minizinc 2.0.8+dfsg1-1 source package in Ubuntu
Changelog
minizinc (2.0.8+dfsg1-1) unstable; urgency=medium * New upstream release -- Kari Pahula <email address hidden> Sun, 25 Oct 2015 11:10:18 +0200
Upload details
- Uploaded by:
- Kari Pahula
- Uploaded to:
- Sid
- Original maintainer:
- Kari Pahula
- Architectures:
- any
- Section:
- misc
- Urgency:
- Medium Urgency
See full publishing history Publishing
| Series | Published | Component | Section |
|---|
Downloads
| File | Size | SHA-256 Checksum |
|---|---|---|
| minizinc_2.0.8+dfsg1-1.dsc | 1.7 KiB | b53bfad834bfe28b05d0d97b75d485459acc39364c1e27e8c93b4adde37f3ba5 |
| minizinc_2.0.8+dfsg1.orig.tar.gz | 384.8 KiB | 3d054825ea28c7164b3f3807888577551c92a1eae5e6a0c4299c85eeee614c6f |
| minizinc_2.0.8+dfsg1-1.debian.tar.xz | 8.4 KiB | 55cc0bb442286106f3ae17322136cd4a6e5f6af6502cfe1516a3ecdfc82c6b24 |
No changes file available.
Binary packages built by this source
- minizinc: constraint modelling language and tool chain
MiniZinc is a medium-level constraint modelling language. It is
high-level enough to express most constraint problems easily, but
low-level enough that it can be mapped onto existing solvers easily
and consistently. It is a subset of the higher-level language Zinc.
.
MiniZinc is designed to interface easily to different backend
solvers. It does this by transforming an input MiniZinc model and
data file into a FlatZinc model. FlatZinc models consist of variable
declaration and constraint definitions as well as a definition of the
objective function if the problem is an optimization problem. The
translation from MiniZinc to FlatZinc is specializable to individual
backend solvers, so they can control what form constraints end up
in. In particular, MiniZinc allows the specification of global
constraints by decomposition.
- minizinc-dbgsym: debug symbols for package minizinc
MiniZinc is a medium-level constraint modelling language. It is
high-level enough to express most constraint problems easily, but
low-level enough that it can be mapped onto existing solvers easily
and consistently. It is a subset of the higher-level language Zinc.
.
MiniZinc is designed to interface easily to different backend
solvers. It does this by transforming an input MiniZinc model and
data file into a FlatZinc model. FlatZinc models consist of variable
declaration and constraint definitions as well as a definition of the
objective function if the problem is an optimization problem. The
translation from MiniZinc to FlatZinc is specializable to individual
backend solvers, so they can control what form constraints end up
in. In particular, MiniZinc allows the specification of global
constraints by decomposition.
