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meep package

meep 1.3-3build2 source package in Ubuntu

Changelog

meep (1.3-3build2) xenial; urgency=medium

  * No-change rebuild against new gsl

 -- Iain Lane <email address hidden>  Tue, 10 Nov 2015 14:25:43 +0000

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Uploaded by:
Iain Lane
Uploaded to:
Xenial
Original maintainer:
Thorsten Alteholz
Architectures:
any
Section:
science
Urgency:
Medium Urgency

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Series Pocket Published Component Section

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File Size SHA-256 Checksum
meep_1.3.orig.tar.gz 723.5 KiB 564c1ff1b413a3487cf81048a45deabfdac4243a1a37ce743f4fcf0c055fd438
meep_1.3-3build2.debian.tar.xz 5.6 KiB 7cd198d0861efb2cf23ea633bbac3618382ff9ce48175eadf2f296578e420840
meep_1.3-3build2.dsc 1.9 KiB e80fc238ad51d7afec6862898adcaf8fce21e26116df4ab14901a1cdb8b0c101

Available diffs

View changes file

Binary packages built by this source

libmeep-dev: development library for using meep

 Meep (or MEEP) is a free finite-difference time-domain (FDTD) simulation
 software package developed at MIT to model electromagnetic systems.
 .
 Its features include:
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Dispersive (including loss/gain) and nonlinear (Kerr & Pockels) materials.
     Magnetic permeability and electric/magnetic conductivities.
   * PML absorbing boundaries and/or perfect conductor and/or Bloch-periodic
     boundary conditions.
   * Exploitation of symmetries to reduce the computation size .
     even/odd mirror symmetries and 90/180 degree rotations.
   * Complete scriptability - either via a Scheme scripting front-end
     (as in libctl and MPB), or callable as a C++ library.
   * Field output in the HDF5 standard scientific data format, supported by
     many visualization tools.
   * Arbitrary material and source distributions.
   * Field analyses including flux spectra, frequency extraction, and energy
     integrals; completely programmable.
   * Multi-parameter optimization, root-finding, integration, etcetera
     (via libctl).
 .
 This package contains some files for developing software.

libmeep8: library for using meep

 Meep (or MEEP) is a free finite-difference time-domain (FDTD) simulation
 software package developed at MIT to model electromagnetic systems.
 .
 Its features include:
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Dispersive (including loss/gain) and nonlinear (Kerr & Pockels) materials.
     Magnetic permeability and electric/magnetic conductivities.
   * PML absorbing boundaries and/or perfect conductor and/or Bloch-periodic
     boundary conditions.
   * Exploitation of symmetries to reduce the computation size .
     even/odd mirror symmetries and 90/180 degree rotations.
   * Complete scriptability - either via a Scheme scripting front-end
     (as in libctl and MPB), or callable as a C++ library.
   * Field output in the HDF5 standard scientific data format, supported by
     many visualization tools.
   * Arbitrary material and source distributions.
   * Field analyses including flux spectra, frequency extraction, and energy
     integrals; completely programmable.
   * Multi-parameter optimization, root-finding, integration, etcetera
     (via libctl).
 .
 This package contains the library.

libmeep8-dbgsym: debug symbols for package libmeep8

 Meep (or MEEP) is a free finite-difference time-domain (FDTD) simulation
 software package developed at MIT to model electromagnetic systems.
 .
 Its features include:
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Dispersive (including loss/gain) and nonlinear (Kerr & Pockels) materials.
     Magnetic permeability and electric/magnetic conductivities.
   * PML absorbing boundaries and/or perfect conductor and/or Bloch-periodic
     boundary conditions.
   * Exploitation of symmetries to reduce the computation size .
     even/odd mirror symmetries and 90/180 degree rotations.
   * Complete scriptability - either via a Scheme scripting front-end
     (as in libctl and MPB), or callable as a C++ library.
   * Field output in the HDF5 standard scientific data format, supported by
     many visualization tools.
   * Arbitrary material and source distributions.
   * Field analyses including flux spectra, frequency extraction, and energy
     integrals; completely programmable.
   * Multi-parameter optimization, root-finding, integration, etcetera
     (via libctl).
 .
 This package contains the library.

meep: software package for FDTD simulation

 Meep (or MEEP) is a free finite-difference time-domain (FDTD) simulation
 software package developed at MIT to model electromagnetic systems.
 .
 Its features include:
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Dispersive (including loss/gain) and nonlinear (Kerr & Pockels) materials.
     Magnetic permeability and electric/magnetic conductivities.
   * PML absorbing boundaries and/or perfect conductor and/or Bloch-periodic
     boundary conditions.
   * Exploitation of symmetries to reduce the computation size .
     even/odd mirror symmetries and 90/180 degree rotations.
   * Complete scriptability - either via a Scheme scripting front-end
     (as in libctl and MPB), or callable as a C++ library.
   * Field output in the HDF5 standard scientific data format, supported by
     many visualization tools.
   * Arbitrary material and source distributions.
   * Field analyses including flux spectra, frequency extraction, and energy
     integrals; completely programmable.
   * Multi-parameter optimization, root-finding, integration, etcetera
     (via libctl).
 .
 This package contains the software.

meep-dbgsym: debug symbols for package meep

 Meep (or MEEP) is a free finite-difference time-domain (FDTD) simulation
 software package developed at MIT to model electromagnetic systems.
 .
 Its features include:
   * Simulation in 1d, 2d, 3d, and cylindrical coordinates.
   * Dispersive (including loss/gain) and nonlinear (Kerr & Pockels) materials.
     Magnetic permeability and electric/magnetic conductivities.
   * PML absorbing boundaries and/or perfect conductor and/or Bloch-periodic
     boundary conditions.
   * Exploitation of symmetries to reduce the computation size .
     even/odd mirror symmetries and 90/180 degree rotations.
   * Complete scriptability - either via a Scheme scripting front-end
     (as in libctl and MPB), or callable as a C++ library.
   * Field output in the HDF5 standard scientific data format, supported by
     many visualization tools.
   * Arbitrary material and source distributions.
   * Field analyses including flux spectra, frequency extraction, and energy
     integrals; completely programmable.
   * Multi-parameter optimization, root-finding, integration, etcetera
     (via libctl).
 .
 This package contains the software.