Source: adios Section: science Priority: optional Maintainer: Alastair McKinstry Build-Depends: debhelper (>= 10), mpi-default-dev, libnetcdf-dev, libnetcdf-mpi-dev (>= 4.6.1-3), gfortran, dh-fortran-mod, libmxml-dev, libopenmpi-dev, openmpi-bin, libmpich-dev, mpich, liblz4-dev, libblosc-dev, pkg-config, cmake, libbz2-dev, zlib1g-dev, libibverbs-dev [ !hurd-i386 !kfreebsd-i386 !kfreebsd-amd64], python-dev, python-numpy, python-mpi4py, cython, dh-python, python3-all-dev, python3-numpy, python3-mpi4py, cython3, libglib2.0-dev, libhdf5-dev, libhdf5-mpich-dev, libhdf5-openmpi-dev, libaec-dev Build-Conflicts: libadios-dev, libadios-bin Standards-Version: 4.3.0 Homepage: https://www.olcf.ornl.gov/center-projects/adios/ Vcs-Browser: https://salsa.debian.org:/science-team/adios.git Vcs-Git: https://salsa.debian.org:/science-team/adios.git Package: libadios-dev Section: libdevel Architecture: any Multi-Arch: same Depends: ${misc:Depends}, ${shlibs:Depends}, ${python:Depends}, pkg-config Recommends: libadios-bin Fortran-Mod: ${Fortran-Mod} Description: ADIOS Adaptable IO system for simulations The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. Package: libadios-openmpi-dev Section: libdevel Architecture: alpha amd64 arm64 armel armhf hppa hurd-i386 i386 ia64 kfreebsd-amd64 kfreebsd-i386 m68k mips mips64el mipsel powerpc powerpcspe ppc64 ppc64el riscv64 s390x sh4 sparc64 x32 Multi-Arch: same Depends: ${misc:Depends}, libadios-dev Recommends: libadios-bin, libadios-examples Description: ADIOS Adaptable IO system (OpenMPI development files) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. Package: libadios-mpich-dev Section: libdevel Architecture: alpha amd64 arm64 armel armhf hppa hurd-i386 i386 ia64 kfreebsd-amd64 kfreebsd-i386 m68k mips mips64el mipsel powerpc powerpcspe ppc64 ppc64el riscv64 s390x sh4 sparc64 x32 Multi-Arch: same Depends: ${misc:Depends}, libadios-dev Recommends: libadios-bin, libadios-examples Description: ADIOS Adaptable IO system (MPICH development files) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. Package: libadios-examples Architecture: all Depends: ${misc:Depends} Multi-Arch: foreign Recommends: libadios-dev Description: Examples for the ADIOS Adaptable IO system The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. Package: libadios-bin Depends: ${misc:Depends}, ${shlibs:Depends}, ${python:Depends} Architecture: any Multi-Arch: foreign Recommends: libadios-dev Description: ADIOS Adaptable IO system for simulations - binaries The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package provides tools for use with ADIOS. Package: python-adios Depends: ${python:Depends}, ${misc:Depends}, ${shlibs:Depends} Section: python Architecture: any Provides: ${python:Provides} Description: Python interface to the ADIOS IO system This is a Python2 interface to ADIOS. . The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . Package: python3-adios Depends: ${python3:Depends}, ${misc:Depends}, ${shlibs:Depends} Section: python Architecture: any Provides: ${python:Provides} Breaks: libadios-bin ( << 1.8.0-2), libadios-dev ( << 1.8.0-2), python-adios ( << 1.8.0-2) Replaces: libadios-bin ( << 1.8.0-2), libadios-dev ( << 1.8.0-2) Description: Python3 interface to the ADIOS IO system This is a Python3 interface to ADIOS. . The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. .