meep 1.1.1-9ubuntu1 source package in Ubuntu
Changelog
meep (1.1.1-9ubuntu1) trusty; urgency=low * Merge from Debian unstable. Remaining changes: - Update configure flag to look for /usr/share/libctl meep (1.1.1-9) unstable; urgency=low * Configure with --with-gcc-arch=no to generate generic code. (Closes: #735368) * debian/control: remove DM-Upload-Allowed * debian/control: libhdf5-serial-dev is libhdf5-dev now * debian/copyright: fix lintian warning about duplicate field -- Andrew Starr-Bochicchio <email address hidden> Wed, 09 Apr 2014 23:07:02 -0400
Upload details
- Uploaded by:
- Andrew Starr-Bochicchio
- Uploaded to:
- Trusty
- Original maintainer:
- Ubuntu Developers
- Architectures:
- any
- Section:
- science
- Urgency:
- Low Urgency
See full publishing history Publishing
Series | Published | Component | Section | |
---|---|---|---|---|
Trusty | release | universe | science |
Downloads
File | Size | SHA-256 Checksum |
---|---|---|
meep_1.1.1.orig.tar.gz | 733.6 KiB | 7a97b5555da1f9ea2ec6eed5c45bd97bcd6ddbd54bdfc181f46c696dffc169f2 |
meep_1.1.1-9ubuntu1.debian.tar.gz | 5.9 KiB | 61dc5db5d3a75f7a9206fd620b75dfb252922c9fb8badda6980b1913295506b9 |
meep_1.1.1-9ubuntu1.dsc | 2.0 KiB | 790462e5a8f203f03c168088667d64ff18d595a78b8109b79a94f3b7d207bfe8 |
Available diffs
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.
- libmeep6: 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.
- 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.