Source: meep-mpi-default
Section: science
Priority: optional
Maintainer: Thorsten Alteholz <debian@alteholz.de>
Build-Depends: gfortran
	, debhelper-compat (= 13)
	, quilt
	, libctl-dev (>= 4.5.0-8)
	, pkg-config
	, libharminv-dev (>= 1.4.1)
	, zlib1g-dev
	, libfftw3-dev
	, libhdf5-mpi-dev
	, libgsl-dev
	, liblapack-dev
	, mpi-default-dev
	, libblas-dev
	, chrpath
	, dpkg-dev (>= 1.16.1~)
        , swig
        , python3-dev
        , python3-numpy
        , python3-h5py
	, mpi-default-bin
	, libgdsii-dev
Standards-Version: 4.6.1
Homepage: https://meep.readthedocs.io
Vcs-Browser: https://salsa.debian.org/alteholz/meep-mpi-default
Vcs-Git: https://salsa.debian.org/alteholz/meep-mpi-default.git

Package: meep-mpi-default
Architecture: any
Depends: ${shlibs:Depends}, mpi-default-bin, ${misc:Depends}
Conflicts: meep-openmpi
        , meep-mpich2
        , meep
Recommends: libopenblas0 | libatlas3-base | libmkl-rt | libblas.so.3
Description: software package for FDTD simulation, parallel (OpenMPI) version
 Meep is a free and open-source software package for electromagnetics
 simulation via the finite-difference time-domain (FDTD) method.
 .
 Its features include:
   * Free and open-source software under the GNU GPL.
   * Complete scriptability via Python, Scheme, or C++ APIs.
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Distributed memory parallelism on any system supporting MPI.
   * Arbitrary anisotropic electric permittivity ε and magnetic permeability μ,
     along with dispersive ε(ω) and μ(ω) including loss/gain,
     nonlinear (Kerr & Pockels) dielectric and magnetic materials,
     electric/magnetic conductivities σ, and saturable gain/absorption.
   * Perfectly-matched layer (PML) absorbing boundaries as well as
     Bloch-periodic and perfect-conductor boundary conditions.
   * Exploitation of symmetries to reduce the computation size, including
     even/odd mirror planes and 90°/180° rotations.
   * Arbitrary current sources including a guided-mode launcher.
   * Frequency-domain solver for finding the response to a
      continuous-wave (CW) source.
   * ε/μ and field import/export in the HDF5 data format.
   * GDSII file import for planar geometries.
   * Materials library containing predefined broadband, complex
     refractive indices.
   * Field analyses including Poynting flux, mode decomposition, near to far
     transformations, frequency extraction, local density of states (LDOS),
     modal volume, Maxwell stress tensor, arbitrary functions; completely
     programmable.
 .
 This package contains the MPICH2 version of the software.

Package: libmeep-mpi-default30
Section: libs
Architecture: any
Conflicts: libmeep-mpi-default6
	, libmeep-mpi-default7
	, libmeep-mpi-default8
	, libmeep-mpi-default12
	, libmeep-mpi-default16
	, libmeep-mpi-default17
	, libmeep-mpi-default22
	, libmeep-mpi-default23
	, libmeep-mpi-default27
	, libmeep-mpi-default28
	, libmeep-mpi-default29
	, libmeep-openmpi6
	, libmeep-openmpi7
	, libmeep-openmpi8
	, libmeep-openmpi12
	, libmeep-openmpi16
	, libmeep-openmpi17
	, libmeep-openmpi22
	, libmeep-openmpi23
	, libmeep-openmpi27
	, libmeep-openmpi28
	, libmeep-openmpi29
	, libmeep-openmpi30
        , libmeep-lam4-6
	, libmeep-lam4-7
	, libmeep-lam4-8
	, libmeep-lam4-12
	, libmeep-lam4-16
	, libmeep-lam4-17
	, libmeep-lam4-22
	, libmeep-lam4-23
        , libmeep-mpich2-6
	, libmeep-mpich2-7
	, libmeep-mpich2-8
	, libmeep-mpich2-12
	, libmeep-mpich2-16
	, libmeep-mpich2-17
	, libmeep-mpich2-22
	, libmeep-mpich2-23
        , libmeep6
	, libmeep7
	, libmeep8
	, libmeep10
	, libmeep12
	, libmeep16
	, libmeep17
	, libmeep22
	, libmeep23
	, libmeep27
	, libmeep28
	, libmeep29
	, libmeep30
Depends: ${shlibs:Depends}, ${misc:Depends}
Description: library for using parallel (OpenMPI) version of meep
 Meep is a free and open-source software package for electromagnetics
 simulation via the finite-difference time-domain (FDTD) method.
 .
 Its features include:
   * Free and open-source software under the GNU GPL.
   * Complete scriptability via Python, Scheme, or C++ APIs.
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Distributed memory parallelism on any system supporting MPI.
   * Arbitrary anisotropic electric permittivity ε and magnetic permeability μ,
     along with dispersive ε(ω) and μ(ω) including loss/gain,
     nonlinear (Kerr & Pockels) dielectric and magnetic materials,
     electric/magnetic conductivities σ, and saturable gain/absorption.
   * Perfectly-matched layer (PML) absorbing boundaries as well as
     Bloch-periodic and perfect-conductor boundary conditions.
   * Exploitation of symmetries to reduce the computation size, including
     even/odd mirror planes and 90°/180° rotations.
   * Arbitrary current sources including a guided-mode launcher.
   * Frequency-domain solver for finding the response to a
      continuous-wave (CW) source.
   * ε/μ and field import/export in the HDF5 data format.
   * GDSII file import for planar geometries.
   * Materials library containing predefined broadband, complex
     refractive indices.
   * Field analyses including Poynting flux, mode decomposition, near to far
     transformations, frequency extraction, local density of states (LDOS),
     modal volume, Maxwell stress tensor, arbitrary functions; completely
     programmable.
 .
 This package contains the MPICH2 version of the library.

Package: libmeep-mpi-default-dev
Section: libdevel
Architecture: any
Conflicts: libmeep-dev, libmeep-mpi-dev, libmeep-mpich-dev, libmeep-openmpi-dev, libmeep-lam4-dev, libmeep-mpich2-dev
Depends: libmeep-mpi-default30 (= ${binary:Version}), ${misc:Depends}
Description: development library for using parallel (OpenMPI) version of meep
 Meep is a free and open-source software package for electromagnetics
 simulation via the finite-difference time-domain (FDTD) method.
 .
 Its features include:
   * Free and open-source software under the GNU GPL.
   * Complete scriptability via Python, Scheme, or C++ APIs.
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Distributed memory parallelism on any system supporting MPI.
   * Arbitrary anisotropic electric permittivity ε and magnetic permeability μ,
     along with dispersive ε(ω) and μ(ω) including loss/gain,
     nonlinear (Kerr & Pockels) dielectric and magnetic materials,
     electric/magnetic conductivities σ, and saturable gain/absorption.
   * Perfectly-matched layer (PML) absorbing boundaries as well as
     Bloch-periodic and perfect-conductor boundary conditions.
   * Exploitation of symmetries to reduce the computation size, including
     even/odd mirror planes and 90°/180° rotations.
   * Arbitrary current sources including a guided-mode launcher.
   * Frequency-domain solver for finding the response to a
      continuous-wave (CW) source.
   * ε/μ and field import/export in the HDF5 data format.
   * GDSII file import for planar geometries.
   * Materials library containing predefined broadband, complex
     refractive indices.
   * Field analyses including Poynting flux, mode decomposition, near to far
     transformations, frequency extraction, local density of states (LDOS),
     modal volume, Maxwell stress tensor, arbitrary functions; completely
     programmable.
 .
 This package contains some files for developing software linked to MPICH2.

Package: python3-meep-mpi-default
Section: python
Architecture: any
Depends: libmeep-mpi-default30 (= ${binary:Version})
        , ${misc:Depends}
        , ${shlibs:Depends}
        , python3-numpy
        , python3
Conflicts: python3-meep-openmpi, python3-meep
Description: software package for FDTD simulation with Python
 Meep is a free and open-source software package for electromagnetics
 simulation via the finite-difference time-domain (FDTD) method.
 .
 Its features include:
   * Free and open-source software under the GNU GPL.
   * Complete scriptability via Python, Scheme, or C++ APIs.
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Distributed memory parallelism on any system supporting MPI.
   * Arbitrary anisotropic electric permittivity ε and magnetic permeability μ,
     along with dispersive ε(ω) and μ(ω) including loss/gain,
     nonlinear (Kerr & Pockels) dielectric and magnetic materials,
     electric/magnetic conductivities σ, and saturable gain/absorption.
   * Perfectly-matched layer (PML) absorbing boundaries as well as
     Bloch-periodic and perfect-conductor boundary conditions.
   * Exploitation of symmetries to reduce the computation size, including
     even/odd mirror planes and 90°/180° rotations.
   * Arbitrary current sources including a guided-mode launcher.
   * Frequency-domain solver for finding the response to a
      continuous-wave (CW) source.
   * ε/μ and field import/export in the HDF5 data format.
   * GDSII file import for planar geometries.
   * Materials library containing predefined broadband, complex
     refractive indices.
   * Field analyses including Poynting flux, mode decomposition, near to far
     transformations, frequency extraction, local density of states (LDOS),
     modal volume, Maxwell stress tensor, arbitrary functions; completely
     programmable.
 .
 This package contains the Python binding