Commit 7c5be55a authored by Lukáš Krupčík's avatar Lukáš Krupčík

revision ansys

parent cfb9aece
......@@ -6,9 +6,9 @@ To run ANSYS CFX in batch mode you can utilize/modify the default cfx.pbs script
```bash
#!/bin/bash
#PBS -l nodes=2:ppn=16
#PBS -l select=5:ncpus=24:mpiprocs=24
#PBS -q qprod
#PBS -N $USER-CFX-Project
#PBS -N ANSYS-test
#PBS -A XX-YY-ZZ
#! Mail to user when job terminate or abort
......@@ -25,7 +25,7 @@ echo Directory is `pwd`
echo This jobs runs on the following processors:
echo `cat $PBS_NODEFILE`
ml ansys
ml ANSYS/19.1-intel-2017c
#### Set number of processors per host listing
#### (set to 1 as $PBS_NODEFILE lists each node twice if :ppn=2)
......@@ -44,7 +44,7 @@ echo Machines: $hl
#-dev input.def includes the input of CFX analysis in DEF format
#-P the name of prefered license feature (aa_r=ANSYS Academic Research, ane3fl=Multiphysics(commercial))
/ansys_inc/v145/CFX/bin/cfx5solve -def input.def -size 4 -size-ni 4x -part-large -start-method "Platform MPI Distributed Parallel" -par-dist $hl -P aa_r
cfx5solve -def input.def -size 4 -size-ni 4x -part-large -start-method "Platform MPI Distributed Parallel" -par-dist $hl -P aa_r
```
Header of the PBS file (above) is common and description can be find on [this site][1]. SVS FEM recommends to utilize sources by keywords: nodes, ppn. These keywords allows to address directly the number of nodes (computers) and cores (ppn) which will be utilized in the job. Also the rest of code assumes such structure of allocated resources.
......
......@@ -9,9 +9,9 @@ To run ANSYS Fluent in batch mode you can utilize/modify the default fluent.pbs
```bash
#!/bin/bash
#PBS -S /bin/bash
#PBS -l nodes=2:ppn=16
#PBS -l select=5:ncpus=24:mpiprocs=24
#PBS -q qprod
#PBS -N $USER-Fluent-Project
#PBS -N ANSYS-test
#PBS -A XX-YY-ZZ
#! Mail to user when job terminate or abort
......@@ -29,12 +29,12 @@ echo This jobs runs on the following processors:
echo `cat $PBS_NODEFILE`
#### Load ansys module so that we find the cfx5solve command
ml ansys
ml ANSYS/19.1-intel-2017c
# Use following line to specify MPI for message-passing instead
NCORES=`wc -l $PBS_NODEFILE |awk '{print $1}'`
/ansys_inc/v145/fluent/bin/fluent 3d -t$NCORES -cnf=$PBS_NODEFILE -g -i fluent.jou
fluent 3d -t$NCORES -cnf=$PBS_NODEFILE -g -i fluent.jou
```
Header of the pbs file (above) is common and description can be find on [this site][1]. [SVS FEM][b] recommends to utilize sources by keywords: nodes, ppn. These keywords allows to address directly the number of nodes (computers) and cores (ppn) which will be utilized in the job. Also the rest of code assumes such structure of allocated resources.
......
......@@ -6,9 +6,9 @@ To run ANSYS LS-DYNA in batch mode you can utilize/modify the default ansysdyna.
```bash
#!/bin/bash
#PBS -l nodes=2:ppn=16
#PBS -l select=5:ncpus=24:mpiprocs=24
#PBS -q qprod
#PBS -N $USER-DYNA-Project
#PBS -N ANSYS-test
#PBS -A XX-YY-ZZ
#! Mail to user when job terminate or abort
......@@ -30,7 +30,7 @@ NPROCS=`wc -l < $PBS_NODEFILE`
echo This job has allocated $NPROCS nodes
ml ansys
ml ANSYS/19.1-intel-2017c
#### Set number of processors per host listing
#### (set to 1 as $PBS_NODEFILE lists each node twice if :ppn=2)
......@@ -47,7 +47,7 @@ done
echo Machines: $hl
/ansys_inc/v145/ansys/bin/ansys145 -dis -lsdynampp i=input.k -machines $hl
ansys191 -dis -lsdynampp i=input.k -machines $hl
```
Header of the PBS file (above) is common and description can be find on [this site][1]. [SVS FEM][b] recommends to utilize sources by keywords: nodes, ppn. These keywords allows to address directly the number of nodes (computers) and cores (ppn) which will be utilized in the job. Also the rest of code assumes such structure of allocated resources.
......
......@@ -6,9 +6,9 @@ To run ANSYS MAPDL in batch mode you can utilize/modify the default mapdl.pbs sc
```bash
#!/bin/bash
#PBS -l nodes=2:ppn=16
#PBS -l select=5:ncpus=24:mpiprocs=24
#PBS -q qprod
#PBS -N $USER-ANSYS-Project
#PBS -N ANSYS-test
#PBS -A XX-YY-ZZ
#! Mail to user when job terminate or abort
......@@ -25,7 +25,7 @@ echo Directory is `pwd`
echo This jobs runs on the following processors:
echo `cat $PBS_NODEFILE`
ml ansys
ml ANSYS/19.1-intel-2017c
#### Set number of processors per host listing
#### (set to 1 as $PBS_NODEFILE lists each node twice if :ppn=2)
......@@ -45,7 +45,7 @@ echo Machines: $hl
#-i input.dat includes the input of analysis in APDL format
#-o file.out is output file from ansys where all text outputs will be redirected
#-p the name of license feature (aa_r=ANSYS Academic Research, ane3fl=Multiphysics(commercial), aa_r_dy=Academic AUTODYN)
/ansys_inc/v145/ansys/bin/ansys145 -b -dis -p aa_r -i input.dat -o file.out -machines $hl -dir $WORK_DIR
ansys191 -b -dis -p aa_r -i input.dat -o file.out -machines $hl -dir $WORK_DIR
```
Header of the PBS file (above) is common and description can be found on [this site][1]. [SVS FEM][b] recommends to utilize sources by keywords: nodes, ppn. These keywords allow to address directly the number of nodes (computers) and cores (ppn) which will be utilized in the job. Also the rest of code assumes such structure of allocated resources.
......
......@@ -7,7 +7,7 @@ Anselm provides commercial as well as academic variants. Academic variants are d
To load the latest version of any ANSYS product (Mechanical, Fluent, CFX, MAPDL,...) load the module:
```console
$ ml ansys
$ ml ANSYS
```
ANSYS supports interactive regime, but due to assumed solution of extremely difficult tasks it is not recommended.
......
......@@ -16,6 +16,15 @@ The licence intended to be used for science and research, publications, students
## Available Versions
* 16.1
* 18.0
* 19.1
* 19.3
``` console
$ ml av ANSYS
---------------- /apps/modules/tools -----------------------
ANSYS/19.1-intel-2017c (C6) ANSYS/19.3-intel-2017c (D)
Where:
C6: Old CentOS6 module
D: Default Module
```
......@@ -2,15 +2,16 @@
[LS-DYNA][a] is a multi-purpose, explicit and implicit finite element program used to analyze the nonlinear dynamic response of structures. Its fully automated contact analysis capability, a wide range of constitutive models to simulate a whole range of engineering materials (steels, composites, foams, concrete, etc.), error-checking features and the high scalability have enabled users worldwide to solve successfully many complex problems. Additionally LS-DYNA is extensively used to simulate impacts on structures from drop tests, underwater shock, explosions or high-velocity impacts. Explosive forming, process engineering, accident reconstruction, vehicle dynamics, thermal brake disc analysis or nuclear safety are further areas in the broad range of possible applications. In leading-edge research LS-DYNA is used to investigate the behavior of materials like composites, ceramics, concrete, or wood. Moreover, it is used in biomechanics, human modeling, molecular structures, casting, forging, or virtual testing.
Anselm provides **1 commercial license of LS-DYNA without HPC** support now.
!!! Info
Anselm provides **1 commercial license of LS-DYNA without HPC** support now.
To run LS-DYNA in batch mode you can utilize/modify the default lsdyna.pbs script and execute it via the qsub command.
```bash
#!/bin/bash
#PBS -l nodes=1:ppn=16
#PBS -l select=5:ncpus=16:mpiprocs=16
#PBS -q qprod
#PBS -N $USER-LSDYNA-Project
#PBS -N ANSYS-test
#PBS -A XX-YY-ZZ
#! Mail to user when job terminate or abort
......
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