GTS includes a number of useful functions to deal with triangulated surfaces including, but not limited to, multi-resolution models, Delaunay and Constrained Delaunay triangulations, set operations on surfaces (intersection, union etc ...), bounding-boxes trees for efficient collision and intersection detection, triangle strips and binary heaps. Package: libgts-snapshot-doc Source: gts-snapshot Version: 0.7.6-121130 Architecture: all Maintainer: Stephane Popinet Installed-Size: 24 Conflicts: libgts-doc Filename: ./all/libgts-snapshot-doc_0.7.6-121130_all.deb Size: 12708 MD5sum: eac3700676dd45e116a184125dce6eec SHA1: df43bc819fa70e912af171a3854f1d35255c41e5 SHA256: 2a8ba6b0ebbeec7196cca5f11513c171fd4f97d4b3c595f3ad8eb4361eab4fb9 Section: doc Priority: optional Homepage: http://gts.sourceforge.net/ Description: GTS Library documentation (development snapshot) GTS includes a number of useful functions to deal with triangulated surfaces. Refer to the libgts-dev package description for more details. . This package contains the GTS Reference, in HTML format. Package: libmshr-dev Source: mshr Version: 2017.1.0-1~ppa2~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 253 Depends: libmshr2017.1 (= 2017.1.0-1~ppa2~xenial1), libdolfin-dev (>= 2017.1.0), python-ffc (>= 2017.1.0), cmake (>= 2.8.0), libproj-dev, libboost-filesystem1.58.0, libboost-program-options1.58.0, libboost-system1.58.0, libc6 (>= 2.14), libdolfin2017.1, libgcc1 (>= 1:3.0), libstdc++6 (>= 5.2) Filename: ./amd64/libmshr-dev_2017.1.0-1~ppa2~xenial1_amd64.deb Size: 57990 MD5sum: 0ce6b5165ffd057c4206f7c35926348c SHA1: b33a902275a570160533c1fbe8eb7a2efbb95c58 SHA256: 9e2fac8e109fca74b07675af5ae86b5ecfadc26bc62b8b0be68ce57a44d5d6cb Section: libdevel Priority: optional Homepage: http://fenicsproject.org Description: Shared links and header files for mshr mshr generates simplicial DOLFIN meshes in 2D and 3D from geometries described by Constructive Solid Geometry (CSG) or from surface files, utilizing CGAL and Tetgen as mesh generation backends. . This package contains the development files. Original-Maintainer: Debian Science Team Package: libmshr2017.1 Source: mshr Version: 2017.1.0-1~ppa2~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 7067 Depends: libboost-filesystem1.58.0, libboost-system1.58.0, libc6 (>= 2.14), libdolfin2017.1, libgcc1 (>= 1:3.0), libgmp10, libmpfr4 (>= 3.1.3), libopenmpi1.10, libstdc++6 (>= 5.2), libvtk6.2 Filename: ./amd64/libmshr2017.1_2017.1.0-1~ppa2~xenial1_amd64.deb Size: 1649870 MD5sum: 29b7a1fc53907ab9033b052b3bb64a7a SHA1: 48b0ed5c82a4da1bb3b65deb7e0100b6ae671d74 SHA256: 4304896280d35ff05295a85936d819d69facb44fa3621b9461d9524bd1163358 Section: libs Priority: optional Homepage: http://fenicsproject.org Description: Shared libraries for mshr mshr generates simplicial DOLFIN meshes in 2D and 3D from geometries described by Constructive Solid Geometry (CSG) or from surface files, utilizing CGAL and Tetgen as mesh generation backends. . This package contains the shared libraries. Original-Maintainer: Debian Science Team Package: libp4est-1.1 Source: p4est Version: 1.1-4 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 621 Depends: libc6 (>= 2.14), libopenmpi1.10, zlib1g (>= 1:1.2.2) Filename: ./amd64/libp4est-1.1_1.1-4_amd64.deb Size: 236378 MD5sum: 1ea38891f5edf32d21e4e892498668cc SHA1: 56f2280b59177bf1b67910fc6baa83b23b59abfb SHA256: 8eda1a446115489ad4b2aad472791c98b2fd47c0f56a77a9b49184ba5b286d2c Section: libs Priority: optional Multi-Arch: same Homepage: http://www.p4est.org/ Description: Algorithms for Parallel Adaptive Mesh Refinement - shared library The p4est software library enables the dynamic management of a collection of adaptive octrees, conveniently called a forest of octrees. p4est is designed to work in parallel and scale to hundreds of thousands of processor cores. . This package contains the shared library. Package: libp4est-dev Source: p4est Version: 1.1-4 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 2053 Depends: libp4est-1.1 (= 1.1-4), libp4est-sc-1.1 (= 1.1-4) Filename: ./amd64/libp4est-dev_1.1-4_amd64.deb Size: 392504 MD5sum: f602c3bf0603d2cfa4e24beb31c3a80c SHA1: ac2dbceb0ef6b079be1f275fd06dc0928cb813e9 SHA256: c8bc6257b2f90da33dac1634cf392a7dd517dbaebce9707c291ffb45cdff3058 Section: libdevel Priority: optional Multi-Arch: same Homepage: http://www.p4est.org/ Description: Algorithms for Parallel Adaptive Mesh Refinement - development files The p4est software library enables the dynamic management of a collection of adaptive octrees, conveniently called a forest of octrees. p4est is designed to work in parallel and scale to hundreds of thousands of processor cores. . This package contains the development files. Package: libp4est-sc-1.1 Source: p4est Version: 1.1-4 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 161 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), liblapack3 | liblapack.so.3, libopenmpi1.10, zlib1g (>= 1:1.1.4) Filename: ./amd64/libp4est-sc-1.1_1.1-4_amd64.deb Size: 58712 MD5sum: 408b750c7e66d9127704e50dfa50ba3a SHA1: 24d8aef727dcafa512e0e51d3c4813987a0913eb SHA256: b406fbecbcc037f95e3e7bcd179d716204991869111d991abf8874d02720c267 Section: libs Priority: optional Multi-Arch: same Homepage: http://www.p4est.org/ Description: Algorithms for Parallel Adaptive Mesh Refinement - support library The p4est software library enables the dynamic management of a collection of adaptive octrees, conveniently called a forest of octrees. p4est is designed to work in parallel and scale to hundreds of thousands of processor cores. . This package contains the support library. Package: libpetsc-complex-3.7-dev Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 32 Depends: libpetsc-complex-3.7.3-dev Provides: petsc-complex-3.7-dev Filename: ./amd64/libpetsc-complex-3.7-dev_3.7.3-1+obsbuild_amd64.deb Size: 19950 MD5sum: 5f57d25578f3922a9629f7c21e5707a1 SHA1: d13ef1be92d3de1b4284fea465512f80cef2ad53 SHA256: f5dbf21b5180c4057da01f2a6ad2b6a2d3a461ddcee36d7e8e795c759e182b53 Section: libdevel Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Static libraries, shared links, header files for PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This is a dummy package which depends on the latest version of PETSc 3.7 to provide the development files needed for building applications with support for complex numbers. . The library soname is 3.7 (without specifying the patch version), so if you want to build against PETSc 3.7 with support for complex numbers then you probably want to use this package. Original-Maintainer: Debian Science Maintainers Package: libpetsc-complex-3.7.3 Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 13052 Depends: libamd2.4.1, libblas3 | libblas.so.3, libc6 (>= 2.14), libcholmod3.0.6, libfftw3-double3, libfftw3-mpi3, libgcc1 (>= 1:4.0), libgfortran3 (>= 4.3), libklu1.3.3, liblapack3 | liblapack.so.3, libmumps-4.10.0, libopenmpi1.10, libptscotch-5.1, libssl1.0.0 (>= 1.0.0), libsuperlu5, libumfpack5.7.1 Conflicts: libpetsc-complex-3.6 (<< 3.6.2.dfsg1-4) Replaces: libpetsc-complex-3.6 (<< 3.6.2.dfsg1-4) Filename: ./amd64/libpetsc-complex-3.7.3_3.7.3-1+obsbuild_amd64.deb Size: 3911512 MD5sum: 56fdcaafb56cd5fc55a1473825de83df SHA1: 88afbe576a271731f05e5d56870da594b7f3a086 SHA256: acb7839fcd9d27dd4a938ffa50a89d0f2870711a70ab35d68731b78571a5ad54 Section: libs Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Shared libraries for version 3.7 of PETSc with Complex Numbers PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This package contains version 3.7.3 of the PETSc 3.7 shared library, supporting complex numbers. . It provides soname libpetsc-complex3.7 Original-Maintainer: Debian Science Maintainers Package: libpetsc-complex-3.7.3-dbg Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 67613 Depends: libpetsc-complex-3.7.3-dev (= 3.7.3-1+obsbuild), libamd2.4.1, libblas3 | libblas.so.3, libc6 (>= 2.14), libcholmod3.0.6, libfftw3-double3, libfftw3-mpi3, libgcc1 (>= 1:4.0), libgfortran3 (>= 4.3), libklu1.3.3, liblapack3 | liblapack.so.3, libmumps-4.10.0, libopenmpi1.10, libptscotch-5.1, libssl1.0.0 (>= 1.0.0), libsuperlu5, libumfpack5.7.1, python:any (>= 2.7.5-5~) Recommends: tcsh | csh | c-shell, ksh | mksh | pdksh | zsh Provides: petsc-complex-3.7-dbg Filename: ./amd64/libpetsc-complex-3.7.3-dbg_3.7.3-1+obsbuild_amd64.deb Size: 16031070 MD5sum: 25a073a29eed6fb98e543821503a237a SHA1: c7772868bef690389d7b9675b534ad2ab0e2b6ea SHA256: cb6e132f19dc720aef30fb88654587275b16bb86bdf473720b38eebe0e3b0c45 Section: debug Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Debugging libraries for PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This package provides the development files and debugging libraries for debugging applications using PETSc 3.7.3 with complex number support. . Libraries include unstripped symbols, but this package is also built with internal PETSc debugging activated. Original-Maintainer: Debian Science Maintainers Package: libpetsc-complex-3.7.3-dev Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 8990 Depends: libpetsc-complex-3.7.3 (= 3.7.3-1+obsbuild), libopenmpi-dev (>= 1.10.2), libopenmpi-dev (<< 1.10.3), libsuitesparse-dev, libsuperlu-dev, libspooles-dev, libhypre-dev (>= 2.0.0.dfsg-7), libptscotch-dev, libblacs-mpi-dev, libscalapack-mpi-dev, libmumps-dev, libfftw3-dev, libfftw3-mpi-dev, libssl-dev, libgfortran-5-dev, python:any (>= 2.7.5-5~) Recommends: libhdf5-mpi-dev (>= 1.8.8), libsuperlu-dev (<< 5.2), tcsh | csh | c-shell, ksh | mksh | pdksh | zsh Suggests: petsc-dev (= 3.7.3-1+obsbuild), libpetsc-complex-3.7.3-dbg (= 3.7.3-1+obsbuild), petsc3.7.3-doc (= 3.7.3-1+obsbuild), libluminate-dev Conflicts: libpetsc-complex-3.6.2-dev (<= 3.6.2.dfsg1-3), libpetsc-complex-3.6.3-dev (<< 3.6.3.dfsg2-2), libpetsc3.6.2-dev (<= 3.6.2.dfsg1-3), libpetsc3.6.3-dev (<< 3.6.3.dfsg2-2) Filename: ./amd64/libpetsc-complex-3.7.3-dev_3.7.3-1+obsbuild_amd64.deb Size: 3221000 MD5sum: a6d7ae15cb8bdf4f6d85ffd16b0eaf51 SHA1: d209bc414d8ce344639674fdaebf9c5e442ddc68 SHA256: f2930dbec60ae90f35b236dec2723ee87784350c6aa260ae7f9d6b93f6c703ef Section: libdevel Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Static libraries, shared links, header files for PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This package provides the development files for building applications using PETSc 3.7.3 with support for complex numbers. . This deactivates support for HYPRE. Original-Maintainer: Debian Science Maintainers Package: libpetsc3.7-dev Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 36 Depends: libpetsc3.7.3-dev Provides: petsc3.7-dev Filename: ./amd64/libpetsc3.7-dev_3.7.3-1+obsbuild_amd64.deb Size: 23136 MD5sum: e8c217613a614efbc85f9aa8835b2e10 SHA1: 6d38207392ad10f34fa3d9ef556e41ffc96b7924 SHA256: 4a79d0d2be8096837c1a67a284c9bb1240870cbcea3af88522878ddd7eda60e7 Section: libdevel Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Static libraries, shared links, header files for PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This is a dummy package which depends on the latest version of PETSc 3.7 to provide the development files needed for building applications. . The library soname is 3.7 (without specifying the patch version), so if you want to build against PETSc 3.7 then you probably want to use this package. Original-Maintainer: Debian Science Maintainers Package: libpetsc3.7.3 Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 12566 Depends: libamd2.4.1, libblas3 | libblas.so.3, libc6 (>= 2.14), libcholmod3.0.6, libfftw3-double3, libfftw3-mpi3, libgcc1 (>= 1:4.0), libgfortran3 (>= 4.3), libhwloc5 (>= 1.11.2), libhypre-2.8.0b, libklu1.3.3, liblapack3 | liblapack.so.3, libmumps-4.10.0, libopenmpi1.10, libptscotch-5.1, libquadmath0 (>= 4.6), libscalapack-openmpi1 (>= 1.8.0), libssl1.0.0 (>= 1.0.0), libstdc++6 (>= 5.2), libsuperlu5, libumfpack5.7.1 Conflicts: libpetsc3.6 (<< 3.6.2.dfsg1-4) Replaces: libpetsc3.6 (<< 3.6.2.dfsg1-4) Filename: ./amd64/libpetsc3.7.3_3.7.3-1+obsbuild_amd64.deb Size: 3947682 MD5sum: ce6e962e5188c715b72f051d7b3e974b SHA1: 4b502a69b92bd669560da4f91f7766bf60b28a10 SHA256: 8bc736c4b9fb1083d3392e1533fe4259a63a9abaaeef9af3c56f83ee15f65b9c Section: libs Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Shared libraries for version 3.7 of PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This package contains version 3.7.3 of the PETSc 3.7 shared library. . It provides soname libpetsc-real3.7 Original-Maintainer: Debian Science Maintainers Package: libpetsc3.7.3-dbg Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 98574 Depends: libpetsc3.7.3-dev (= 3.7.3-1+obsbuild), libamd2.4.1, libblas3 | libblas.so.3, libc6 (>= 2.14), libcholmod3.0.6, libfftw3-double3, libfftw3-mpi3, libgcc1 (>= 1:4.0), libgfortran3 (>= 4.3), libhwloc5 (>= 1.11.2), libhypre-2.8.0b, libklu1.3.3, liblapack3 | liblapack.so.3, libmumps-4.10.0, libopenmpi1.10, libptscotch-5.1, libquadmath0 (>= 4.6), libscalapack-openmpi1 (>= 1.8.0), libssl1.0.0 (>= 1.0.0), libstdc++6 (>= 5.2), libsuperlu5, libumfpack5.7.1, python:any (>= 2.7.5-5~) Recommends: tcsh | csh | c-shell, ksh | mksh | pdksh | zsh Provides: petsc3.7-dbg Filename: ./amd64/libpetsc3.7.3-dbg_3.7.3-1+obsbuild_amd64.deb Size: 37760636 MD5sum: 23edb4ec213cd4a027c934475968817e SHA1: 91f0cdad14cea823149dfbb6ef914fbdc7e2cb90 SHA256: 7fabdddc3eefed50dbe43971e686ca63ff0b51289c2b97dac5c0566d6817fdca Section: debug Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Debugging libraries for PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This package provides the development files and debugging libraries for debugging applications using PETSc 3.7.3. . Libraries include unstripped symbols, but this package is also built with internal PETSc debugging activated. Build-Ids: dff71da9bd3c7347e2d8e2cc1097f49f396fa68e Original-Maintainer: Debian Science Maintainers Package: libpetsc3.7.3-dev Source: petsc Version: 3.7.3-1+obsbuild Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 10248 Depends: libpetsc3.7.3 (= 3.7.3-1+obsbuild), libopenmpi-dev (>= 1.10.2), libopenmpi-dev (<< 1.10.3), libsuitesparse-dev, libsuperlu-dev, libspooles-dev, libhypre-dev (>= 2.0.0.dfsg-7), libptscotch-dev, libblacs-mpi-dev, libscalapack-mpi-dev, libmumps-dev, libfftw3-dev, libfftw3-mpi-dev, libssl-dev, libgfortran-5-dev, python:any (>= 2.7.5-5~) Recommends: libhdf5-mpi-dev (>= 1.8.8), libsuperlu-dev (<< 5.2), tcsh | csh | c-shell, ksh | mksh | pdksh | zsh Suggests: petsc-dev (= 3.7.3-1+obsbuild), libpetsc3.7.3-dbg (= 3.7.3-1+obsbuild), petsc3.7.3-doc (= 3.7.3-1+obsbuild), libluminate-dev Conflicts: libpetsc-complex-3.6.2-dev (<= 3.6.2.dfsg1-3), libpetsc-complex-3.6.3-dev (<< 3.6.3.dfsg2-2), libpetsc3.6.2-dev (<= 3.6.2.dfsg1-3), libpetsc3.6.3-dev (<< 3.6.3.dfsg2-2) Filename: ./amd64/libpetsc3.7.3-dev_3.7.3-1+obsbuild_amd64.deb Size: 3291662 MD5sum: 06c5d2fe4ac159785603db291a6543ac SHA1: a6595d835867e9996e702b8aa31c6eba4f45c37b SHA256: 940905de128717863ce5aadcf7053e7b42e0c8e842c47f8a10116a0a45ba36e1 Section: libdevel Priority: extra Multi-Arch: same Homepage: http://www.mcs.anl.gov/petsc Description: Static libraries, shared links, header files for PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This package provides the development files for building applications using PETSc 3.7.3. Original-Maintainer: Debian Science Maintainers Package: libslepc-complex-3.7-dev Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 15 Depends: libslepc-complex-3.7.2-dev Filename: ./amd64/libslepc-complex-3.7-dev_3.7.2+dfsg1-2~ppa1~xenial1_amd64.deb Size: 6650 MD5sum: 09a0ffe51f73300d9502026d113a1851 SHA1: c820a16db66dd923e7c21f8f051791fef2eade56 SHA256: 1938c791edc6114560188dfe1462d3ed12c763553bbadd15f62762c2c9f66458 Section: libdevel Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This is a dummy package that depends on the latest version of SLEPc 3.7 which provides the static libraries, shared links, and header files for SLEPC with complex numbers. Original-Maintainer: Debian Science Maintainers Package: libslepc-complex-3.7.2 Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 2374 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:4.0), liblapack3 | liblapack.so.3, libopenmpi1.10, libparpack2 (>= 2.1), libpetsc-complex-3.7.3 Conflicts: libslepc-complex-3.6 (<= 3.6.1.dfsg1-2), libslepc2.3.2 Filename: ./amd64/libslepc-complex-3.7.2_3.7.2+dfsg1-2~ppa1~xenial1_amd64.deb Size: 765446 MD5sum: c86571db1e6b66b3eca5061e33881843 SHA1: 6ff242515f0d77253f546a698813b1fb22c2cdf0 SHA256: 042787f81ec20bd841cbaf89495e720c31dd871366b94958a3b28c3c78b0381e Section: libs Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This package contains the shared libraries for SLEPc with complex numbers. Original-Maintainer: Debian Science Maintainers Package: libslepc-complex-3.7.2-dev Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 2429 Depends: libslepc-complex-3.7.2 (= 3.7.2+dfsg1-2~ppa1~xenial1), libpetsc-complex-3.7-dev, libarpack2-dev, libparpack2-dev, libhdf5-mpi-dev Suggests: slepc3.7.2-doc (= 3.7.2+dfsg1-2~ppa1~xenial1) Conflicts: libslepc2.3.2-dev Filename: ./amd64/libslepc-complex-3.7.2-dev_3.7.2+dfsg1-2~ppa1~xenial1_amd64.deb Size: 1489732 MD5sum: 004717c4bb2b0b5550fb9e239e4893e8 SHA1: 0b45bb694cea94b94cf1ea65ae538ff74096dd73 SHA256: 710719124805af8ca35fe09154d32d36c56a49c14a12df5e4d05dc0ce9989efa Section: libdevel Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This package contains the static libraries, shared links, and header files for SLEPC with complex numbers. Original-Maintainer: Debian Science Maintainers Package: libslepc3.7-dev Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 15 Depends: libslepc3.7.2-dev Filename: ./amd64/libslepc3.7-dev_3.7.2+dfsg1-2~ppa1~xenial1_amd64.deb Size: 6638 MD5sum: 01c741517aff163e349302955c110d6f SHA1: b2b78d9a55bc690559f3ae596800fb48cd89f1cb SHA256: d5b01e475e4c857f686bb214899d17aa7b3186cd05ed4a7f58fc87f6a678531d Section: libdevel Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This is a dummy package that depends on the latest version of SLEPc 3.7 which provides the static libraries, shared links, and header files for SLEPC with real numbers. Original-Maintainer: Debian Science Maintainers Package: libslepc3.7.2 Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 2366 Depends: libamd2.4.1, libarpack2 (>= 2.1), libblas3 | libblas.so.3, libc6 (>= 2.14), libcholmod3.0.6, libfftw3-double3, libfftw3-mpi3, libgcc1 (>= 1:3.0), libgfortran3 (>= 4.3), libhwloc5 (>= 1.11.2), libhypre-2.8.0b, libklu1.3.3, liblapack3 | liblapack.so.3, libmumps-4.10.0, libopenmpi1.10, libparpack2 (>= 2.1), libpetsc3.7.3, libptscotch-5.1, libquadmath0 (>= 4.6), libscalapack-openmpi1 (>= 1.8.0), libssl1.0.0 (>= 1.0.0), libstdc++6 (>= 4.1.1), libsuperlu5, libumfpack5.7.1 Conflicts: libslepc2.3.2, libslepc3.6 (<= 3.6.1.dfsg1-2) Filename: ./amd64/libslepc3.7.2_3.7.2+dfsg1-2~ppa1~xenial1_amd64.deb Size: 763268 MD5sum: ae0e78f3e5c2c1652842da847be850a9 SHA1: 3071f9a79797640d96127ce78a1d6f34efb29dbe SHA256: 9299516d4dd41cc0c2b31b67072c8e4c53f3fd642c0970412a125e6d0a1d9243 Section: libs Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This package contains the shared libraries for SLEPc with real numbers. Original-Maintainer: Debian Science Maintainers Package: libslepc3.7.2-dev Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 2428 Depends: libslepc3.7.2 (= 3.7.2+dfsg1-2~ppa1~xenial1), libpetsc3.7-dev, libarpack2-dev, libparpack2-dev, libhdf5-mpi-dev Suggests: slepc3.7.2-doc (= 3.7.2+dfsg1-2~ppa1~xenial1) Conflicts: libslepc2.3.2-dev Filename: ./amd64/libslepc3.7.2-dev_3.7.2+dfsg1-2~ppa1~xenial1_amd64.deb Size: 1515924 MD5sum: 4cb45d8cc484c3d173df43698274a9cc SHA1: 2322ab3c702b25d6c523aadd0c3a29194faac1cb SHA256: 41642f50ca9bf57cea7b3b1ae8c34dacd06bad06cdf4bf76ba21ec10cf58d53c Section: libdevel Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This package contains the static libraries, shared links, and header files for SLEPC with real numbers. Original-Maintainer: Debian Science Maintainers Package: libsuperlu-dev Source: superlu Version: 5.2.1+dfsg1-2 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 113 Depends: libsuperlu5 (= 5.2.1+dfsg1-2), libblas-dev Suggests: libsuperlu-doc Conflicts: libsuperlu3-dev, libsuperlu4-dev Filename: ./amd64/libsuperlu-dev_5.2.1+dfsg1-2_amd64.deb Size: 17942 MD5sum: d51e21940fc62651fd9564273c525f80 SHA1: 59bf78f71437cff2698d875bbec19c85d14d063d SHA256: 09d0858c616d33c8f1b76989cc618f4c7632c63159e5a948cc60bdab7c860097 Section: libdevel Priority: optional Multi-Arch: same Homepage: http://crd-legacy.lbl.gov/~xiaoye/SuperLU/ Description: Direct solution of large, sparse systems of linear equations Development files for SuperLU. . SuperLU is a general purpose library for the direct solution of large, sparse, nonsymmetric systems of linear equations on high performance machines. The library is written in C and is callable from either C or Fortran. The library routines will perform an LU decomposition with partial pivoting and triangular system solves through forward and back substitution. The LU factorization routines can handle non-square matrices but the triangular solves are performed only for square matrices. The matrix columns may be preordered (before factorization) either through library or user supplied routines. This preordering for sparsity is completely separate from the factorization. Working precision iterative refinement subroutines are provided for improved backward stability. Routines are also provided to equilibrate the system, estimate the condition number, calculate the relative backward error, and estimate error bounds for the refined solutions. Package: libsuperlu-doc Source: superlu Version: 5.2.1+dfsg1-2 Architecture: all Maintainer: Debian Science Maintainers Installed-Size: 5924 Filename: ./all/libsuperlu-doc_5.2.1+dfsg1-2_all.deb Size: 308672 MD5sum: d51ac434fba98d50397d7385b8885791 SHA1: 73d06f5215326959e8c6c5ff2f97b65f63c00ab0 SHA256: 792427e2d4721b7c3a87563b9a82de250e201c2a456be3cbb1661c94aa1804bf Section: doc Priority: optional Homepage: http://crd-legacy.lbl.gov/~xiaoye/SuperLU/ Description: Documentation for SuperLU This package contains the user guide and the reference manual of SuperLU. It also includes some example programs. Package: libsuperlu5 Source: superlu Version: 5.2.1+dfsg1-2 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 466 Depends: libblas3 | libblas.so.3, libc6 (>= 2.7) Filename: ./amd64/libsuperlu5_5.2.1+dfsg1-2_amd64.deb Size: 157048 MD5sum: e541587ab97ddd74c4835abe4cee6919 SHA1: 4a3f0b7045c758d215f9049ad2b6f84ade5e5879 SHA256: 0e0080525bb75530a4a61122d2733f57f2092d274c65ad01ce341fa2ac9bb14d Section: libs Priority: optional Multi-Arch: same Homepage: http://crd-legacy.lbl.gov/~xiaoye/SuperLU/ Description: Direct solution of large, sparse systems of linear equations SuperLU is a general purpose library for the direct solution of large, sparse, nonsymmetric systems of linear equations on high performance machines. The library is written in C and is callable from either C or Fortran. The library routines will perform an LU decomposition with partial pivoting and triangular system solves through forward and back substitution. The LU factorization routines can handle non-square matrices but the triangular solves are performed only for square matrices. The matrix columns may be preordered (before factorization) either through library or user supplied routines. This preordering for sparsity is completely separate from the factorization. Working precision iterative refinement subroutines are provided for improved backward stability. Routines are also provided to equilibrate the system, estimate the condition number, calculate the relative backward error, and estimate error bounds for the refined solutions. Package: libtrilinos-amesos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 433 Depends: libmumps-dev, libtrilinos-amesos12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-amesos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 76994 MD5sum: a85853197ecdcccffe95ae50b6d11544 SHA1: 2c4186627cf1350e558a7615b6b5f923db50e86b SHA256: 6283e7f46416c2ffdcd2a12e4d8043f72f2129764d74a20ddc3dbc487b57d43b Section: libdevel Priority: extra Homepage: http://trilinos.org Description: direct sparse solver package - development files Amesos is the Direct Sparse Solver Package in Trilinos. The goal of Amesos is to make AX=B as easy as it sounds, at least for direct methods. Amesos provides clean and consistent interfaces to a number of third-party libraries. . This package provides headers. Package: libtrilinos-amesos12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 599 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libmumps-4.10.0, libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-amesos12_12.10.1-4+obsbuild1_amd64.deb Size: 190262 MD5sum: 8ef9a6c2b07bb291a612c03592baa1c2 SHA1: e0d2a04a654862011ee84168e9829fc4ce06be00 SHA256: 68a49f165ea34c8d157ae06788e6d20ccf795733aa4cd3a02c25a5724fd367b0 Section: libs Priority: extra Homepage: http://trilinos.org Description: direct sparse solver package - runtime files Amesos is the Direct Sparse Solver Package in Trilinos. The goal of Amesos is to make AX=B as easy as it sounds, at least for direct methods. Amesos provides clean and consistent interfaces to a number of third-party libraries. . This package contains the dynamic libraries. Package: libtrilinos-amesos2-12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 935 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-epetra12, libtrilinos-kokkos12, libtrilinos-teuchos12, libtrilinos-tpetra12 Filename: ./amd64/libtrilinos-amesos2-12_12.10.1-4+obsbuild1_amd64.deb Size: 194038 MD5sum: dfcde6a374062448d5b2f504566090a5 SHA1: 85317bfe4b65268392e647632e28b0276fa93cc5 SHA256: 1d93e60eeefd70b1acd4624aedd044f5116f8bcc40d8b3646ca940a2f50323e4 Section: libs Priority: extra Homepage: http://trilinos.org Description: next generation direct sparse solver package - runtime files Amesos2 is a package for solving sparse linear systems using direct solvers. It differs from Amesos in that it is templated on the scalar and index types. KLU2 is the only native solver. . This package contains the dynamic libraries. Package: libtrilinos-amesos2-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 805 Depends: libmumps-dev, libtrilinos-amesos2-12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-amesos2-dev_12.10.1-4+obsbuild1_amd64.deb Size: 99122 MD5sum: d636f022d99980fa2739635a44f67f04 SHA1: 27f05eff273cfd564c488ebfafe11bcee5674ea6 SHA256: deb7b0fd3f71d688c63f094627e335ba9bb9f32b475967d159cbe6bfedda0307 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: next generation direct sparse solver package - development files Amesos2 is a package for solving sparse linear systems using direct solvers. It differs from Amesos in that it is templated on the scalar and index types. KLU2 is the only native solver. . This package provides headers. Package: libtrilinos-anasazi-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1688 Depends: libtrilinos-anasazi12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-anasazi-dev_12.10.1-4+obsbuild1_amd64.deb Size: 203012 MD5sum: bcb6e2e9a85b70a8b72000ffbecb54f2 SHA1: b43cf42762bb03dbb6b018c785fcdcb4e0ff385d SHA256: d956a8876bb267a8e75d2eba5182794689c42bc5a427f1ee3f804cfa97c4a26d Section: libdevel Priority: extra Homepage: http://trilinos.org Description: large-scale eigenvalue algorithms - development files Anasazi is an extensible and interoperable framework for large-scale eigenvalue algorithms. The motivation for this framework is to provide a generic interface to a collection of algorithms for solving large-scale eigenvalue problems. Anasazi is interoperable because both the matrix and vectors (defining the eigenspace) are considered to be opaque objects -- only knowledge of the matrix and vectors via elementary operations is necessary. . This package provides headers. Package: libtrilinos-anasazi12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 469 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-anasazi12_12.10.1-4+obsbuild1_amd64.deb Size: 120758 MD5sum: e7f9cff78fcca395eaa63eb6ba3358cf SHA1: 03a55d8fc304b284236600d17982e491851cdedd SHA256: ab4edefbd35d5e5b926f2447a0779faa37f922df07908cbf2db16992706bd247 Section: libs Priority: extra Homepage: http://trilinos.org Description: large-scale eigenvalue algorithms - runtime files Anasazi is an extensible and interoperable framework for large-scale eigenvalue algorithms. The motivation for this framework is to provide a generic interface to a collection of algorithms for solving large-scale eigenvalue problems. Anasazi is interoperable because both the matrix and vectors (defining the eigenspace) are considered to be opaque objects -- only knowledge of the matrix and vectors via elementary operations is necessary. . This package contains the dynamic libraries. Package: libtrilinos-aztecoo-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 308 Depends: liblapack-dev, libtrilinos-aztecoo12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-aztecoo-dev_12.10.1-4+obsbuild1_amd64.deb Size: 52746 MD5sum: 5df7a44e836ecdebf3692dc41a513617 SHA1: 600a9dd5cffc526fd8b027c0663ed9a5aa9a9751 SHA256: 28f8ca113e3876ed02d87c591edc149e28b14e58192cca138c68061051fd578c Section: libdevel Priority: extra Homepage: http://trilinos.org Description: object-oriented interface to the Aztec solver - development files AztecOO provides an object-oriented interface to the well-known Aztec solver library. Furthermore, it allows flexible construction of matrix and vector arguments via Epetra matrix and vector classes. Finally, AztecOO provide additional functionality not found in Aztec and any future enhancements to the Aztec package will be available only through the AztecOO interfaces. . This package provides headers. Package: libtrilinos-aztecoo12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 575 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:3.0), liblapack3 | liblapack.so.3, libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-aztecoo12_12.10.1-4+obsbuild1_amd64.deb Size: 208068 MD5sum: 24b2a596e5e3d5c92bc75f991eca517b SHA1: 61d1b066db3efd02b2c04d7c5fa11f19931b9924 SHA256: 16c41e7bf3366cb88a7e45c03cff74ff4d823a006b5391a1930eb45e621aac35 Section: libs Priority: extra Homepage: http://trilinos.org Description: object-oriented interface to the Aztec solver - runtime files AztecOO provides an object-oriented interface to the well-known Aztec solver library. Furthermore, it allows flexible construction of matrix and vector arguments via Epetra matrix and vector classes. Finally, AztecOO provide additional functionality not found in Aztec and any future enhancements to the Aztec package will be available only through the AztecOO interfaces. . This package contains the dynamic libraries. Package: libtrilinos-belos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 2146 Depends: libtrilinos-belos12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-belos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 227702 MD5sum: 95a0c862a59818023497b117662bc487 SHA1: 1e17ae4cb77adb72728d4333c640b07415f59eb3 SHA256: 0a183bc72ba3f55b76ec86dad7adaf6d2e23c0df7e2f2271ef84053fe1a4e4ba Section: libdevel Priority: extra Homepage: http://trilinos.org Description: iterative linear solvers - development files Belos provides next-generation iterative linear solvers and a powerful linear solver developer framework. This framework includes abstract interfaces to linear algebra using traits mechanisms, abstract interfaces to orthogonalization, abstract interfaces to iteration kernels, powerful solver managers, and a basic linear problem class. . This package provides headers. Package: libtrilinos-belos12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 6222 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-teuchos12, libtrilinos-tpetra12 Filename: ./amd64/libtrilinos-belos12_12.10.1-4+obsbuild1_amd64.deb Size: 1109220 MD5sum: d359c61b6f956a963bdd7d3b6befdd48 SHA1: 63754e2c146f87e5bbc59054e878aef47ab0cd49 SHA256: d744cadf12f436ba27bc78b0e8e22ef36cc3cf488febe639a2bf82076984735c Section: libs Priority: extra Homepage: http://trilinos.org Description: iterative linear solvers - runtime files Belos provides next-generation iterative linear solvers and a powerful linear solver developer framework. This framework includes abstract interfaces to linear algebra using traits mechanisms, abstract interfaces to orthogonalization, abstract interfaces to iteration kernels, powerful solver managers, and a basic linear problem class. . This package contains the dynamic libraries. Package: libtrilinos-epetra-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1107 Depends: libtrilinos-epetra12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-epetra-dev_12.10.1-4+obsbuild1_amd64.deb Size: 118770 MD5sum: 5b135d5fb71ad12c1100e438bc23f190 SHA1: 98e9205b585519f73b4402f199631624610d129f SHA256: 1d754699f4fffcf3e8835fbde162af763da92ac5b52420ae3d40f7634d140c35 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: basis package for linear algebra - development files Epetra provides the fundamental construction routines and services function that are required for serial and parallel linear algebra libraries. Epetra provides the underlying foundation for all Trilinos solvers. . This package provides headers. Package: libtrilinos-epetra12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1419 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:3.0), liblapack3 | liblapack.so.3, libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-epetra12_12.10.1-4+obsbuild1_amd64.deb Size: 405506 MD5sum: b723b022a9fe97f403c8023770f2757e SHA1: 768d6d1ac535c132739dc5fe6dd77722653628dc SHA256: dd3f60871251a5d4a9ff048037d9370dbc88d1813853925e04cd4be5f399b028 Section: libs Priority: extra Homepage: http://trilinos.org Description: basis package for linear algebra - runtime files Epetra provides the fundamental construction routines and services function that are required for serial and parallel linear algebra libraries. Epetra provides the underlying foundation for all Trilinos solvers. . This package contains the dynamic libraries. Package: libtrilinos-epetraext-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 582 Depends: libhdf5-openmpi-dev, libtrilinos-epetraext12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-epetraext-dev_12.10.1-4+obsbuild1_amd64.deb Size: 73438 MD5sum: e24f7b37a923673c641e4b82597fd3eb SHA1: 57db96165b792d1ed23b0dd83011159bec53d018 SHA256: db940f01e0db79a8b1d76cebc0b8e176108571f85fabb3c2b444e42d53c3b4c3 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: extensions to the Epetra toolkit - development files EpetraExt provides tools and functions that make it easier to work with Epetra. . This package provides headers. Package: libtrilinos-epetraext12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1581 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libhdf5-openmpi-10 (>= 1.8.14), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-teuchos12, libtrilinos-triutils12 Filename: ./amd64/libtrilinos-epetraext12_12.10.1-4+obsbuild1_amd64.deb Size: 411666 MD5sum: cfbd2623dab32698da515a45cc96a52c SHA1: c43be1e193cf725b6ba05da5c735d8fb22ccb34c SHA256: 22e2221422ae7a2031fd091d6808305c446dd71ce9fb0de066cd8acbd0933768 Section: libs Priority: extra Homepage: http://trilinos.org Description: extensions to the Epetra toolkit - runtime files EpetraExt provides tools and functions that make it easier to work with Epetra. . This package contains the dynamic libraries. Package: libtrilinos-galeri-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 682 Depends: libtrilinos-galeri12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-galeri-dev_12.10.1-4+obsbuild1_amd64.deb Size: 64086 MD5sum: f4eb2346a2dc0308876ce75cad9f58ea SHA1: 9a5e992ff424908a273c86b68c78365678518f74 SHA256: 55c248d336a7325adbeeece2087eeab26c5c6ab426d9f84933687a5ba8af4ccf Section: libdevel Priority: extra Homepage: http://trilinos.org Description: generation of distributed linear systems - development files The Trilinos package Galeri contains a suite of utilities and classes to generate a variety of (distributed) linear systems. Galeri's functionalities are very close to that of the MATLAB's gallery() function. Several well-known finite element and finite difference matrices can be generated using only a few simple code lines. . This package provides headers. Package: libtrilinos-galeri12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 353 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-galeri12_12.10.1-4+obsbuild1_amd64.deb Size: 99372 MD5sum: 8578c5ecf258b28f2b14355d695a265b SHA1: c9d4f1b7e72038d39748dfb2d835bdc7c4f38d96 SHA256: 20e72af7db5e6c90c1e6422f722d39327dfce5b6d3b23f4d9f3b28dd3358d7f3 Section: libs Priority: extra Homepage: http://trilinos.org Description: generation of distributed linear systems - runtime files The Trilinos package Galeri contains a suite of utilities and classes to generate a variety of (distributed) linear systems. Galeri's functionalities are very close to that of the MATLAB's gallery() function. Several well-known finite element and finite difference matrices can be generated using only a few simple code lines. . This package contains the dynamic libraries. Package: libtrilinos-globipack-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 132 Depends: libtrilinos-globipack12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-globipack-dev_12.10.1-4+obsbuild1_amd64.deb Size: 22648 MD5sum: 4f8d86eee50e778e20cf44f2d21d9acb SHA1: c158b2549e0cf8722e62af656ee195d9c4e79fdc SHA256: 01b54e865b29e5a713a6ad1e9bc8ced9d76f57764d6c058dcad784e4565a738f Section: libdevel Priority: extra Homepage: http://trilinos.org Description: 1D globalization capabilities - development files The GlobiPack package contains a set of interfaces and implementations for 1D globalization capabilities to be used in nonlinear solvers, optimization solvers, and similar algorithms that require globalization methods (e.g. line search and trust region methods). Basic interfaces and a few implementations are present for 1D line search methods appropritate for Newton, quasi-Newton, and nonlinear CG algorithms. . This package provides headers. Package: libtrilinos-globipack12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 318 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-globipack12_12.10.1-4+obsbuild1_amd64.deb Size: 73956 MD5sum: 58d25224112d2f4e6b5333fa60cbb0cb SHA1: c395014f7d29192f890e8ac8df0ad2531e80e880 SHA256: d2481bd83be57ddf7b2f50f998cb8d23f00d015432535f20fdb16e0723fec635 Section: libs Priority: extra Homepage: http://trilinos.org Description: 1D globalization capabilities - runtime files The GlobiPack package contains a set of interfaces and implementations for 1D globalization capabilities to be used in nonlinear solvers, optimization solvers, and similar algorithms that require globalization methods (e.g. line search and trust region methods). Basic interfaces and a few implementations are present for 1D line search methods appropritate for Newton, quasi-Newton, and nonlinear CG algorithms. . This package contains the dynamic libraries. Package: libtrilinos-ifpack-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 731 Depends: libtrilinos-ifpack12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-ifpack-dev_12.10.1-4+obsbuild1_amd64.deb Size: 80526 MD5sum: 48ef5201201f38dbbd61c2ee8e620e88 SHA1: c5c66a1ef0328d4209e9e1d206af1f6117fe49be SHA256: e95c243b8ab686c15a7930407c5db425df0aa86e8c2ff94ccf9112f230b3470d Section: libdevel Priority: extra Homepage: http://trilinos.org Description: algebraic preconditioners - development files IFPACK provides a suite of object-oriented algebraic preconditioners for the solution of preconditioned iterative solvers. IFPACK constructors expect an Epetra_RowMatrix object for construction. IFPACK is part of the Trilinos Solver Project and IFPACK object interact well with other Trilinos classes. In particular, IFPACK can be used as a preconditioner for AztecOO. . This package provides headers. Package: libtrilinos-ifpack12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 2116 Depends: libc6 (>= 2.14), libgcc1 (>= 1:4.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-aztecoo12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-ifpack12_12.10.1-4+obsbuild1_amd64.deb Size: 462578 MD5sum: b7bc6824a1368ba382d68bad27f65f74 SHA1: 1f117530c225d463503d1b13f4d065be4bf12abf SHA256: 367e95bbab8fd435faf887722e980830fc7ad2c1de49b80373a56075856c140e Section: libs Priority: extra Homepage: http://trilinos.org Description: algebraic preconditioners - runtime files IFPACK provides a suite of object-oriented algebraic preconditioners for the solution of preconditioned iterative solvers. IFPACK constructors expect an Epetra_RowMatrix object for construction. IFPACK is part of the Trilinos Solver Project and IFPACK object interact well with other Trilinos classes. In particular, IFPACK can be used as a preconditioner for AztecOO. . This package contains the dynamic libraries. Package: libtrilinos-ifpack2-12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 5103 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos2-12, libtrilinos-kokkos12, libtrilinos-teuchos12, libtrilinos-thyra12, libtrilinos-tpetra12, libtrilinos-zoltan2-12 Filename: ./amd64/libtrilinos-ifpack2-12_12.10.1-4+obsbuild1_amd64.deb Size: 867184 MD5sum: 586d62804ae1e919af728a41cbbb74d2 SHA1: df3cedaec4e42daddedae35127c0f1e6b192394a SHA256: 73642a113cd7a3a0aa98e60cc9babe6ff070a7cf60e13cd63357c28f81f6bc24 Section: libs Priority: extra Homepage: http://trilinos.org Description: next generation algebraic preconditioners - runtime files Ifpack2 provides incomplete factorizations, relaxations, and domain decomposition operators for linear algebra objects (sparse matrices, operators, and dense vectors and multivectors) provided by the Tpetra package. You may use these operators however you wish: for example as preconditioners in an iterative solver, or as smoothers for algebraic multigrid. . This package contains the dynamic libraries. Package: libtrilinos-ifpack2-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1830 Depends: libtrilinos-ifpack2-12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-ifpack2-dev_12.10.1-4+obsbuild1_amd64.deb Size: 206314 MD5sum: bb378503968f944d05b73dd8dd240e24 SHA1: de9263e1a1884a4f9449dc34e36e327007ce4919 SHA256: b1bc0d781ae0e718627ce34e2ff01b6f454ff84b0a976ac7851e978340e77ab1 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: next generation algebraic preconditioners - development files Ifpack2 provides incomplete factorizations, relaxations, and domain decomposition operators for linear algebra objects (sparse matrices, operators, and dense vectors and multivectors) provided by the Tpetra package. You may use these operators however you wish: for example as preconditioners in an iterative solver, or as smoothers for algebraic multigrid. . This package provides headers. Package: libtrilinos-intrepid-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 4068 Depends: libtrilinos-intrepid12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-intrepid-dev_12.10.1-4+obsbuild1_amd64.deb Size: 308312 MD5sum: 11e76d3970b625b571dcdaeebbdd8967 SHA1: 79b69f68b483e9d87e6f4e82277aceec373ad4e8 SHA256: 9f2c6fd2a2066e42764f6b2f757df77c28525d79707fa429fd4d2af27842a005 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: compatible discretizations of PDEs - development files Intrepid is a library of interoperable tools for compatible discretizations of Partial Differential Equations (PDEs). Intrepid is intended primarily for application developers who want to reuse large parts of their existing code frameworks such as I/O, data structures, assembly routines, etc. while gaining access to advanced discretization capabilities provided by Intrepid. . This package provides headers. Package: libtrilinos-intrepid12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 134 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-intrepid12_12.10.1-4+obsbuild1_amd64.deb Size: 34948 MD5sum: 31bcec9b1fe8a462d4df3f8bb957a253 SHA1: 9c378e0bc0a3cd1577842e2948627fc87dbacfae SHA256: 25ad4ebb6ea6e37fd88fc052a2c371aa7445039a054f9156f480a6209c080e25 Section: libs Priority: extra Homepage: http://trilinos.org Description: compatible discretizations of PDEs - runtime files Intrepid is a library of interoperable tools for compatible discretizations of Partial Differential Equations (PDEs). Intrepid is intended primarily for application developers who want to reuse large parts of their existing code frameworks such as I/O, data structures, assembly routines, etc. while gaining access to advanced discretization capabilities provided by Intrepid. . This package contains the dynamic libraries. Package: libtrilinos-isorropia-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 254 Depends: libtrilinos-isorropia12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-isorropia-dev_12.10.1-4+obsbuild1_amd64.deb Size: 32734 MD5sum: a3b8dc93f3a3b039908f3422fb95bfc7 SHA1: 9e364183e278c305be68694b5c98dcde55fa3923 SHA256: 7cd96e6101c05de29693bba9f78cfc1821afbc16eb3588475f2251a2b997b706 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: partitioning, load balancing, coloring of sparse matrices - development files Isorropia is a package for combinatorial scientific computing, with focus on partitioning and load balancing, but also supports coloring and ordering of sparse matrices. Its main purpose is to assist with redistributing objects such as matrices and graphs in a parallel execution setting, to allow for more efficient computations. Isorropia partitions matrices by rows, and produces good maps for Epetra matrices (graphs). . This package provides headers. Package: libtrilinos-isorropia12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 563 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-teuchos12, libtrilinos-zoltan12 Filename: ./amd64/libtrilinos-isorropia12_12.10.1-4+obsbuild1_amd64.deb Size: 136734 MD5sum: 22283e3898da2a964dc1cb5470e5706d SHA1: 33dab1e9f7c93c5dacdf7f6155e37729343a2d57 SHA256: b7a04dca68ee26f44c22924172b44071767651b209358c8ddc13ecd1beac873e Section: libs Priority: extra Homepage: http://trilinos.org Description: partitioning, load balancing, coloring of sparse matrices - runtime files Isorropia is a package for combinatorial scientific computing, with focus on partitioning and load balancing, but also supports coloring and ordering of sparse matrices. Its main purpose is to assist with redistributing objects such as matrices and graphs in a parallel execution setting, to allow for more efficient computations. Isorropia partitions matrices by rows, and produces good maps for Epetra matrices (graphs). . This package contains the dynamic libraries. Package: libtrilinos-kokkos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1780 Depends: libtrilinos-kokkos12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-kokkos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 181838 MD5sum: ef6c45599789a35c3c9a46b9e4bba06f SHA1: 3ed145f57d3e1d10f4d4a61578fb3a65794b9fae SHA256: e053b85e75f8e6a1258be277263d19f144f71975033067b190eab7798d9f1a3c Section: libdevel Priority: extra Homepage: http://trilinos.org Description: Trilinos core kernels - development files Kokkos implements a programming model in C++ for writing performance portable applications targeting all major HPC platforms. For that purpose it provides abstractions for both parallel execution of code and data management. Kokkos is designed to target complex node architectures with N-level memory hierarchies and multiple types of execution resources. It currently can use OpenMP, Pthreads and CUDA as backend programming models. . This package provides headers. Package: libtrilinos-kokkos12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 110 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.4), libstdc++6 (>= 5.2) Filename: ./amd64/libtrilinos-kokkos12_12.10.1-4+obsbuild1_amd64.deb Size: 34682 MD5sum: 0e2201956889d2b2b03700f306cb62e3 SHA1: 01ee4de0e6ed52365aa487a32dcf889ed1a68680 SHA256: 4532ea64c142f4c87211ec61c5f6b0dd76754654fe7ed383bb73f8ddbbce4b01 Section: libs Priority: extra Homepage: http://trilinos.org Description: Trilinos core kernels - runtime files Kokkos implements a programming model in C++ for writing performance portable applications targeting all major HPC platforms. For that purpose it provides abstractions for both parallel execution of code and data management. Kokkos is designed to target complex node architectures with N-level memory hierarchies and multiple types of execution resources. It currently can use OpenMP, Pthreads and CUDA as backend programming models. . This package contains the dynamic libraries. Package: libtrilinos-komplex-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 72 Depends: libtrilinos-komplex12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-komplex-dev_12.10.1-4+obsbuild1_amd64.deb Size: 16348 MD5sum: 0689eb96f9397bc8705b74916d64bcb8 SHA1: 530ff2652b78dad9749e12576039bfb971a7f6c6 SHA256: 05cf3e119b9abbf397ebf6cf00f27b1ffc25d3030ab03d3edab3d8992481302e Section: libdevel Priority: extra Homepage: http://trilinos.org Description: complex linear solver package - development files Komplex is a complex linear solver package. Solves complex-valued linear systems via equivalent real formulations. . This package provides headers. Package: libtrilinos-komplex12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 113 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libstdc++6 (>= 5.2), libtrilinos-aztecoo12, libtrilinos-epetra12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-komplex12_12.10.1-4+obsbuild1_amd64.deb Size: 35180 MD5sum: 550cd86d318fc5a9ae2e0bc0c80ee9fa SHA1: 106251372944e6f6a5c7580a71003e2a633b5391 SHA256: 83c1c64d8eb731e7470a70926cfb7a17b1c886f511da822217ee56896c8ede4d Section: libs Priority: extra Homepage: http://trilinos.org Description: complex linear solver package - runtime files Komplex is a complex linear solver package. Solves complex-valued linear systems via equivalent real formulations. . This package contains the dynamic libraries. Package: libtrilinos-ml-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 807 Depends: libtrilinos-ml12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-ml-dev_12.10.1-4+obsbuild1_amd64.deb Size: 119586 MD5sum: 60dec4da347b5f5e6d1efacc1f1bbaca SHA1: 9306ef27b483c2ebf02139ade04839f07fdb6927 SHA256: 8f688037897bf4c6d1fad55611d2a28d9cdd0f7589165dad6a502cdf387a08cf Section: libdevel Priority: extra Homepage: http://trilinos.org Description: multigrid preconditioning - development files ML is Sandia's main multigrid preconditioning package. ML is designed to solve large sparse linear systems of equations arising primarily from elliptic PDE discretizations. ML is used to define and build multigrid solvers and preconditioners, and it contains black-box classes to construct highly-scalable smoothed aggregation preconditioners. ML preconditioners have been used on thousands of processors for a variety of problems, including the incompressible Navier-Stokes equations with heat and mass transfer, linear and nonlinear elasticity equations, the Maxwell equations, semiconductor equations, and more. . This package provides headers. Package: libtrilinos-ml12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 2937 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:3.0), liblapack3 | liblapack.so.3, libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-aztecoo12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-galeri12, libtrilinos-ifpack12, libtrilinos-teuchos12, libtrilinos-zoltan12 Filename: ./amd64/libtrilinos-ml12_12.10.1-4+obsbuild1_amd64.deb Size: 947074 MD5sum: de29aab3088729d70b477819f07f9cb7 SHA1: 2a6c928b1eb87aa20d282806e85c727df6a34995 SHA256: ea03109d6bb8c595f7268784cb43f3ebd8119085642832da5c6d92848852e3c9 Section: libs Priority: extra Homepage: http://trilinos.org Description: multigrid preconditioning - runtime files ML is Sandia's main multigrid preconditioning package. ML is designed to solve large sparse linear systems of equations arising primarily from elliptic PDE discretizations. ML is used to define and build multigrid solvers and preconditioners, and it contains black-box classes to construct highly-scalable smoothed aggregation preconditioners. ML preconditioners have been used on thousands of processors for a variety of problems, including the incompressible Navier-Stokes equations with heat and mass transfer, linear and nonlinear elasticity equations, the Maxwell equations, semiconductor equations, and more. . This package contains the dynamic libraries. Package: libtrilinos-moertel-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 270 Depends: libtrilinos-moertel12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-moertel-dev_12.10.1-4+obsbuild1_amd64.deb Size: 42024 MD5sum: 9ce6348e870624ef4d57ea11215aa244 SHA1: c53ba278c8e642049ef47f87f44baa523bd8ec65 SHA256: 43b35a5e1fded3c75bca3191fee1411c96f00b5ad03a9517633b85683a0def88 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: mortar methods package - development files This package supplies capabilities for nonconforming mesh tying and contact formulations in 2 and 3 dimensions using Mortar methods. Mortar methods are a type of Lagrange Multiplier constraint that can be used in contact formulations and in non-conforming or conforming mesh tying as well as in domain decomposition techniques. Originally introduced as a domain decomposition method for spectral elements, Mortar methods are used in a large class of nonconforming situations such as the surface coupling of different physical models, discretization schemes or non-matching triangulations along interior interfaces of a domain. . This package provides headers. Package: libtrilinos-moertel12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 763 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-aztecoo12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ml12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-moertel12_12.10.1-4+obsbuild1_amd64.deb Size: 220140 MD5sum: d4ceb19e447cc6455a5f130faa9e9ebf SHA1: 9f7adac92cb96028d8b85b340b1122e66d765d88 SHA256: 3d98e51f4caaf79b93e76194fdcd5599d74705c5a6ad63f90aafe13c96e0df31 Section: libs Priority: extra Homepage: http://trilinos.org Description: mortar methods package - runtime files This package supplies capabilities for nonconforming mesh tying and contact formulations in 2 and 3 dimensions using Mortar methods. Mortar methods are a type of Lagrange Multiplier constraint that can be used in contact formulations and in non-conforming or conforming mesh tying as well as in domain decomposition techniques. Originally introduced as a domain decomposition method for spectral elements, Mortar methods are used in a large class of nonconforming situations such as the surface coupling of different physical models, discretization schemes or non-matching triangulations along interior interfaces of a domain. . This package contains the dynamic libraries. Package: libtrilinos-muelu-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 4116 Depends: libtrilinos-muelu12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-muelu-dev_12.10.1-4+obsbuild1_amd64.deb Size: 380114 MD5sum: 5d593a227c27ad0a1a747c0342c65404 SHA1: 6c06ee1fe015ed53477fa12c047c26e75ab85a93 SHA256: 82c4310005b737b37b081d02c6bc547ce3b5fc57296c2487ffc845e62cab1a8e Section: libdevel Priority: extra Homepage: http://trilinos.org Description: next generation multilevel preconditioner capabilities - development files MueLu is designed to solve large sparse linear systems of equations arising from PDE discretizations. MueLu provides easy-to-use multigrid solvers and preconditioners based on smoothed aggregation algorithms. As a multigrid framework, MueLu supports the design of highly application specific multigrid preconditioners. . This package provides headers. Package: libtrilinos-muelu12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 21962 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-amesos2-12, libtrilinos-belos12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ifpack12, libtrilinos-ifpack2-12, libtrilinos-isorropia12, libtrilinos-kokkos12, libtrilinos-ml12, libtrilinos-teuchos12, libtrilinos-tpetra12, libtrilinos-xpetra12, libtrilinos-zoltan12, libtrilinos-zoltan2-12 Filename: ./amd64/libtrilinos-muelu12_12.10.1-4+obsbuild1_amd64.deb Size: 3452550 MD5sum: e6e16c3b037174892c223f1e0f193f5f SHA1: a0f4ecc105e860ba9a89cf3f270c0b48df167178 SHA256: dec23d59b352f9abc138250a7a49f26015fadee8fda1cb3a3157cda00bb542c5 Section: libs Priority: extra Homepage: http://trilinos.org Description: next generation multilevel preconditioner capabilities - runtime files MueLu is designed to solve large sparse linear systems of equations arising from PDE discretizations. MueLu provides easy-to-use multigrid solvers and preconditioners based on smoothed aggregation algorithms. As a multigrid framework, MueLu supports the design of highly application specific multigrid preconditioners. . This package contains the dynamic libraries. Package: libtrilinos-nox-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 2262 Depends: libtrilinos-nox12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-nox-dev_12.10.1-4+obsbuild1_amd64.deb Size: 194506 MD5sum: 9cbdbdfdda14f6409ac8c83ff671b019 SHA1: 1757e708c15ce77a5a0dd887c3d86e69cdabdbe6 SHA256: eb98784e63d150cdb5da11334731f5ff81fcad8bfa67b35ca803dfff2629d15a Section: libdevel Priority: extra Homepage: http://trilinos.org Description: robust solution of nonlinear equations - development files NOX robustly solves and analyzes large-scale systems of nonlinear equations. NOX is short for Nonlinear Object-Oriented Solutions, and its objective is to enable the robust and efficient solution of the equation: F(x)=0 using globalized Newton methods such as line search and trust region methods. NOX is designed to work with any linear algebra package and to be easily customized. . This package provides headers. Package: libtrilinos-nox12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 7136 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:3.0), liblapack3 | liblapack.so.3, libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-aztecoo12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ifpack12, libtrilinos-ml12, libtrilinos-rtop12, libtrilinos-stratimikos12, libtrilinos-teko12, libtrilinos-teuchos12, libtrilinos-thyra12 Filename: ./amd64/libtrilinos-nox12_12.10.1-4+obsbuild1_amd64.deb Size: 1329330 MD5sum: 039a313c3a3dce61bdefc37b9d237ab6 SHA1: 70cb6efe9a25d7677d1cea7a1470c44cfcbddbcf SHA256: 9df80e15f8c3bfe0ee4a2171bdf6e65e1e9c52a57d72b4395dcce3f7f3ff2286 Section: libs Priority: extra Homepage: http://trilinos.org Description: robust solution of nonlinear equations - runtime files NOX robustly solves and analyzes large-scale systems of nonlinear equations. NOX is short for Nonlinear Object-Oriented Solutions, and its objective is to enable the robust and efficient solution of the equation: F(x)=0 using globalized Newton methods such as line search and trust region methods. NOX is designed to work with any linear algebra package and to be easily customized. . This package contains the dynamic libraries. Package: libtrilinos-optipack-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 109 Depends: libtrilinos-optipack12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-optipack-dev_12.10.1-4+obsbuild1_amd64.deb Size: 20494 MD5sum: 30fa46e1d4c4d1440f8f6a325a41c984 SHA1: 863be79940b18dc0b22bf0fe398128914438b597 SHA256: f4beea4956d4ad0c165d28e8978301d9f5a530665beb2a177087c8af257ce6af Section: libdevel Priority: extra Homepage: http://trilinos.org Description: Trilinos optimization algorithms - development files The OptiPack package contains interfaces and concrete implementations of some basic optimization algorithms based on Thyra. The globalization methods used are implemented in GlobiPack. . This package provides headers. Package: libtrilinos-optipack12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 277 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libstdc++6 (>= 5.2), libtrilinos-teuchos12, libtrilinos-thyra12 Filename: ./amd64/libtrilinos-optipack12_12.10.1-4+obsbuild1_amd64.deb Size: 67274 MD5sum: d973418f2b75e8d865214d11be73c8ef SHA1: 080066da6fb10cebe43fab98b24bc698b6e4b2aa SHA256: 644f812cea3658bfd6c4450ac792a1c3034e65a3ea63b4cbba3ee47ee56a831b Section: libs Priority: extra Homepage: http://trilinos.org Description: Trilinos optimization algorithms - runtime files The OptiPack package contains interfaces and concrete implementations of some basic optimization algorithms based on Thyra. The globalization methods used are implemented in GlobiPack. . This package contains the dynamic libraries. Package: libtrilinos-pamgen-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 183 Depends: libtrilinos-pamgen12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-pamgen-dev_12.10.1-4+obsbuild1_amd64.deb Size: 33184 MD5sum: c2782b494a96efbeb397cf311924d96b SHA1: 9eb008807a77b447419dff0c4cbe8fe02e831a0f SHA256: 57c11e6db7ffdf989fab91006482362c9d3855ffccecc48f9d7a13cb732773ec Section: libdevel Priority: extra Homepage: http://trilinos.org Description: hexahedral and quadrilateral mesh generator - development files PAMGEN creates hexahedral or quadrilateral (in 2D) finite element meshes of simple shapes (cubes and cylinders) in parallel. When linked to an application as a library, it allows each process of a parallel simulation to generate its finite element domain representation at execution time. . This package provides headers. Package: libtrilinos-pamgen12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 945 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2) Filename: ./amd64/libtrilinos-pamgen12_12.10.1-4+obsbuild1_amd64.deb Size: 267180 MD5sum: a9cd3d87d67c7ecfb9a2a3d56b27794a SHA1: 30cacbec3d05d1d70a5215278442043542ce0e2f SHA256: e2def70147d4fb8b25a1def69dfba22d21471fc8cdbeb5e31102a02f87305e4e Section: libs Priority: extra Homepage: http://trilinos.org Description: hexahedral and quadrilateral mesh generator - runtime files PAMGEN creates hexahedral or quadrilateral (in 2D) finite element meshes of simple shapes (cubes and cylinders) in parallel. When linked to an application as a library, it allows each process of a parallel simulation to generate its finite element domain representation at execution time. . This package contains the dynamic libraries. Package: libtrilinos-phalanx-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 541 Depends: libtrilinos-phalanx12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-phalanx-dev_12.10.1-4+obsbuild1_amd64.deb Size: 69430 MD5sum: fe0c6d73438e0d6eedd1e4f6b38a0a1c SHA1: 3813be96118e3a26478a48d7d55c194c53b81e69 SHA256: 5f18030e71972b64a8664dea51c6d9270916cee60bd787972b29ed36aae9b2bd Section: libdevel Priority: extra Homepage: http://trilinos.org Description: local field evaluation kernel - development files Phalanx is a local field evaluation kernel specifically designed for general partial differential equation solvers. The main goal of Phalanx is to decompose a complex problem into a number of simpler problems with managed dependencies to support rapid development and extensibility of the PDE code. Through the use of template metaprogramming concepts, Phalanx supports arbitrary user defined data types and evaluation types. This allows for unprecedented flexibility for direct integration with user applications and provides extensive support for embedded technology such as automatic differentiation for sensitivity analysis and uncertainty quantification. . This package provides headers. Package: libtrilinos-phalanx12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 126 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-kokkos12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-phalanx12_12.10.1-4+obsbuild1_amd64.deb Size: 30430 MD5sum: 47a0cc0f0b8af8184d4c0062305635e2 SHA1: bd604bc4a922c9a25394b8e575ba0b07a09897ff SHA256: 5016099df05b685b858188a328411c4af56ece2b966e19dcabb37eb9803bbb2e Section: libs Priority: extra Homepage: http://trilinos.org Description: local field evaluation kernel - runtime files Phalanx is a local field evaluation kernel specifically designed for general partial differential equation solvers. The main goal of Phalanx is to decompose a complex problem into a number of simpler problems with managed dependencies to support rapid development and extensibility of the PDE code. Through the use of template metaprogramming concepts, Phalanx supports arbitrary user defined data types and evaluation types. This allows for unprecedented flexibility for direct integration with user applications and provides extensive support for embedded technology such as automatic differentiation for sensitivity analysis and uncertainty quantification. . This package contains the dynamic libraries. Package: libtrilinos-pike-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 142 Depends: libtrilinos-pike12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-pike-dev_12.10.1-4+obsbuild1_amd64.deb Size: 23230 MD5sum: 2ced638573c5cbfe8433a6b794098326 SHA1: 84e980dcf83ea4b56a1f099d771a578eb70b7397 SHA256: e39220c838f1af50866e7c4c7273bc4a0aa9ee4ed89e7f9e3f9201e9fec1911c Section: libdevel Priority: extra Homepage: http://trilinos.org Description: physics integration kernels - development files Pike is a software library for coupling and solving multiphysics applications. It provides basic interfaces and utilities for performing code-to-code coupling. It provides simple black-box Picard iteration methods for solving the coupled system of equations including Jacobi and Gauss-Seidel solvers. The Pike library contains no physics and just provides interfaces and utilities for coupling codes. . This package provides headers. Package: libtrilinos-pike12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 758 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-pike12_12.10.1-4+obsbuild1_amd64.deb Size: 176278 MD5sum: 71d813ee482f520e1d3a0268af6adf87 SHA1: 88c8467ce785c8da47a72664a770a6f26da528b5 SHA256: 72966b95771749bf43da2622b1019b71e8abb4d1d3bf3d08ceec57ba5cfa38d3 Section: libs Priority: extra Homepage: http://trilinos.org Description: physics integration kernels - runtime files Pike is a software library for coupling and solving multiphysics applications. It provides basic interfaces and utilities for performing code-to-code coupling. It provides simple black-box Picard iteration methods for solving the coupled system of equations including Jacobi and Gauss-Seidel solvers. The Pike library contains no physics and just provides interfaces and utilities for coupling codes. . This package contains the dynamic libraries. Package: libtrilinos-piro-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 494 Depends: libtrilinos-piro12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-piro-dev_12.10.1-4+obsbuild1_amd64.deb Size: 54656 MD5sum: cb4fb353e1b243bf5098ce26630a57ea SHA1: 597e46f2cbcecfac0b2887d7cabad764a4506e4a SHA256: 53d30f20d01d79881d86e46d83081980bbd578bc22d66c021b9b3674690fe634 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: embedded nonlinear analysis package - development files Piro is the top-level, unifying package of the Embedded Nonlinear Analysis Capability area. The main purpose of the package is to provide driver classes for the common uses of Trilinos nonlinear analysis tools. These drivers all can be constructed similarly, with a ModelEvaluator and a ParameterList, to make it simple to switch between different types of analysis. They also all inherit from the same base classes (reponse-only model evaluators) so that the resulting analysis can in turn driven by non-intrusive analysis routines. . This package provides headers. Package: libtrilinos-piro12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 3994 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), liblapack3 | liblapack.so.3, libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-globipack12, libtrilinos-nox12, libtrilinos-optipack12, libtrilinos-rtop12, libtrilinos-rythmos12, libtrilinos-stokhos12, libtrilinos-stratimikos12, libtrilinos-teuchos12, libtrilinos-thyra12 Filename: ./amd64/libtrilinos-piro12_12.10.1-4+obsbuild1_amd64.deb Size: 886870 MD5sum: 8af5b2f55a1d5067eb9c8c9a486fcd82 SHA1: b09e30456b661e7556a3c718eef14036eb4043cb SHA256: 06fb238b59c9d441c1744106fc2a2ce30945201619c815d32926caa946868218 Section: libs Priority: extra Homepage: http://trilinos.org Description: embedded nonlinear analysis package - runtime files Piro is the top-level, unifying package of the Embedded Nonlinear Analysis Capability area. The main purpose of the package is to provide driver classes for the common uses of Trilinos nonlinear analysis tools. These drivers all can be constructed similarly, with a ModelEvaluator and a ParameterList, to make it simple to switch between different types of analysis. They also all inherit from the same base classes (reponse-only model evaluators) so that the resulting analysis can in turn driven by non-intrusive analysis routines. . This package contains the dynamic libraries. Package: libtrilinos-pliris-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 147 Depends: libtrilinos-pliris12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-pliris-dev_12.10.1-4+obsbuild1_amd64.deb Size: 18154 MD5sum: 6acb2018a8f1e6d1a3f85b1d2d10eb1a SHA1: 9a1e1744291d4771dbec946798316137cebd9dbc SHA256: 8962199ffc1b8c07f215b9b55db1704d5b9634af07c8a04ec9f8305265cb2538 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: Trilinos dense solvers package - development files Pliris is an object-oriented interface to a LU solver for dense matrices on parallel platforms. These matrices are double precision real matrices distributed on a parallel machine. . This package provides headers. Package: libtrilinos-pliris12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 68 Depends: libblas3 | libblas.so.3, libc6 (>= 2.4), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12 Filename: ./amd64/libtrilinos-pliris12_12.10.1-4+obsbuild1_amd64.deb Size: 21904 MD5sum: 8cafdd0b0a24e6b1decc51f25a63171f SHA1: 7aad70406d46ed5cae83c32025c650c80c1b783e SHA256: fee8b3c475a3f05bc8dd6fc49f94895deb8a2ab1f4c45e4ee4c63172fe3f9394 Section: libs Priority: extra Homepage: http://trilinos.org Description: Trilinos dense solvers package - runtime files Pliris is an object-oriented interface to a LU solver for dense matrices on parallel platforms. These matrices are double precision real matrices distributed on a parallel machine. . This package contains the dynamic libraries. Package: libtrilinos-rol-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 2641 Depends: libtrilinos-rol12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-rol-dev_12.10.1-4+obsbuild1_amd64.deb Size: 264070 MD5sum: 020e2a8784884f91cbda0ce72b78d71c SHA1: 950f2bc76f9e5c5e55e76658e1aa7987cfaaf39c SHA256: 93f083738b9a8410799fe1e06438116eef22d7bc68389c89b8209696066784b0 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: rapid optimization library - development files The Rapid Optimization Library (ROL) is a package for large-scale optimization. It is used for the solution of optimal design, optimal control and inverse problems in large-scale engineering applications. Other uses include mesh optimization and image processing. . This package provides headers. Package: libtrilinos-rol12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 36 Depends: libc6 (>= 2.4), libstdc++6 (>= 5.2) Filename: ./amd64/libtrilinos-rol12_12.10.1-4+obsbuild1_amd64.deb Size: 9682 MD5sum: 7d89ee49fccae946572cb76252cad44b SHA1: 61b788e04505f5a0597a98f6e521874281609e4a SHA256: 6e91d0ca18c2693555b25c42348e0a9a0a684ce8a536468bf80b03ee779b097d Section: libs Priority: extra Homepage: http://trilinos.org Description: rapid optimization library - runtime files The Rapid Optimization Library (ROL) is a package for large-scale optimization. It is used for the solution of optimal design, optimal control and inverse problems in large-scale engineering applications. Other uses include mesh optimization and image processing. . This package contains the dynamic libraries. Package: libtrilinos-rtop-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 382 Depends: libtrilinos-rtop12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-rtop-dev_12.10.1-4+obsbuild1_amd64.deb Size: 44148 MD5sum: 286b0ad56e15251399c3343e457ff612 SHA1: 7d597a125c959995895b219729f1ca4fa21fb788 SHA256: b27f7f6314e9290a6d9be0d19a647c7dccc56dabb791a3bd9efe03416e691560 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: reductions/transformation operators - development files RTOp (reduction/transformation operators) provides the basic mechanism for implementing vector operations in a flexible and efficient manner. . This package provides headers. Package: libtrilinos-rtop12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 630 Depends: libc6 (>= 2.14), libgcc1 (>= 1:4.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-rtop12_12.10.1-4+obsbuild1_amd64.deb Size: 122504 MD5sum: 1f4614c61b68a36f02f5f9109cf41ba0 SHA1: 5fa77ded00f384991ef48c979a17ba114dfdbc32 SHA256: db1a38306d772b250a6496042dbbe0eb619d5d43dd111404c70710c0fec43496 Section: libs Priority: extra Homepage: http://trilinos.org Description: reductions/transformation operators - runtime files RTOp (reduction/transformation operators) provides the basic mechanism for implementing vector operations in a flexible and efficient manner. . This package contains the dynamic libraries. Package: libtrilinos-rythmos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1482 Depends: libtrilinos-rythmos12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-rythmos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 167600 MD5sum: 0ca64b5254a53b6092d6275dd71a33c5 SHA1: 3537d223e0545014fe6afa5665822fbd7d9ef5b9 SHA256: 7134f8472240bdbcae51dadadf531939a156027076a2a7daf8cc5ed8d8f09e5c Section: libdevel Priority: extra Homepage: http://trilinos.org Description: Trilinos transient integrator - development files Rythmos is a transient integrator for ordinary differential equations and differential-algebraic equations with support for explicit, implicit, one-step and multi-step algorithms. The fundamental design of Rythmos is aimed at supporting operator-split algorithms, multi-physics applications, block linear algebra, and adjoint integration. . This package provides headers. Package: libtrilinos-rythmos12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 3692 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-rtop12, libtrilinos-teuchos12, libtrilinos-thyra12 Filename: ./amd64/libtrilinos-rythmos12_12.10.1-4+obsbuild1_amd64.deb Size: 690158 MD5sum: d4ad8fcf4f7d3e21ecf854783fb0774e SHA1: deb8cae1133e051fb6a5a9de93d7112dfe3fa470 SHA256: eb1a9db8f72cca14f790d008a023a28ff1082f0f9e0ee97f97c43da20184e8c4 Section: libs Priority: extra Homepage: http://trilinos.org Description: Trilinos transient integrator - runtime files Rythmos is a transient integrator for ordinary differential equations and differential-algebraic equations with support for explicit, implicit, one-step and multi-step algorithms. The fundamental design of Rythmos is aimed at supporting operator-split algorithms, multi-physics applications, block linear algebra, and adjoint integration. . This package contains the dynamic libraries. Package: libtrilinos-sacado-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1878 Depends: libtrilinos-sacado12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-sacado-dev_12.10.1-4+obsbuild1_amd64.deb Size: 129322 MD5sum: 83e5fdeac0a0b43f8cc6a25e2365451d SHA1: 144b6370765d96184aca45453e861b41fa7d17c1 SHA256: e3c48c0ebfd505595a070fb60317bf88c6600a44311e768d7c8c192556eea079 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: automatic differentiation for C++ applications - development files Sacado is a set of automatic differentiation tools for C++ applications. It provides templated classes for forward, reverse and Taylor mode automatic differentiation. . This package provides headers. Package: libtrilinos-sacado12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 97 Depends: libc6 (>= 2.4), libgcc1 (>= 1:3.0), libstdc++6 (>= 4.4.0) Filename: ./amd64/libtrilinos-sacado12_12.10.1-4+obsbuild1_amd64.deb Size: 27790 MD5sum: 8966929afd0b1116ed7ee948ca1dea4d SHA1: a1326b54b08c5ef3b0cf6edc61edac56c3c91c5e SHA256: 436ceeb13d9163ab4891d39550ac6d01dc500a3d43c078003e1fa85fbfd11de3 Section: libs Priority: extra Homepage: http://trilinos.org Description: automatic differentiation for C++ applications - runtime files Sacado is a set of automatic differentiation tools for C++ applications. It provides templated classes for forward, reverse and Taylor mode automatic differentiation. . This package contains the dynamic libraries. Package: libtrilinos-shards-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 323 Depends: libtrilinos-shards12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-shards-dev_12.10.1-4+obsbuild1_amd64.deb Size: 34744 MD5sum: b92e03948a87f8af336570ca2fecdb47 SHA1: 055c8f5ca8b163619bd7167e2d9a9be260141b90 SHA256: 36353fcc3caa89ccab5e381bf0b08b46a9476f9223367875f34b06addb599336 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: interoperability tools for PDE solving - development files The purpose of Shards is to provide a suite of common tools for numerical and topological data that facilitate interoperability between typical software modules used to solve Partial Differential Equations (PDEs) by finite element, finite volume and finite difference methods. Shards comprises of two categories of tools: methods to manage and access information about cell topologies used in mesh-based methods for PDEs, and methods to work with multi-dimensional arrays used to store numerical data in corresponding computer codes. . This package provides headers. Package: libtrilinos-shards12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 109 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libstdc++6 (>= 5.2) Filename: ./amd64/libtrilinos-shards12_12.10.1-4+obsbuild1_amd64.deb Size: 31376 MD5sum: 93ef2d1a1922a67f158e7d71a5019739 SHA1: 5f39b5665a3a6570f0d8e84895ff5bb8b4bef489 SHA256: 8da207d92f1821141fbdfd090425511580ea64ca2160d5d77107ea1429ad9032 Section: libs Priority: extra Homepage: http://trilinos.org Description: interoperability tools for PDE solving - runtime files The purpose of Shards is to provide a suite of common tools for numerical and topological data that facilitate interoperability between typical software modules used to solve Partial Differential Equations (PDEs) by finite element, finite volume and finite difference methods. Shards comprises of two categories of tools: methods to manage and access information about cell topologies used in mesh-based methods for PDEs, and methods to work with multi-dimensional arrays used to store numerical data in corresponding computer codes. . This package contains the dynamic libraries. Package: libtrilinos-shylu-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 178 Depends: libtrilinos-shylu12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-shylu-dev_12.10.1-4+obsbuild1_amd64.deb Size: 26902 MD5sum: 7ddf3bfb84b6f5ff06ed7b53d04f81bc SHA1: a12019be2beb2c40d425fafe6fbd5ff36e3f7dba SHA256: f484ba55487e1207a4491faa1b670fce82045e431097a696eade630c97531155 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: solving sparse linear systems - development files ShyLU is a package for solving sparse linear systems. It can be used either as a preconditioner, or as a solver. Currently, we recommend using it as an Ifpack preconditioner. ShyLU uses a hybrid direct/iterative approach based on Schur complements. The goal is to provide robustness similar to sparse direct solvers, but memory usage more similar to preconditioned iterative solvers. ShyLU was designed as a node-level solver. It can use both MPI and threads in several ways. ShyLU was designed (a) to solve difficult but medium-size problems, and (b) to be used as a subdomain solver or smoother for very large problems within an iterative scheme. It is a purely algebraic method so can be used as a black-box solver. ShyLU has been particularly successful in electrical circuit simulation (Xyce). . This package provides headers. Package: libtrilinos-shylu12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1729 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-aztecoo12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ifpack12, libtrilinos-isorropia12, libtrilinos-kokkos12, libtrilinos-teuchos12, libtrilinos-tpetra12, libtrilinos-xpetra12, libtrilinos-zoltan12, libtrilinos-zoltan2-12 Filename: ./amd64/libtrilinos-shylu12_12.10.1-4+obsbuild1_amd64.deb Size: 393270 MD5sum: 70a0ee49f0d580382581b8e187411c65 SHA1: d3a4c39055e26322f3b0fa7700247385db519dda SHA256: cddc15692144f1d828a4e82e45c0bc360b1b295ccec443cce4c0df7c4a4c045c Section: libs Priority: extra Homepage: http://trilinos.org Description: solving sparse linear systems - runtime files ShyLU is a package for solving sparse linear systems. It can be used either as a preconditioner, or as a solver. Currently, we recommend using it as an Ifpack preconditioner. ShyLU uses a hybrid direct/iterative approach based on Schur complements. The goal is to provide robustness similar to sparse direct solvers, but memory usage more similar to preconditioned iterative solvers. ShyLU was designed as a node-level solver. It can use both MPI and threads in several ways. ShyLU was designed (a) to solve difficult but medium-size problems, and (b) to be used as a subdomain solver or smoother for very large problems within an iterative scheme. It is a purely algebraic method so can be used as a black-box solver. ShyLU has been particularly successful in electrical circuit simulation (Xyce). . This package contains the dynamic libraries. Package: libtrilinos-stokhos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 3706 Depends: libtrilinos-stokhos12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-stokhos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 292004 MD5sum: cc7cb7cda1a3ef22e1111d132de7ae51 SHA1: 0887184be049e0ca18320e673c804e180fa6db0f SHA256: f21b29fc8da27d7d144c67970ad306efb18017316badfe7514c39e77e1463cc0 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: Trilinos uncertainty quantification package - development files Stokhos is a package for intrusive stochastic Galerkin uncertainty quantification methods. It provides methods for computing well-known intrusive stochastic Galerkin projections such as Polynomial Chaos and Generalized Polynomial Chaos, interfaces for forming the resulting nonlinear systems, and linear solver methods for solving block stochastic Galerkin linear systems. . This package provides headers. Package: libtrilinos-stokhos12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 47259 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos2-12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ifpack12, libtrilinos-ifpack2-12, libtrilinos-isorropia12, libtrilinos-kokkos12, libtrilinos-ml12, libtrilinos-muelu12, libtrilinos-nox12, libtrilinos-teuchos12, libtrilinos-tpetra12, libtrilinos-xpetra12, libtrilinos-zoltan12, libtrilinos-zoltan2-12 Filename: ./amd64/libtrilinos-stokhos12_12.10.1-4+obsbuild1_amd64.deb Size: 7749740 MD5sum: a6db7865edf27954544222dc366b8720 SHA1: bba061041bed21153874229879a0f57ada58f857 SHA256: e50a94204c8495bf68e7694b0861d2374ae09f4c133bde095aae972102442154 Section: libs Priority: extra Homepage: http://trilinos.org Description: Trilinos uncertainty quantification package - runtime files Stokhos is a package for intrusive stochastic Galerkin uncertainty quantification methods. It provides methods for computing well-known intrusive stochastic Galerkin projections such as Polynomial Chaos and Generalized Polynomial Chaos, interfaces for forming the resulting nonlinear systems, and linear solver methods for solving block stochastic Galerkin linear systems. . This package contains the dynamic libraries. Package: libtrilinos-stratimikos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 268 Depends: libtrilinos-stratimikos12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-stratimikos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 42376 MD5sum: f8f4fecd4f7540cef40a82b48a02db57 SHA1: 1ad1ee0a6c8ea013f1fe2a33c8fdd8ebac8f1ce4 SHA256: 2a19dcf6bc38ca0e9eb1daf5609c7ce315ca3fc6d32fdc7c45ee542c4b3f3c90 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: wrappers for linear solvers and preconditioners - development files The package Stratimikos contains a unified set of Thyra-based wrappers to linear solver and preconditioner capabilities in Trilinos. The Stratimikos package is also a place where unified testing of linear solvers and preconditioners can be performed. . This package provides headers. Package: libtrilinos-stratimikos12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 4800 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-aztecoo12, libtrilinos-belos12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ifpack12, libtrilinos-ml12, libtrilinos-rtop12, libtrilinos-teuchos12, libtrilinos-thyra12 Filename: ./amd64/libtrilinos-stratimikos12_12.10.1-4+obsbuild1_amd64.deb Size: 912760 MD5sum: 70c4ec22663333fa1d18947e6e0ac31f SHA1: a0c8074a1e0326119ba653c45c6838c8b0de2605 SHA256: a53b5fcd71c211a50b5c18af44cf3b642085f4f9562b006dbea01bd72451a029 Section: libs Priority: extra Homepage: http://trilinos.org Description: wrappers for linear solvers and preconditioners - runtime files The package Stratimikos contains a unified set of Thyra-based wrappers to linear solver and preconditioner capabilities in Trilinos. The Stratimikos package is also a place where unified testing of linear solvers and preconditioners can be performed. . This package contains the dynamic libraries. Package: libtrilinos-teko-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 696 Depends: libtrilinos-teko12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-teko-dev_12.10.1-4+obsbuild1_amd64.deb Size: 67182 MD5sum: c91db6f541a771b718979aeb91c1f05c SHA1: ced29918058fec60d53a2600eb2de7c11ad98b47 SHA256: f667da46c92f66194ac5db63fae94ac777c366ed074f21fd8d3dbcc3994e9af6 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: block preconditioners - development files Teko is a package for development and implementation of block preconditioners. This includes support for manipulation and setup of block operators. Furthermore tools exist to support decomposition of a fully coupled operator. Additionally, facilities that allow the construction of approximate inverse operators using the full complement of available preconditioners and solvers are available in Teko. Finally, a small number of generic block preconditioners has been implemented in Teko, including block Jacobi, and block Gauss-Seidel. For the Navier-Stokes equation, Teko has implementations of SIMPLE, PCD and LSC. For details on these methods see Stabilization and Scalable Block Preconditioning for the Navier-Stokes Equations and the references therein. . This package provides headers. Package: libtrilinos-teko12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 3537 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-ifpack2-12, libtrilinos-isorropia12, libtrilinos-rtop12, libtrilinos-stratimikos12, libtrilinos-teuchos12, libtrilinos-thyra12, libtrilinos-tpetra12 Filename: ./amd64/libtrilinos-teko12_12.10.1-4+obsbuild1_amd64.deb Size: 743350 MD5sum: 981f2a5a8d9702eabd979546bced62e8 SHA1: 264a229e8ecb7b3be077a933c6345d9b953918bb SHA256: 68968eba19cd6bac5efcedbf6f3bf37887b50f7dbd843c6f2e3c9db628e852c9 Section: libs Priority: extra Homepage: http://trilinos.org Description: block preconditioners - runtime files Teko is a package for development and implementation of block preconditioners. This includes support for manipulation and setup of block operators. Furthermore tools exist to support decomposition of a fully coupled operator. Additionally, facilities that allow the construction of approximate inverse operators using the full complement of available preconditioners and solvers are available in Teko. Finally, a small number of generic block preconditioners has been implemented in Teko, including block Jacobi, and block Gauss-Seidel. For the Navier-Stokes equation, Teko has implementations of SIMPLE, PCD and LSC. For details on these methods see Stabilization and Scalable Block Preconditioning for the Navier-Stokes Equations and the references therein. . This package contains the dynamic libraries. Package: libtrilinos-teuchos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 3251 Depends: binutils-dev, libiberty-dev, libblas-dev, liblapack-dev, libtrilinos-teuchos12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-teuchos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 371694 MD5sum: 377fc116bce1fd8aa733b0b31173a150 SHA1: ae707f8d1f46bf78a1e85b7e5dd5883019a32b31 SHA256: a03b05e3b3ef4dd896da228094d6648bb022251a34a357bbb8e5c83274e28c99 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: common tools for Trilinos - development files Teuchos provides a suite of common tools for Trilinos for developers to use. These tools include BLAS/LAPACK wrappers, smart pointers, parameter lists, XML parsers, etc. . This package provides headers. Package: libtrilinos-teuchos12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 5718 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:3.0), liblapack3 | liblapack.so.3, libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-kokkos12 Filename: ./amd64/libtrilinos-teuchos12_12.10.1-4+obsbuild1_amd64.deb Size: 1001944 MD5sum: f68b94601a80271ad593d78a767d4f90 SHA1: da2bf6997ab414ee8519d73b621821ca53a0a87b SHA256: 14c1919ee39efbd8c3c184a294f51ffe179fe06db5b59083ac5ee6291e797443 Section: libs Priority: extra Homepage: http://trilinos.org Description: common tools for Trilinos - runtime files Teuchos provides a suite of common tools for Trilinos for developers to use. These tools include BLAS/LAPACK wrappers, smart pointers, parameter lists, XML parsers, etc. . This package contains the dynamic libraries. Package: libtrilinos-thyra-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 2604 Depends: libtrilinos-thyra12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-thyra-dev_12.10.1-4+obsbuild1_amd64.deb Size: 260288 MD5sum: a695fcd54f2495bf335022eedf6a9029 SHA1: ca2e1d9834182fad969fc926a465f97d514da8e1 SHA256: 529e44ce760cb9e4ff9c7e19161e30316acfa853057357b8ac13e35775c97c8c Section: libdevel Priority: extra Homepage: http://trilinos.org Description: interoperability layer for numerical software - development files The Thyra package contains a set of interfaces and supporting code that defines basic interoperability mechanisms between different types of numerical software. The foundation of all of these interfaces are the mathematical concepts of vectors, vector spaces, and linear operators. All other interfaces and support software is built on the basic operator/vector interfaces. . This package provides headers. Package: libtrilinos-thyra12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 10052 Depends: libc6 (>= 2.14), libgcc1 (>= 1:4.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-rtop12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-thyra12_12.10.1-4+obsbuild1_amd64.deb Size: 1497520 MD5sum: 8f8852bc2548902502e2754a5a161fe1 SHA1: 96394668be0e69d831a4b769887b1c5aee0e9b11 SHA256: 6927139af1f54591d714594b936bd64cfe55a679a2e689603d96e75b687d0d0b Section: libs Priority: extra Homepage: http://trilinos.org Description: interoperability layer for numerical software - runtime files The Thyra package contains a set of interfaces and supporting code that defines basic interoperability mechanisms between different types of numerical software. The foundation of all of these interfaces are the mathematical concepts of vectors, vector spaces, and linear operators. All other interfaces and support software is built on the basic operator/vector interfaces. . This package contains the dynamic libraries. Package: libtrilinos-tpetra-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 5989 Depends: liblapack-dev, libtbb-dev, libtrilinos-tpetra12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-tpetra-dev_12.10.1-4+obsbuild1_amd64.deb Size: 672764 MD5sum: 661e26f9ff580cad6fbca6fe0462e2ad SHA1: 1da3514e693ba2d2a32fd9e3bd262f7869e6165f SHA256: cfe375510e7836bfe98128d26035b386650b554bce27cd26b7e5d6d65e9a306e Section: libdevel Priority: extra Homepage: http://trilinos.org Description: templated numerical linear algebra package - development files Next-generation, templated version of Petra, taking advantage of the newer advanced features of C++. . This package provides headers. Package: libtrilinos-tpetra12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 12231 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-kokkos12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-tpetra12_12.10.1-4+obsbuild1_amd64.deb Size: 2080466 MD5sum: 0ea3f3ce2295da094ac5e29e69661ff2 SHA1: d5fec3dbbe5376710ec78936f9a9922134a9c0d8 SHA256: d4e41e9b3c4bee17a979f38190b7a7b2e8002318fff0a95ea4eaa5cdf25121d5 Section: libs Priority: extra Homepage: http://trilinos.org Description: templated numerical linear algebra package - runtime files Next-generation, templated version of Petra, taking advantage of the newer advanced features of C++. . This package contains the dynamic libraries. Package: libtrilinos-trilinoscouplings-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 145 Depends: libtrilinos-trilinoscouplings12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-trilinoscouplings-dev_12.10.1-4+obsbuild1_amd64.deb Size: 25964 MD5sum: d739f751c061d1cba43e1be0647eabca SHA1: d8e44e1ca0e46d0440c78b0ba493522404eaca62 SHA256: 3ef715a0e5ea83ada5e08a14f38b8bf612a89a10ba2b8d8d53ebb9f298f95474 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: combining Trilinos packages - development files TrilinosCouplings provides a location for multiple Trilinos packages to be combined for testing integrated package capabilities. . This package provides headers. Package: libtrilinos-trilinoscouplings12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 656 Depends: libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-amesos12, libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-isorropia12, libtrilinos-ml12, libtrilinos-nox12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-trilinoscouplings12_12.10.1-4+obsbuild1_amd64.deb Size: 168790 MD5sum: bf2bfe54cb28bcbb4864d2dfdcdd968f SHA1: ea4fa9cbf5a49ae0490d731ef781c0059832618b SHA256: fca21e42c4764dcc0c9fc111344223540801c57036dbd931851ca0c7855d11dc Section: libs Priority: extra Homepage: http://trilinos.org Description: combining Trilinos packages - runtime files TrilinosCouplings provides a location for multiple Trilinos packages to be combined for testing integrated package capabilities. . This package contains the dynamic libraries. Package: libtrilinos-triutils-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 110 Depends: libtrilinos-triutils12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-triutils-dev_12.10.1-4+obsbuild1_amd64.deb Size: 21452 MD5sum: ede58992941ec157347b49ba1ffce078 SHA1: 76a5e48be65b826614d5f89e42db43998d9d2d9c SHA256: bfa38246b23b04509f47622ac846b7c3d6bdb30cde17a4c48da4eda534163a45 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: utilities for Trilinos - development files TriUtils a package of utilities for other Trilinos packages. . This package provides headers. Package: libtrilinos-triutils12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 395 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-triutils12_12.10.1-4+obsbuild1_amd64.deb Size: 121458 MD5sum: 245dfbe711645e296fb4eb77484157be SHA1: 03244506aad5459e7283cab0bea5a7e394d150b1 SHA256: a9c4b98d7e1b1b0421f9041864bd9588af0002537a7a32f3adeb8f1624b5f42f Section: libs Priority: extra Homepage: http://trilinos.org Description: utilities for Trilinos - runtime files TriUtils a package of utilities for other Trilinos packages. . This package contains the dynamic libraries. Package: libtrilinos-xpetra-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1884 Depends: libtrilinos-xpetra12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-xpetra-dev_12.10.1-4+obsbuild1_amd64.deb Size: 126906 MD5sum: aa1577d1b67b48b3064d46d335761ec0 SHA1: 917c72453a3aed343e42eb6c750f067e28fd4837 SHA256: 2a1dd283fa6d1afcdeeabbad24d966a60b7c3ae5948b26546cabc00c1746c29a Section: libdevel Priority: extra Homepage: http://trilinos.org Description: conversion between Epetra and Teuchos objects - development files Xpetra a lightweight wrapper to both Epetra and Tpetra. The Xpetra syntax mirrors that of Tpetra. Xpetra enables algorithm developers to write to a single interface but be able to use either Epetra or Tpetra. Xpetra can also be introduced into existing code to allow for gradual migration. . This package provides headers. Package: libtrilinos-xpetra12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1460 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-epetra12, libtrilinos-epetraext12, libtrilinos-teuchos12, libtrilinos-thyra12, libtrilinos-tpetra12 Filename: ./amd64/libtrilinos-xpetra12_12.10.1-4+obsbuild1_amd64.deb Size: 244130 MD5sum: f5c848461ad4c1a5b10f6ec2bcd41bbf SHA1: a922bb8c4c5a3583ea4067edc2d7a191ed597035 SHA256: fa9188437a830630b59a84b0a286840a49e1dfffdea19aa517cb74eef1d1e727 Section: libs Priority: extra Homepage: http://trilinos.org Description: conversion between Epetra and Teuchos objects - runtime files Xpetra a lightweight wrapper to both Epetra and Tpetra. The Xpetra syntax mirrors that of Tpetra. Xpetra enables algorithm developers to write to a single interface but be able to use either Epetra or Tpetra. Xpetra can also be introduced into existing code to allow for gradual migration. . This package contains the dynamic libraries. Package: libtrilinos-zoltan-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 241 Depends: libtrilinos-zoltan12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-zoltan-dev_12.10.1-4+obsbuild1_amd64.deb Size: 33624 MD5sum: 2a61b204009e4aedc9db21cfb7c43487 SHA1: cb9a60ceefce71ee1869547b7c3d511544be00b1 SHA256: 92623a0987d9f2a5fccc33880cbb62a2ee47004bae790b1ea152a01f97b5b1b1 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: parallel dynamic load balancing - development files Zoltan is a toolkit of parallel services for dynamic, unstructured, and/or adaptive simulations. Zoltan provides parallel dynamic load balancing and related services for a wide variety of applications, including finite element methods, matrix operations, particle methods, and crash simulations. Zoltan also provides parallel graph coloring, matrix ordering, unstructured communication tools, and distributed data directories. . This package provides headers. Package: libtrilinos-zoltan12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 893 Depends: libc6 (>= 2.14), libopenmpi1.10 Filename: ./amd64/libtrilinos-zoltan12_12.10.1-4+obsbuild1_amd64.deb Size: 371672 MD5sum: e7523297a2c90c35735e0efc801f1912 SHA1: d749926033221b567d7f8601ec7ad80309eee29a SHA256: f03ff58fb8074a9b0e58af04dfc36050c79a7274e5a415cfd8d1a65bf6ca5e79 Section: libs Priority: extra Homepage: http://trilinos.org Description: parallel dynamic load balancing - runtime files Zoltan is a toolkit of parallel services for dynamic, unstructured, and/or adaptive simulations. Zoltan provides parallel dynamic load balancing and related services for a wide variety of applications, including finite element methods, matrix operations, particle methods, and crash simulations. Zoltan also provides parallel graph coloring, matrix ordering, unstructured communication tools, and distributed data directories. . This package contains the dynamic libraries. Package: libtrilinos-zoltan2-12 Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 519 Depends: libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libstdc++6 (>= 5.2), libtrilinos-teuchos12 Filename: ./amd64/libtrilinos-zoltan2-12_12.10.1-4+obsbuild1_amd64.deb Size: 138736 MD5sum: 586f59870c7a46c86fbc7678aeda4a58 SHA1: 405de5c2e74c4bab4efda56525760ff64a32391b SHA256: 647d81d2a7fe599d4b4df75ca2b5dd8edffb6941804ec674411b2a6fa99b1017 Section: libs Priority: extra Homepage: http://trilinos.org Description: Trilinos next generation load balancing package - runtime files Zoltan2 is a package for load balancing and combinatorial scientific computing. It may be viewed as a successor to the popular Zoltan and Isorropia packages. . This package contains the dynamic libraries. Package: libtrilinos-zoltan2-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 1662 Depends: libtrilinos-zoltan2-12 (= 12.10.1-4+obsbuild1), trilinos-dev Suggests: trilinos-doc Filename: ./amd64/libtrilinos-zoltan2-dev_12.10.1-4+obsbuild1_amd64.deb Size: 221468 MD5sum: 94817957daa1e9961cadcf24fdd63551 SHA1: 0ac0614bfa69d9b6a876cae18e2023a046d6dd7b SHA256: c740e96f82ae8133ed0dc657159ac86e0e5414dafc4a831371f6bc666154f810 Section: libdevel Priority: extra Homepage: http://trilinos.org Description: Trilinos next generation load balancing package - development files Zoltan2 is a package for load balancing and combinatorial scientific computing. It may be viewed as a successor to the popular Zoltan and Isorropia packages. . This package provides headers. Package: mshr-demos Source: mshr Version: 2017.1.0-1~ppa2~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 70 Depends: libmshr-dev (>= 2017.1.0-1~ppa2~xenial1), python-mshr (>= 2017.1.0-1~ppa2~xenial1), libdolfin-dev (>= 2017.1.0), python-dolfin (>= 2017.1.0) Filename: ./all/mshr-demos_2017.1.0-1~ppa2~xenial1_all.deb Size: 17632 MD5sum: 809ef409c4c142021952d6edf8f99df3 SHA1: 99aa4a13e3460ab50f4af932a825eee4be86745e SHA256: 1bbf850e3d9dec70cbe123cf77f1070cd55a97ab8f25083e21ba55a0100abf6c Section: doc Priority: optional Homepage: http://fenicsproject.org Description: Examples and demo programs for mshr mshr generates simplicial DOLFIN meshes in 2D and 3D from geometries described by Constructive Solid Geometry (CSG) or from surface files, utilizing CGAL and Tetgen as mesh generation backends. . This package contains examples and demo programs. Original-Maintainer: Debian Science Team Package: petsc-dev Source: petsc Version: 3.7.3-1+obsbuild Architecture: all Maintainer: Johannes Ring Installed-Size: 30 Depends: libpetsc3.7-dev Suggests: libpetsc3.7.3-dbg Filename: ./all/petsc-dev_3.7.3-1+obsbuild_all.deb Size: 19458 MD5sum: c02f0001b115440cb865a549a80f751f SHA1: 4e95f8d67feb0f36cb4df86caee02f94f208fa6e SHA256: 778c16dbdf24c589e8cf9d24d14c056411d3c3290c0d1e9c49a9fe7ce8dac4c1 Section: libdevel Priority: extra Homepage: http://www.mcs.anl.gov/petsc Description: Virtual package depending on latest PETSc development package PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This metapackage will always depend on the most recent version of petscX-dev (X=version), so if you install it then you will get upgrades automatically. Original-Maintainer: Debian Science Maintainers Package: petsc3.7.3-doc Source: petsc Version: 3.7.3-1+obsbuild Architecture: all Maintainer: Johannes Ring Installed-Size: 19887 Suggests: libpetsc3.7.3-dev (= 3.7.3-1+obsbuild), illuminator-doc Filename: ./all/petsc3.7.3-doc_3.7.3-1+obsbuild_all.deb Size: 1557584 MD5sum: 07f8f6f49be6992d23295e0f6b443d00 SHA1: e8fe213a793634de5be6b353fb19bea4076a71e8 SHA256: 4104660517c4469ac0c5eae5fd6bea1a72e66c8e5aa3167548f823c9147aaa00 Section: doc Priority: extra Homepage: http://www.mcs.anl.gov/petsc Description: Documentation and examples for PETSc PETSc is the "Portable Extensible Toolkit for Scientific Computation", a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. Several sample scientific applications, as well as various papers and talks, demonstrate the features of the PETSc libraries. . This package contains documentation for developing with PETSc 3.7.3. Original-Maintainer: Debian Science Maintainers Package: python-dijitso Source: dijitso Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 116 Depends: python-numpy, python-six, python-mpi4py, python-subprocess32, python:any (<< 2.8), python:any (>= 2.7.5-5~) Filename: ./all/python-dijitso_2017.1.0-1~ppa1~xenial1_all.deb Size: 23356 MD5sum: c6a91ec42a3a2ada36231d65df34ad76 SHA1: 60d5eb41808169b3e9c01acb8ddb2b1084119d1f SHA256: 6d3a33180e2e175f6f4255b7cb26b73880e293073c0c8a415214d87247d2ec21 Section: python Priority: optional Homepage: https://fenicsproject.org Description: distributed just-in-time building of shared libraries (Python 2) Dijitso was written to improve a core component of the FEniCS framework, namely the just in time compilation of C++ code that is generated from Python modules, but is only called from within a C++ library, and thus do not need wrapping in a nice Python interface. . The main approach of dijitso is to use ctypes to import the dynamic shared library directly with no attempt at wrapping it in a Python interface. . As long as the compiled code can provide a simple factory function to a class implementing a predefined C++ interface, there is no limit to the complexity of that interface as long as it is only called from C++ code, If you want a Python interface to your generated code, dijitso is probably not the answer. . Although dijitso serves a very specific role within the FEniCS project, it does not depend on other FEniCS components. . The parallel support depends on the mpi4py interface, although mpi4py is not actually imported within the dijitso module so it would be possible to mock the communicator object with a similar interface. . This package installs the library for Python 2. Original-Maintainer: Debian Science Team Package: python-dolfin Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 7047 Depends: libdolfin-dev (= 2017.1.0-1~ppa6~xenial1), libdolfin2017.1 (= 2017.1.0-1~ppa6~xenial1), python-ffc (>= 2017.1.0), python-ffc (<< 2017.2~), python-dijitso (>= 2017.1.0), python-dijitso (<< 2017.2~), python-instant (>= 2017.1.0), python-instant (<< 2017.2~), python-numpy (>= 1:1.10.0~b1), python-ply, python-six, python-sympy, python-ufl (>= 2017.1.0), python-ufl (<< 2017.2~), python-petsc4py (>= 3.7), python-petsc4py (<< 3.8), python-slepc4py (>= 3.7), python-slepc4py (<< 3.8), python-numpy-abi9, python (<< 2.8), python (>= 2.7~), python:any (>= 2.7.5-5~), libboost-system1.58.0, libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libpetsc3.7.3, libpython2.7 (>= 2.7), libstdc++6 (>= 5.2), swig3.0 (>= 3.0.8), swig3.0 (<< 3.0.9~) Suggests: dolfin-doc Filename: ./amd64/python-dolfin_2017.1.0-1~ppa6~xenial1_amd64.deb Size: 1119896 MD5sum: efe013fd047c6a87df27e35c9a3ee103 SHA1: 53213014820f0e18697440c07ae447b1a9a6a4e0 SHA256: d2b80857b443d306ba728d4c211e055dad199558646dcdc85fbeeb38c444452e Section: python Priority: extra Homepage: http://fenicsproject.org Description: Python interface for DOLFIN (Python 2) DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the Python interface for DOLFIN (Python 2). Original-Maintainer: Debian Science Team Package: python-dolfin-dbg Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 9437 Depends: python-dolfin (= 2017.1.0-1~ppa6~xenial1), python-numpy (>= 1:1.10.0~b1), python-numpy-abi9 Suggests: dolfin-doc Filename: ./amd64/python-dolfin-dbg_2017.1.0-1~ppa6~xenial1_amd64.deb Size: 8358418 MD5sum: ebfef615c6c8b79611ecb5342a042682 SHA1: e28897855626a692539c628d05c21d837420f2dc SHA256: ce704dfc61bb3142a839d50ab0025cc6fdaeb3bbf0f584008ec8c2bb986ccd69 Section: debug Priority: extra Homepage: http://fenicsproject.org Description: Python 2 extension modules for DOLFIN with debugging symbols DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the Python 2 extensions modules for DOLFIN with debugging symbols. Build-Ids: 264af7f8ad8dbfdf4190130ed67ab2fe54b2cff7 7c9d495721bee79ffc91d2490c9c0a9f5ccbe46b 8bc4251b60c067f3ad179210224f759f4f672fd9 b3b5e6d47b55ac1827cca23129eace4b32c5a930 e1783ff01c5c6c14a890efc4f31fb356ff7871a4 fdd4f159647d22206abb886aa3a3d94e4e88819b Original-Maintainer: Debian Science Team Package: python-ffc Source: ffc Version: 2017.1.0-1~ppa2~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 1566 Depends: python-fiat (>= 2017.1.0), python-fiat (<< 2017.2~), python-instant (>= 2017.1.0), python-instant (<< 2017.2~), python-ufl (>= 2017.1.0), python-ufl (<< 2017.2~), python-dijitso (>= 2017.1.0), python-dijitso (<< 2017.2~), python-numpy, python-six, python:any (<< 2.8), python:any (>= 2.7.5-5~) Conflicts: python-ufc, ufc Replaces: python-ufc, ufc Provides: python-ufc, ufc Filename: ./all/python-ffc_2017.1.0-1~ppa2~xenial1_all.deb Size: 236366 MD5sum: f5a67fee8514f58c9513c35917ec176d SHA1: 6ddb95263ffd6cce7fe21b86dea6c377463df8d9 SHA256: be13a9173a4565ecf0364eceabe457fc99fc91630d7880bdfafd22df3a432d7e Section: python Priority: extra Homepage: http://fenicsproject.org Description: compiler for finite element variational forms (Python 2) The FEniCS Form Compiler FFC provides state-of-the-art automatic and efficient evaluation of general multilinear forms (variational formulations) for FEniCS. FFC functions as the form evaluation system for DOLFIN but can also be used to compile forms for other systems. . FFC works as a compiler for multilinear forms by generating code (C or C++) for the evaluation of a multilinear form given in mathematical notation. This new approach to form evaluation makes it possible to combine generality with efficiency; the form can be given in mathematical notation and the generated code is as efficient as hand-optimized code. . This package installs the library for Python 2. Original-Maintainer: Debian Science Team Package: python-fiat Source: fiat Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 305 Depends: python-numpy, python-sympy, python-six, python:any (<< 2.8), python:any (>= 2.7.5-5~) Filename: ./all/python-fiat_2017.1.0-1~ppa1~xenial1_all.deb Size: 50888 MD5sum: 990f693e8d05e174fddb12d2c015a727 SHA1: 8aed36ca5d3c542dad11b9e3a1390f12af06e203 SHA256: 6229df7c55993f1d30039bd27eb32ca8e5ee5769be9c4e85a39c3785ec3dfb80 Section: python Priority: extra Homepage: http://fenicsproject.org Description: tabulation of finite element function spaces (Python 2) The FInite element Automatic Tabulator FIAT supports generation of arbitrary order instances of the Lagrange elements on lines, triangles, and tetrahedra. Other supported elements include arbitrary order Raviart-Thomas elements, Brezzi-Douglas-Marini elements and a few others. . This package installs the library for Python 2. Original-Maintainer: Debian Science Team Package: python-getfem++ Source: getfem++ Version: 4.2.1~beta1~svn4635~dfsg-5ubuntu2 Architecture: amd64 Maintainer: Ubuntu Developers Installed-Size: 5157 Depends: libgetfem4++v5 (= 4.2.1~beta1~svn4635~dfsg-5ubuntu2), python (<< 2.8), python (>= 2.7), python-numpy (>= 1:1.10.0~b1), python-numpy-abi9, libblas3 | libblas.so.3, libc6 (>= 2.14), libgcc1 (>= 1:3.0), libmetis5, libmumps-seq-4.10.0, libmuparser2v5 (>= 2.2.3), libstdc++6 (>= 5.2) Provides: python2.7-getfem++ Filename: ./amd64/python-getfem++_4.2.1~beta1~svn4635~dfsg-5ubuntu2_amd64.deb Size: 1284094 MD5sum: b357c1897439c8e61d07c4b39232463e SHA1: 9bc6dc39d163616c5c5a06dca3e5191bea370ed6 SHA256: b5549e9d866001e21a774b62a492b53b91a7b6e4203c6d5cc163ee351792ea67 Section: python Priority: extra Homepage: http://home.gna.org/getfem/ Description: Python interface to the GETFEM++ generic finite element library GETFEM++ is a library allowing the computation of any elementary matrix (even for mixed finite element methods) on the largest class of methods and elements, and for arbitrary dimension. . This package contains the Python interface to GETFEM++. Original-Maintainer: Debian Science Team Package: python-instant Source: instant Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 192 Depends: build-essential, cmake, swig, pkg-config, python-dev, python-six, python-numpy, python-subprocess32, python:any (<< 2.8), python:any (>= 2.7.5-5~) Filename: ./all/python-instant_2017.1.0-1~ppa1~xenial1_all.deb Size: 32826 MD5sum: 52f4221099120186c52ba1691eb88579 SHA1: 4d85d150f6154f3254df9d0b3ddaaf6dbf140df2 SHA256: 245531ecea72de6442644fa0c171a92f5770ac14cf725f7c9b8dd052cd5dafe8 Section: python Priority: extra Homepage: http://fenicsproject.org Description: simple inlining of C/C++ code in Python 2 Instant is a Python module that allows for instant inlining of C and C++ code in Python. It is a small Python module built on top of SWIG and Distutils. . Instant is part of the FEniCS project . . This package installs the library for Python 2. Original-Maintainer: Debian Science Team Package: python-mshr Source: mshr Version: 2017.1.0-1~ppa2~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 575 Depends: libmshr-dev (= 2017.1.0-1~ppa2~xenial1), libmshr2017.1 (= 2017.1.0-1~ppa2~xenial1), python-dolfin (>= 2017.1.0), dolfin-bin (>= 2017.1.0), swig3.0 (>= 3.0.8), swig3.0 (<< 3.0.9~), python-numpy (>= 1:1.10.0~b1), python-numpy-abi9, python (<< 2.8), python (>= 2.7~), python:any (>= 2.7.5-5~), libc6 (>= 2.14), libdolfin2017.1, libgcc1 (>= 1:3.0), libpython2.7 (>= 2.7), libstdc++6 (>= 5.2) Filename: ./amd64/python-mshr_2017.1.0-1~ppa2~xenial1_amd64.deb Size: 108094 MD5sum: 16de9377731cac49b47e4c6e5d5d8909 SHA1: b87f04de01b35b46b64cc6f0d7cd1bb2308d2505 SHA256: 5c05f794b155541b058f8b3fb32d88a9c2db41cdcd639f8cc1fa2c44231bdffd Section: python Priority: optional Homepage: http://fenicsproject.org Description: Python interface for mshr mshr generates simplicial DOLFIN meshes in 2D and 3D from geometries described by Constructive Solid Geometry (CSG) or from surface files, utilizing CGAL and Tetgen as mesh generation backends. . This package contains the Python interface for DOLFIN. Original-Maintainer: Debian Science Team Package: python-petsc4py Source: petsc4py Version: 3.7.0-3~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 3073 Depends: python (<< 2.8), python (>= 2.7~), python-numpy (>= 1:1.10.0~b1), python-numpy-abi9, python:any (>= 2.7.5-5~), libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libpetsc3.7.3, libstdc++6 (>= 4.1.1) Recommends: python-petsc4py-docs Conflicts: python-petsc Replaces: python-petsc Provides: python2.7-petsc4py Filename: ./amd64/python-petsc4py_3.7.0-3~ppa1~xenial1_amd64.deb Size: 726164 MD5sum: 5fd66c96dcfad7bec271e496da2b7b52 SHA1: c5cfbe7adc75945da87839e328898c1da7f9a04c SHA256: 5e4179d6a86f046fa88ebdee0dcea5867230059e87dc308734a12fd20b15d499 Section: python Priority: extra Homepage: https://bitbucket.org/petsc/petsc4py Description: Python 2 bindings for PETSc libraries PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This package provides Python 2 bindings to almost all functions of PETSc. Original-Maintainer: Debian Science Maintainers Python-Version: 2.7 Package: python-petsc4py-docs Source: petsc4py Version: 3.7.0-3~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 3770 Depends: python-numpy Recommends: python-petsc4py | python3-petsc4py Conflicts: python-petsc Breaks: python-petsc4py (<< 3.7.0-3) Filename: ./all/python-petsc4py-docs_3.7.0-3~ppa1~xenial1_all.deb Size: 551186 MD5sum: 08fc85ec02025e2494a948eb03d1f5aa SHA1: 26e38bd09d8c872e0a1bf00ebd4465917629b834 SHA256: 06e6395ea2073c227bca06808b0f397ddfaa5e8f2f25a1a4eda543952202f781 Section: python Priority: extra Homepage: https://bitbucket.org/petsc/petsc4py Description: Python bindings for PETSc libraries: documentation and examples PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . petsc4py provides Python bindings to almost all functions of PETSc. This package provides documentation and examples for petsc4py. Original-Maintainer: Debian Science Maintainers Package: python-slepc4py Source: slepc4py Version: 3.7.0-3~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 792 Depends: python-petsc4py (>= 3.7), python-petsc4py (<< 3.8), python (<< 2.8), python (>= 2.7~), python-numpy (>= 1:1.10.0~b1), python-numpy-abi9, python:any (>= 2.7.5-5~), libc6 (>= 2.4), libgcc1 (>= 1:3.0), libopenmpi1.10, libpetsc3.7.3, libslepc3.7.2, libstdc++6 (>= 4.1.1) Recommends: python-slepc4py-docs Provides: python2.7-slepc4py Filename: ./amd64/python-slepc4py_3.7.0-3~ppa1~xenial1_amd64.deb Size: 155242 MD5sum: 5ec730fc5432b1cb46c6c9b399b7b10d SHA1: 0e7d59de4431409fe29638b9c60aec08e4925a11 SHA256: 8a1aa26cc5c3aa1332d2b41b99c4b55a871c88ef98c59ccb704006525710d74a Section: python Priority: extra Homepage: https://bitbucket.org/slepc/slepc4py Description: Python 2 bindings for SLEPc libraries SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This package provides Python 2 bindings to almost all functions of SLEPc. Original-Maintainer: Debian Science Maintainers Python-Version: 2.7 Package: python-slepc4py-docs Source: slepc4py Version: 3.7.0-3~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 2559 Recommends: python-slepc4py | python3-slepc4py Breaks: python-slepc4py (<< 3.7.0-3) Filename: ./all/python-slepc4py-docs_3.7.0-3~ppa1~xenial1_all.deb Size: 436362 MD5sum: 312c2ba3cead63b4e465eb9b069e633a SHA1: a55dc9f0432a45432e2dbd5bacecd7f4cba58f0f SHA256: 55f2cc5d450b852a4620bcf6608347b59021ca6d11fd27711fe49adc311b4ad0 Section: python Priority: extra Homepage: https://bitbucket.org/slepc/slepc4py Description: Python bindings for SLEPc libraries: documentation and examples SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . slepc4py provides Python bindings to almost all functions of SLEPc. This package provides documentation and examples. Original-Maintainer: Debian Science Maintainers Package: python-ufl Source: ufl Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 911 Depends: python-numpy, python-six, python:any (<< 2.8), python:any (>= 2.7.5-5~) Suggests: python-ufl-doc Filename: ./all/python-ufl_2017.1.0-1~ppa1~xenial1_all.deb Size: 152008 MD5sum: 507c83f46032bb20ac83ee3e5c983bee SHA1: 1a0ef7d3590ca7daaf71af15a325ff27f89cb547 SHA256: 72dafb91defb0c4b99a051d680e3eab04f3f54b87bb8ca2137143734663a0a22 Section: python Priority: optional Homepage: http://fenicsproject.org Description: unified language for form-compilers (Python 2) UFL (Unified Form Language) is a unified language for definition of variational forms intended for finite element discretization. More precisely, it defines a fixed interface for choosing finite element spaces and defining expressions for weak forms in a notation close to mathematical notation. The form compilers FFC and SyFi use UFL as their end-user interface, producing UFC implementations as their output. . This package installs the library for Python 2. Original-Maintainer: Debian Science Team Package: python-ufl-doc Source: ufl Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 80 Filename: ./all/python-ufl-doc_2017.1.0-1~ppa1~xenial1_all.deb Size: 12834 MD5sum: 0dc7906ba456e3b33c3c6ba61ff21c55 SHA1: 17b8f2fe66b7534319ec26df5d23caba5ffcef03 SHA256: b2e4748cab49c6be63585d790fc2d9108f011df650c92e34751f99cf7eba0db1 Section: doc Priority: optional Homepage: http://fenicsproject.org Description: documentation and demos for UFL UFL (Unified Form Language) is a unified language for definition of variational forms intended for finite element discretization. More precisely, it defines a fixed interface for choosing finite element spaces and defining expressions for weak forms in a notation close to mathematical notation. The form compilers FFC and SyFi use UFL as their end-user interface, producing UFC implementations as their output. . This package contains documentation and demos for UFL. Original-Maintainer: Debian Science Team Package: python3-dijitso Source: dijitso Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 116 Depends: python3-numpy, python3-six, python3-mpi4py, python3:any (>= 3.4~) Suggests: python-dijitso-doc Filename: ./all/python3-dijitso_2017.1.0-1~ppa1~xenial1_all.deb Size: 23410 MD5sum: d83d909f0e98e662177de42936e609bd SHA1: 7aee3cf4e199ed52bb7b6abdd4dfc11512ab0b73 SHA256: 358313efa3cc13150cf459a0b2bddb2a0177880af927740246684ae4fcd3ba91 Section: python Priority: optional Homepage: https://fenicsproject.org Description: distributed just-in-time building of shared libraries (Python 3) Dijitso was written to improve a core component of the FEniCS framework, namely the just in time compilation of C++ code that is generated from Python modules, but is only called from within a C++ library, and thus do not need wrapping in a nice Python interface. . The main approach of dijitso is to use ctypes to import the dynamic shared library directly with no attempt at wrapping it in a Python interface. . As long as the compiled code can provide a simple factory function to a class implementing a predefined C++ interface, there is no limit to the complexity of that interface as long as it is only called from C++ code, If you want a Python interface to your generated code, dijitso is probably not the answer. . Although dijitso serves a very specific role within the FEniCS project, it does not depend on other FEniCS components. . The parallel support depends on the mpi4py interface, although mpi4py is not actually imported within the dijitso module so it would be possible to mock the communicator object with a similar interface. . This package installs the library for Python 3. Original-Maintainer: Debian Science Team Package: python3-dolfin Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 7085 Depends: libdolfin-dev (= 2017.1.0-1~ppa6~xenial1), libdolfin2017.1 (= 2017.1.0-1~ppa6~xenial1), python3-ffc (>= 2017.1.0), python3-ffc (<< 2017.2~), python3-dijitso (>= 2017.1.0), python3-dijitso (<< 2017.2~), python3-instant (>= 2017.1.0), python3-instant (<< 2017.2~), python3-numpy (>= 1:1.10.0~b1), python3-ply, python3-six, python3-sympy, python3-ufl (>= 2017.1.0), python3-ufl (<< 2017.2~), python3-petsc4py (>= 3.7), python3-petsc4py (<< 3.8), python3-slepc4py (>= 3.7), python3-slepc4py (<< 3.8), python3-numpy-abi9, python3 (<< 3.6), python3 (>= 3.5~), libboost-system1.58.0, libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libpetsc3.7.3, libpython3.5 (>= 3.5.0~b1), libstdc++6 (>= 5.2) Suggests: dolfin-doc Filename: ./amd64/python3-dolfin_2017.1.0-1~ppa6~xenial1_amd64.deb Size: 1119984 MD5sum: 745dacafac9871a9a39c995e577a1d59 SHA1: 31c88623fb8ac738be4fda426e46e758064edc73 SHA256: 5399fde42e192053b9dddd7e0586ec22338d8003a47fa14c7f9f3fecb449f47a Section: python Priority: extra Homepage: http://fenicsproject.org Description: Python interface for DOLFIN (Python 3) DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the Python interface for DOLFIN (Python 3). Original-Maintainer: Debian Science Team Package: python3-dolfin-dbg Source: dolfin Version: 2017.1.0-1~ppa6~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 9453 Depends: python3-dolfin (= 2017.1.0-1~ppa6~xenial1), python3-numpy (>= 1:1.10.0~b1), python3-numpy-abi9 Suggests: dolfin-doc Filename: ./amd64/python3-dolfin-dbg_2017.1.0-1~ppa6~xenial1_amd64.deb Size: 8377352 MD5sum: fb7fdcc29b913ebb2c33faa4682a6610 SHA1: a683bd0732dd524bd64e8d97a7ba11306a0d7e7d SHA256: fc69ff41aab78da1f0df85a2a860d0f8f94f09113efbff7e654ade153dce155e Section: debug Priority: extra Homepage: http://fenicsproject.org Description: Python 3 extension modules for DOLFIN with debugging symbols DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the Python 3 extensions modules for DOLFIN with debugging symbols. Build-Ids: 26fc63f05629f302b412338711b4fdef6daf6e9d 3874c648ed6a8b84f0f7383f6ae1499b9d01471a 4b8e119804fc595dfc6c220dc5b5561170d6c79f 5f61e174b2e2d77fda591ceeead15f5b377b17ca d849e7cd6f87fdab6ed5cd04beac19b5af5c06d9 f7407df0b463037c184e0bdef6fdebab4e8fb7a4 Original-Maintainer: Debian Science Team Package: python3-ffc Source: ffc Version: 2017.1.0-1~ppa2~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 1463 Depends: python3-fiat (>= 2017.1.0), python3-fiat (<< 2017.2~), python3-instant (>= 2017.1.0), python3-instant (<< 2017.2~), python3-ufl (>= 2017.1.0), python3-ufl (<< 2017.2~), python3-dijitso (>= 2017.1.0), python3-dijitso (<< 2017.2~), python3-numpy, python3-six, python3:any (>= 3.3.2-2~) Filename: ./all/python3-ffc_2017.1.0-1~ppa2~xenial1_all.deb Size: 225944 MD5sum: b924fe6e15dde744b098491596a102b8 SHA1: 10a4e5c511a48070e2ea7ef61e3973ef8540f94b SHA256: d2c8a1bf1a6fa3241527e9efbbb7b6fb0701b9a5f378e54cb583333a2cc78fac Section: python Priority: extra Homepage: http://fenicsproject.org Description: compiler for finite element variational forms (Python 3) The FEniCS Form Compiler FFC provides state-of-the-art automatic and efficient evaluation of general multilinear forms (variational formulations) for FEniCS. FFC functions as the form evaluation system for DOLFIN but can also be used to compile forms for other systems. . FFC works as a compiler for multilinear forms by generating code (C or C++) for the evaluation of a multilinear form given in mathematical notation. This new approach to form evaluation makes it possible to combine generality with efficiency; the form can be given in mathematical notation and the generated code is as efficient as hand-optimized code. . This package installs the library for Python 3. Original-Maintainer: Debian Science Team Package: python3-fiat Source: fiat Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 305 Depends: python3-numpy, python3-sympy, python3-six, python3:any (>= 3.4~) Filename: ./all/python3-fiat_2017.1.0-1~ppa1~xenial1_all.deb Size: 50956 MD5sum: a2516e4da622f24e3c998f243da30ed1 SHA1: 532140b73ca3bea83f996e4181eaf5d6cbde8d9f SHA256: b9969622aa52ea4a216f05645194d20a5bb6b672f14c66cf411dab20eb7c34ab Section: python Priority: extra Homepage: http://fenicsproject.org Description: tabulation of finite element function spaces (Python 3) The FInite element Automatic Tabulator FIAT supports generation of arbitrary order instances of the Lagrange elements on lines, triangles, and tetrahedra. Other supported elements include arbitrary order Raviart-Thomas elements, Brezzi-Douglas-Marini elements and a few others. . This package installs the library for Python 3. Original-Maintainer: Debian Science Team Package: python3-instant Source: instant Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 190 Depends: build-essential, cmake, swig, pkg-config, python3-dev, python3-six, python3-numpy, python3:any (>= 3.4~) Filename: ./all/python3-instant_2017.1.0-1~ppa1~xenial1_all.deb Size: 32268 MD5sum: cd667d02ec7a16630803e49b931d68d3 SHA1: 4d63ee6630b4dea9f1a9fc2d1900eaa1fc539a65 SHA256: 45b88b2cb4f71597ec4016311c9754f45da02a2f8dfb3d3ef1b107e48af62312 Section: python Priority: extra Homepage: http://fenicsproject.org Description: simple inlining of C/C++ code in Python 3 Instant is a Python module that allows for instant inlining of C and C++ code in Python. It is a small Python module built on top of SWIG and Distutils. . Instant is part of the FEniCS project . . This package installs the library for Python 3. Original-Maintainer: Debian Science Team Package: python3-petsc4py Source: petsc4py Version: 3.7.0-3~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 3045 Depends: python3 (<< 3.6), python3 (>= 3.5~), python3-numpy (>= 1:1.10.0~b1), python3-numpy-abi9, libc6 (>= 2.14), libgcc1 (>= 1:3.0), libopenmpi1.10, libpetsc3.7.3, libstdc++6 (>= 4.1.1) Recommends: python-petsc4py-docs Filename: ./amd64/python3-petsc4py_3.7.0-3~ppa1~xenial1_amd64.deb Size: 724520 MD5sum: 61eea1c8a71829baad6cb187a13abefa SHA1: 4e98b279a5c978ce004efd58554ae2c7a8242e76 SHA256: 6eba24cad1a97fab54ab0a0810c8c5d5bb1f66ad257e83adaf305af4604038ea Section: python Priority: extra Homepage: https://bitbucket.org/petsc/petsc4py Description: Python 3 bindings for PETSc libraries PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of PETSc. Original-Maintainer: Debian Science Maintainers Python-Version: 3.5 Package: python3-slepc4py Source: slepc4py Version: 3.7.0-3~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 792 Depends: python3-petsc4py (>= 3.7), python3-petsc4py (<< 3.8), python3 (<< 3.6), python3 (>= 3.5~), libc6 (>= 2.4), libgcc1 (>= 1:3.0), libopenmpi1.10, libpetsc3.7.3, libslepc3.7.2, libstdc++6 (>= 4.1.1) Recommends: python-slepc4py-docs Provides: python3.5-slepc4py Filename: ./amd64/python3-slepc4py_3.7.0-3~ppa1~xenial1_amd64.deb Size: 155304 MD5sum: 93dfeb4ea7160093bcb034bc6a2d7ba2 SHA1: 13e7e6998fe1a708ac3232b551fe7676bc61dfbf SHA256: ba7a040f4b0e527e3d9233f06698a2e7b384d3a48792b21da8ea20b8e43af6ec Section: python Priority: extra Homepage: https://bitbucket.org/slepc/slepc4py Description: Python 3 bindings for SLEPc libraries SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of SLEPc. Original-Maintainer: Debian Science Maintainers Python-Version: 3.5 Package: python3-ufl Source: ufl Version: 2017.1.0-1~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 908 Depends: python3-numpy, python3-six, python3:any (>= 3.4~) Suggests: python-ufl-doc Filename: ./all/python3-ufl_2017.1.0-1~ppa1~xenial1_all.deb Size: 151532 MD5sum: 0d9f720f017e075c515082c7ace2a68d SHA1: 67a0f1800a77a4ca3a269f11927080575e7ae97a SHA256: 6391fd6f6b9761e83ab881292c0e2c8c82bfa6325fe7b0d7c909600722e209ab Section: python Priority: optional Homepage: http://fenicsproject.org Description: unified language for form-compilers (Python 3) UFL (Unified Form Language) is a unified language for definition of variational forms intended for finite element discretization. More precisely, it defines a fixed interface for choosing finite element spaces and defining expressions for weak forms in a notation close to mathematical notation. The form compilers FFC and SyFi use UFL as their end-user interface, producing UFC implementations as their output. . This package installs the library for Python 3. Original-Maintainer: Debian Science Team Package: qownnotes Version: 17.09.1-1ubuntu3ppa1~xenial1 Architecture: amd64 Maintainer: Patrizio Bekerle Installed-Size: 7427 Depends: libc6 (>= 2.15), libgcc1 (>= 1:3.0), libqt5core5a (>= 5.5.0), libqt5gui5 (>= 5.3.0) | libqt5gui5-gles (>= 5.3.0), libqt5network5 (>= 5.0.2), libqt5printsupport5 (>= 5.0.2), libqt5qml5 (>= 5.0.2), libqt5sql5 (>= 5.0.2), libqt5widgets5 (>= 5.3.0), libqt5xml5 (>= 5.0.2), libqt5xmlpatterns5 (>= 5.0.2), libstdc++6 (>= 5.2), libqt5gui5, libqt5sql5-sqlite, libqt5svg5, openssl Filename: ./amd64/qownnotes_17.09.1-1ubuntu3ppa1~xenial1_amd64.deb Size: 1792168 MD5sum: 04b7ecc5544588882340ebf8888903f9 SHA1: e4ab1cae9430ce0e7cb276c9d419e2711206b303 SHA256: 69e92558c95d456e40fd559c4c9d59a1361cea3de64da64d637f66be7c3b1419 Section: editors Priority: optional Homepage: http://www.qownnotes.org Description: Plain text notepad and todo list manager with markdown support that works together with ownCloud QOwnNotes is the text notepad and todo list manager with markdown support that works together with ownCloud. You own your own notes! All notes are stored as plain-text files on your desktop computer. Sync them over devices (desktop & mobile) with ownCloud. Use ownCloud Notes to edit your notes in the web. Package: scilab-getfem++ Source: getfem++ Version: 4.2.1~beta1~svn4635~dfsg-5ubuntu2 Architecture: amd64 Maintainer: Ubuntu Developers Installed-Size: 29055 Depends: libgetfem4++v5 (= 4.2.1~beta1~svn4635~dfsg-5ubuntu2), scilab, libc6 (>= 2.14), libgcc1 (>= 1:4.0), libmuparser2v5 (>= 2.2.3), libqhull7, libstdc++6 (>= 5.2) Filename: ./amd64/scilab-getfem++_4.2.1~beta1~svn4635~dfsg-5ubuntu2_amd64.deb Size: 7383696 MD5sum: 115047925782a0d3f4ae7f89b5905a22 SHA1: cff700ed0cfbb1d3367fbf727bc261603d0551fb SHA256: 9abd8baa66bcbc6f7b5988c7b4fc307da4ca3d8d969660c89ceb8515219cd988 Section: libs Priority: extra Multi-Arch: same Homepage: http://home.gna.org/getfem/ Description: Scilab interface to the GETFEM++ generic finite element library GETFEM++ is a library allowing the computation of any elementary matrix (even for mixed finite element methods) on the largest class of methods and elements, and for arbitrary dimension. . This package contains the Scilab interface to GETFEM++. Original-Maintainer: Debian Science Team Package: slepc-dev Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: amd64 Maintainer: Johannes Ring Installed-Size: 21 Depends: libslepc3.7-dev Filename: ./amd64/slepc-dev_3.7.2+dfsg1-2~ppa1~xenial1_amd64.deb Size: 8534 MD5sum: f97baaf309a035faa3e39e8a81653b9a SHA1: 485c040b50e4a9617512bfb5a52bbb0476a6944a SHA256: 9b8f717c053d8d7773fb32a12990b325caa08ba9df3ed294f7b579aefbfc72ab Section: libdevel Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This is a virtual package which depends on the latest version of SLEPc. Original-Maintainer: Debian Science Maintainers Package: slepc3.7.2-doc Source: slepc Version: 3.7.2+dfsg1-2~ppa1~xenial1 Architecture: all Maintainer: Johannes Ring Installed-Size: 5717 Suggests: libslepc3.7.2-dev (= 3.7.2+dfsg1-2~ppa1~xenial1) Filename: ./all/slepc3.7.2-doc_3.7.2+dfsg1-2~ppa1~xenial1_all.deb Size: 572818 MD5sum: cd11aeffbd476e4b864659f4fd412853 SHA1: 381df6af4490a1ed027491aa1908689c9a776e68 SHA256: 6642fa5c158b21aad5eef997610bf8a73c1d18842495632856d1545229870a5c Section: doc Priority: extra Homepage: http://slepc.upv.es/ Description: Scalable Library for Eigenvalue Problem Computations SLEPc is a software library for the solution of large scale sparse eigenvalue problems on parallel computers. It is an extension of PETSc and can be used for either standard or generalized eigenproblems, with real or complex arithmetic. It can also be used for computing a partial SVD of a large, sparse, rectangular matrix. . This package contains the documentation and examples for SLEPc. Original-Maintainer: Debian Science Maintainers Package: trilinos-all-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 27 Depends: libtrilinos-amesos-dev, libtrilinos-amesos2-dev, libtrilinos-anasazi-dev, libtrilinos-aztecoo-dev, libtrilinos-belos-dev, libtrilinos-epetra-dev, libtrilinos-epetraext-dev, libtrilinos-galeri-dev, libtrilinos-globipack-dev, libtrilinos-ifpack-dev, libtrilinos-ifpack2-dev, libtrilinos-intrepid-dev, libtrilinos-isorropia-dev, libtrilinos-kokkos-dev, libtrilinos-komplex-dev, libtrilinos-ml-dev, libtrilinos-moertel-dev, libtrilinos-muelu-dev, libtrilinos-nox-dev, libtrilinos-optipack-dev, libtrilinos-pamgen-dev, libtrilinos-phalanx-dev, libtrilinos-pike-dev, libtrilinos-piro-dev, libtrilinos-pliris-dev, libtrilinos-rol-dev, libtrilinos-rtop-dev, libtrilinos-rythmos-dev, libtrilinos-sacado-dev, libtrilinos-shards-dev, libtrilinos-shylu-dev, libtrilinos-stokhos-dev, libtrilinos-stratimikos-dev, libtrilinos-teko-dev, libtrilinos-teuchos-dev, libtrilinos-thyra-dev, libtrilinos-tpetra-dev, libtrilinos-trilinoscouplings-dev, libtrilinos-triutils-dev, libtrilinos-xpetra-dev, libtrilinos-zoltan-dev, libtrilinos-zoltan2-dev Suggests: trilinos-doc Filename: ./amd64/trilinos-all-dev_12.10.1-4+obsbuild1_amd64.deb Size: 9814 MD5sum: 871d7c53f74e163e8e62ce89eefe3958 SHA1: f7359e7ed742bf9dec060e8dad4ab97986ae44cf SHA256: 0c8dff75c1b3657a596816a93db8d2d74912a96b3fcc12c6b0834a7646eff6d9 Section: libs Priority: extra Homepage: http://trilinos.org Description: object-oriented framework for large-scale problems - development files (ALL) The Trilinos Project is an effort to develop algorithms and enabling technologies within an object-oriented software framework for the solution of large-scale, complex multi-physics engineering and scientific problems. A unique design feature of Trilinos is its focus on packages. . This package depends on all Trilinos development packages. Package: trilinos-dev Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: amd64 Maintainer: Debian Science Maintainers Installed-Size: 63 Suggests: trilinos-doc Filename: ./amd64/trilinos-dev_12.10.1-4+obsbuild1_amd64.deb Size: 14460 MD5sum: 987d2fc2d54e1f5fd91d03f4d1898496 SHA1: d49866f7ac08d12aa1f7ec27f8728e9a6a44e913 SHA256: 9cde552f9416d4699f5fa799093039cfb595e02c17db15f00de7e3997a91f050 Section: libs Priority: extra Homepage: http://trilinos.org Description: object-oriented framework for large-scale problems - development files The Trilinos Project is an effort to develop algorithms and enabling technologies within an object-oriented software framework for the solution of large-scale, complex multi-physics engineering and scientific problems. A unique design feature of Trilinos is its focus on packages. . This package contains the development header and some makefile templates. Package: trilinos-doc Source: trilinos Version: 12.10.1-4+obsbuild1 Architecture: all Maintainer: Debian Science Maintainers Installed-Size: 597337 Depends: libjs-jquery Filename: ./all/trilinos-doc_12.10.1-4+obsbuild1_all.deb Size: 135571360 MD5sum: 5aeeba59862df170461c5f989ea187e1 SHA1: e13008328dba5632a64671a29e541e7e1df1a64b SHA256: 8ccc939e0c1f18f0909b75192f70fa086cf76d8c2f6133e4f880c65cbe42d266 Section: doc Priority: extra Homepage: https://trilinos.org/about/documentation/ Description: object-oriented framework for large-scale problems - documentation The Trilinos Project is an effort to develop algorithms and enabling technologies within an object-oriented software framework for the solution of large-scale, complex multi-physics engineering and scientific problems. A unique design feature of Trilinos is its focus on packages. . This is documentation for the Trilinos libraries in HTML format. Some pages point to header files provided in the corresponding -dev package, so it is suggested to install the latter as well.