| Commit History - (may be incomplete: see SVNWeb link above for full details) |
| Date | By | Description |
07 Jul 2012 15:17:40
  1.3.3_3
|
thierry  |
Remove ICS, which is no more a component of Code_Saturne. |
03 Jul 2011 13:22:25
1.3.3_3
|
ohauer |
- remove MD5 |
02 May 2011 12:44:53
1.3.3_3
|
makc |
Bump PORTREVISION after open-mofit update |
06 Dec 2010 21:05:20
1.3.3_2
|
pav |
- Fix build with new tix |
28 Mar 2010 06:47:48
1.3.3_2
|
dinoex |
- update to 1.4.1
Reviewed by: exp8 run on pointyhat
Supported by: miwi |
05 Feb 2010 11:46:55
1.3.3_1
|
dinoex |
- update to jpeg-8 |
26 Jan 2009 17:52:55
1.3.3
|
thierry |
Upgrade to 1.3.3. |
06 Jun 2008 13:59:05
1.3.2_1
|
edwin |
Bump portrevision due to upgrade of devel/gettext.
The affected ports are the ones with gettext as a run-dependency
according to ports/INDEX-7 (5007 of them) and the ones with USE_GETTEXT
in Makefile (29 of them).
PR: ports/124340
Submitted by: edwin@
Approved by: portmgr (pav) |
30 Apr 2008 22:14:12
1.3.2
|
thierry |
Upgrade Code_Saturne to 1.3.2.
Code_Saturne 1.3.2 contains important corrections in the extended
neighbourhood (used for gradient calculation with options IMRGRA=2 and 3
and for the LES dynamic model), in the steady-state algorithm and for
rotation periodicity. Therefore it is strongly advised to upgrade to
version 1.3.2. Earlier releases of version 1.3 (especially versions 1.3.f
and 1.3.1) are considered obsolete and have been removed from the website.
Note: the pdf handbooks don't build at the moment, but they are
available from the Code_Saturne's main site. |
01 Jan 2008 16:45:47
1.3.1
|
thierry |
Upgrade ICS to 1.3.1. |
17 Jun 2007 21:04:54
1.1.l
|
thierry |
Code_Saturne is EDF's general purpose computational fluid dynamics
software. Developed since 1997 at EDF R&D, it is based on a co-located
Finite Volume approach that accepts meshes with any type of
cell (tetrahedral, hexahedral, prismatic, pyramidal, polyhedral, ...)
and any type of grid structure (unstructured, blockstructured, hybrid,
conforming or with hanging nodes, ...).
Its basic capabilities enable the handling of either incompressible or
expandable flows with or without heat transfer and turbulence (mixing
length, 2-equation models, v2f, Reynolds stress models, Large Eddy
Simulations, ...).
<http://rd.edf.com/code_saturne/> |
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