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No Format
You could try a trace.
cmake --trace . 2>&1 | tee /tmp/cmakeOut.txt

You may have to explicitly mention the path, For example:
cmake . -DLAPACK_LIBRARIES=/sw/library/lapack/lapack-3.6.0/3.6.0/lib64/liblapack.so -DBLAS_LIBRARIES=/sw/library/blas/CBLAS/lib/cblas_LINUX.so
 
OR:
 cmake . -DLAPACK_LIBRARIES=/sw/library/lapack/lapack-3.6.0/3.6.0/lib64/liblapack.so -DBLAS_LIBRARIES=/sw/library/blas/CBLAS/lib/cblas_LINUX.so -DCMAKE_INSTALL_PREFIX=/sw/simbody/353


Qs28:  How do I check number of CPUs my job is using

No Format
You can find out on which compute node your job is running:
qstat -1an|grep snumber
>>>>>>>>>>>>>>>>>>>
e.g:
qstat -1an|grep s2761086
4598354.pbsserv s2761086 workq    DT_k-e_04   21795   1   1   10gb 99999 R 523:2 n010/0
Here you see it is running on n010
Then you can do this:
ssh nodename -t "htop"  or ssh nodename -t "htop -u username" 
e.g.ssh n010 -t "htop -u s2761086"
Press <F2> key, go to "Columns", and add PROCESSOR under "Available Columns".
The currently used CPU ID of each process will appear under "CPU" column.



Qs29:   How to customize an environmental variable using modules

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Qs 31: Multi Cores are requested and allocated by PBs but job runs only on 1 core. Why is that?

This contribution is from Nicholas Dhal and is acknowledged. Nick is an active Grifith HPC user.


>>>>>>>>>

When a job is executed, the processes running the job are divided up amongst the requested number of cores on the HPC compute node. The processes have an associated setting called 'affinity' which is a logical (true or false) test that specifies which CPU core the processes are allowed to run on. In serial cases, this usually makes no difference because everything is on a single CPU only. However, in parallel runs with multiple cores, sometimes the affinity is set incorrectly by the scheduler and this limits performance.

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The command 'htop' uses some CPU resources on the node, so limit your time logged into the node (no more than 10 minutes). To exit 'htop' use the key 'F10'. To exit the node use the command 'exit'.

goo.gl/koYII3


>>>>>>>>>>

Qs 32: How to check the remaining licenses on the license server

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No Format
#Gain access to the outside: source /usr/local/bin/s3proxy.sh
#Load the anaconda module e.g module load anaconda3/20222023.1009)
#Add the following entry into .condarc (nano ~/.condarc)
channels:
  - defaults

#Create the following folders:

mkdir -p ~/.conda/envs
mkdir -p ~/.conda/pkgs

See if the following commands work!
#conda info
#	conda search flask


conda create --name env1
#e.g conda create --name trinity_env --clone root
#To remove an environment, conda remove -n env --all

source activate env1

#e.g source activate trinity_env

Now you can install your packages:
conda search -c bioconda trinity

For example to install version trinity version 2.9.1:

e.g conda install -n trinity_env -c bioconda trinity=2.9.1
conda create --name rstan --channel conda-forge r-dplyr r-rmapshaper r-sf

To check all versions available of the rstan package:
conda search r-rstan --channel conda-forge

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No Format
#!/bin/bash
#PBS -N jobName
####PBS -m abe
####PBS -M YourEmail@griffith.edu.au
#PBS -q routeq
#PBS -l select=1:ncpus=1:mem=2gb,walltime=5:00:00
#======================================================# 
# USER CONFIG
#======================================================#
INPUT_FILE="hello.py"
OUTPUT_FILE="$PBS_JOBNAME.out"
MODULE_NAME="python/3.7.4"
PROGRAM_NAME="python"
# Set as true if you need those /lscratch files.
COPY_SCRATCH_BACK=true
#======================================================#
# MODULE is loaded 
#======================================================#
NP=‘wc -l < $PBS_NODEFILE‘
source /etc/profile.d/modules.sh
module load $MODULE_NAME
cat $PBS_NODEFILE
#======================================================#
# SCRATCH directory is created at the local disks 
#======================================================#
SCRDIR=/lscratch/$LOGNAME/$PBS_JOBID
if [ ! -d "$SCRDIR" ]; then
mkdir $SCRDIR
fi
#======================================================#
# TRANSFER input files to the scratch directory 
#======================================================#
# just copy input file
cp -r $PBS_O_WORKDIR/$INPUT_FILE $SCRDIR
# copy everything (Option) 
#cp -r $PBS_O_WORKDIR/* $SCRDIR
#======================================================#
# PROGRAM is executed with the output or log file
# direct to the working directory
#======================================================#
echo "START TO RUN WORK"
cd $SCRDIR
# Run a system wide sequential program
##$PROGRAM_NAME < $INPUT_FILE >& $PBS_O_WORKDIR/$OUTPUT_FILE
$PROGRAM_NAME $INPUT_FILE >& $SCRDIR/$OUTPUT_FILE
###$PROGRAM_NAME $INPUT_FILE >& $PBS_O_WORKDIR/$OUTPUT_FILE
# Run a MPI program (Option)
###For openmpi, use the following syntax####
#module load mpi/openmpi/4.0.2
#mpiexec $PROGRAM NAME < $INPUT FILE >& $OUTPUT FILE
####For intel mpi, use the following syntax####
#module load intel/2019up5/mpi
#mpiexec -n $NP  $PROGRAM NAME < $INPUT FILE >& $OUTPUT FILE
# mpirun -np $NP $PROGRAM NAME < $INPUT FILE >& $OUTPUT FILE
# Run a OpenMP program(Option) # export OMP NUM THREADS=$NP
# $PROGRAM NAME < $INPUT FILE >& $OUTPUT FILE
sleep 60
#======================================================# 
# RESULTS are migrated back to the working directory
#======================================================#
if [[ "$COPY_SCRATCH_BACK" == *true* ]]
then
    echo "COPYING SCRACH FILES TO " $PBS_O_WORKDIR/$PBS_JOBID 
    cp -rp $SCRDIR/* $PBS_O_WORKDIR
    if [ $? != 0 ]; then
        {
             echo "Sync ERROR: problem copying files from $tdir to $PBS_O_WORKDIR;" 
                     echo "Contact HPC admin for a solution."
             exit 1
        }
    fi
fi
#======================================================#
# DELETING the local scratch directory 
#======================================================#
cd $PBS_O_WORKDIR
if [[ "$SCRDIR" == *scratch* ]]
then
    echo "DELETING SCRATCH DIRECTORY" $SCRDIR
    rm -rf $SCRDIR
    echo "ALL DONE!"
fi
#======================================================#
# ALL DONE 
#======================================================#
##  End-of-job summary
echo "qstat -H $PBS_JOBID"
echo "qstat -xf $PBS_JOBID"


Qs.56: NCMAS process and application

NCMAS facilities overview and who should apply
https://youtu.be/7ZZVk4HtdDY

NCMAS process and application 2021
https://youtu.be/hmV_j5GFgI0


Qs 57: What kind of storage and compute is available on Griffith HPC

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Additionally and in parallel, you can also apply directly when the application opens

https://my.nci.org.au/mancini/ncmas/2022/

Please note that projects will be given a fixed allocation which is given per quarter on a use it or loose it basis. Allocations cannot be carried forward or backward into other quarters. Standard disk space per project is 75GB in /scratch and if a project needs more you will need to contact help@nci.org.au.

Students cannot be a lead CI on an NCI project however, for the QCIF share postdocs can be. For NCMAS the lead CI is required to have an ARC or NHMRC grant or equivalent which is why larger groups apply for NCMAS. A grant is not required for a project under QCIF. However, the QCIF allocations are small, around 20-50 thousand per quarter. Larger allocations are only available through NCMAS.

Some applications like Mathematica and Matlab are licensed software. Mathematica is only available to ANU researchers on NCI. For Matlab, Griffith will need to get in contact with NCI to set up their institutional license. At the moment this is not available so one cannot use it. Unless you have your own license. But also in that case you would need to get in touch with NCI first to see if you can use Matlab on Gadi or not.

In general, allocations are given in service units SUs. 1 core hour is charged at 2 SUs. So if you have a calculation running using 4 cores and taking 48 hours then you will be charged 4*48*2=384 SUs for that calculation.

If a larger disk space (e.g 300GB) is needed, you would need to talk to NCI to increase the space in /scratch to accommodate this. If a larger RAM (e.g 400GB ), then you would need to make sure you run in a queue that supports that ram request. They could be charged more than 2 SUs per core hour though, so you would need to factor that in.

But talk to NCI, help@nci.org.au, first to see if you could use the application (e.g Matlab) onNCI before you even consider applying for an allocation on NCI.


Qs69: How to install bioinformatics software in your home directory

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Reference: https://kb.hlrs.de/platforms/index.php/Batch_System_PBSPro_(vulcan)#DISPLAY:_X11_applications_on_interactive_batch_jobs

The login or head node of each cluster is a resource that is shared by many users. Running a GUI job on the login node is prohibited and may adversely affect other users. X11 Forwarding is only possible for interactive jobs.

Please note that there is a performance penalty when running a GUI job on the compute nodes using the method outlined below. 

Set up X11 forwarding

To use X11 port forwarding, Install Xming X Server on Windows laptop/desktop first. Install the xming fonts package as well.
See instructions here: https://griffith.atlassian.net/wiki/spaces/GHCD/pages/4035477/xming

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  1. http://mobaxterm.mobatek.net/download-home-edition.html
  2. putty
  3. Filezillia
  4. Windows WSL system lets you run the linux versions of ssh under windows.
       wsl --install
    This should get you command line:  ssh,  scp,  and sftp; 

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