madlib 1.3.0-3 source package in Ubuntu
Changelog
madlib (1.3.0-3) unstable; urgency=medium * QA upload. [ Vagrant Cascadian ] * debian/control: Set "Debian QA Group" as Maintainer. * Switch to source-format 3.0 (quilt). (Closes: #1007462) * Switch to dh and debhelper-compat 10. * debian/rules: Remove build path in dh_installexamples override. * debian/control: Drop libmadlib-dbg. * debian/control: Change to Priority "optional". * debian/control: Update Homepage URL. * debian/control: Remove obsolete Vcs-* headers. * debian/rules: Drop get-orig-source target. * debian/control: Set Rules-Requires-Root to "no". * debian/watch: Update for new location. [ Chris Lamb ] * debian/rules: Use --with-hostname to set hostname (Closes: #778946) -- Vagrant Cascadian <email address hidden> Fri, 21 Oct 2022 16:08:44 -0700
Upload details
- Uploaded by:
- Debian QA Group
- Uploaded to:
- Sid
- Original maintainer:
- Debian QA Group
- Architectures:
- any all
- Section:
- math
- Urgency:
- Medium Urgency
See full publishing history Publishing
Series | Published | Component | Section | |
---|---|---|---|---|
Oracular | release | universe | math | |
Noble | release | universe | math | |
Mantic | release | universe | math | |
Lunar | release | universe | math |
Downloads
File | Size | SHA-256 Checksum |
---|---|---|
madlib_1.3.0-3.dsc | 1.4 KiB | 06716d9a0d1042b17e5a1ee907d9ac5ce9c6b7235eb5dde60c93c9373d62bf60 |
madlib_1.3.0.orig.tar.gz | 1.5 MiB | 266c8818b217599ef4a039ddfdccc6a04ee5f327855979d17320c8f152a4b4ad |
madlib_1.3.0-3.debian.tar.xz | 9.1 KiB | 111951ad2065b72685be461c5c2b0ecc234e906813d42f53968e21daad05b649 |
Available diffs
- diff from 1.3.0-2.2 to 1.3.0-3 (10.5 KiB)
No changes file available.
Binary packages built by this source
- libmadlib: mesh adaptation library
This package contains the dynamic libraries for MAdLib.
.
MAdLib is a library that performs global node repositioning and mesh
adaptation by local mesh modifications on tetrahedral or triangular
meshes. It is designed to frequently adapt the mesh in transient
computations. MAdLib is written in C++.
.
The adaptation procedure is driven by two objectives:
.
- make the edge lengths as close as possible to a (non-homogenous)
prescribed length,
.
- maintain a satisfying element quality everywhere.
.
MAdLib can be used in transient computations in order to maintain a
satisfying element quality (moving boundaries, multiphase flows with
interface tracking, ...) or/and to apply selective refinements and
coarsenings (error estimators based, interface capturing: shocks,
free surfaces, ...).
- libmadlib-dbgsym: debug symbols for libmadlib
- libmadlib-dev: mesh adaptation library
This package contains the development files (headers, so and static
libraries) for MAdLib.
.
MAdLib is a library that performs global node repositioning and mesh
adaptation by local mesh modifications on tetrahedral or triangular
meshes. It is designed to frequently adapt the mesh in transient
computations. MAdLib is written in C++.
.
The adaptation procedure is driven by two objectives:
.
- make the edge lengths as close as possible to a (non-homogenous)
prescribed length,
.
- maintain a satisfying element quality everywhere.
.
MAdLib can be used in transient computations in order to maintain a
satisfying element quality (moving boundaries, multiphase flows with
interface tracking, ...) or/and to apply selective refinements and
coarsenings (error estimators based, interface capturing: shocks,
free surfaces, ...).
- madlib-doc: mesh adaptation library
This package contains the documentation, Examples and tutorial for
MAdLib.
.
MAdLib is a library that performs global node repositioning and mesh
adaptation by local mesh modifications on tetrahedral or triangular
meshes. It is designed to frequently adapt the mesh in transient
computations. MAdLib is written in C++.
.
The adaptation procedure is driven by two objectives:
.
- make the edge lengths as close as possible to a (non-homogenous)
prescribed length,
.
- maintain a satisfying element quality everywhere.
.
MAdLib can be used in transient computations in order to maintain a
satisfying element quality (moving boundaries, multiphase flows with
interface tracking, ...) or/and to apply selective refinements and
coarsenings (error estimators based, interface capturing: shocks,
free surfaces, ...).