ZnO (Quantum ESPRESSO): Difference between revisions
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The job is now ready to be sent to the cluster. | The job is now ready to be sent to the cluster. | ||
{{Cmd|qsub torque- | {{Cmd|qsub torque-qe.sh|qstat|output=<pre> | ||
Job ID Name User Time Use S Queue | Job ID Name User Time Use S Queue | ||
------------------------- ---------------- --------------- -------- - ----- | ------------------------- ---------------- --------------- -------- - ----- | ||
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== Calculate the vibrational frequencies (normal modes/phonons) == | == Calculate the vibrational frequencies (normal modes/phonons) == | ||
No we use the {{C|ph.x}} module of Quantum Espresso to calculate the | No we use the {{C|ph.x}} module of Quantum Espresso to calculate the vibrational frequencies of ZnO. | ||
=== Modify Queue Submission Script === | === Modify Queue Submission Script === | ||
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Send the job to the cluster: | Send the job to the cluster: | ||
{{Cmd|qsub torque- | {{Cmd|qsub torque-qe.sh|qstat|output=<pre> | ||
Job ID Name User Time Use S Queue | Job ID Name User Time Use S Queue | ||
------------------------- ---------------- --------------- -------- - ----- | ------------------------- ---------------- --------------- -------- - ----- | ||
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The job is now ready to be sent to the cluster. | The job is now ready to be sent to the cluster. | ||
{{Cmd|qsub torque- | {{Cmd|qsub torque-qe.sh|qstat|output=<pre> | ||
Job ID Name User Time Use S Queue | Job ID Name User Time Use S Queue | ||
------------------------- ---------------- --------------- -------- - ----- | ------------------------- ---------------- --------------- -------- - ----- | ||
14224.flory ZnO- | 14224.flory ZnO-dynmat user 00:00:35 R default | ||
</pre>}} | </pre>}} | ||
Revision as of 16:52, 3 January 2017
This example shows how to create Infrared and Raman spectra of solid ZnO-Wurtzite, which are computed using the following three steps:
- Perform Self Consistent Field (SCF) calculation with pw.x
- Calculate the vibrational frequencies (normal modes/phonons) with ph.x
- Extract the phonon information from ph.x output using dynmat.x
The initial setup must be completed before continuing.
Prepare Example Directory
First, make sure we are at the root of our home directory
user $
cd
Now, make an example directory, and copy the ellipse example directory into it.
user $
mkdir examples
user $
cp -r /home/bgo/shared/examples/qe/ZnO examples/
user $
cd examples/ZnO
user $
ls
O.pw-mt_fhi.UPF README Zn.pw-mt_fhi.UPF zno.dm.qei zno.ph.qei zno.scf.qei
We also need a script to submit the job to the cluster. Lets start with the Quantum Espresso sample script in /home/bgo/shared/samples by copying it to our new ZnO example directory.
user $
cp /home/bgo/shared/samples/torque-qe.sh .
user $
ls
O.pw-mt_fhi.UPF Zn.pw-mt_fhi.UPF zno.dm.qei zno.scf.qei README torque-qe.sh zno.ph.qei
The torque-qe.sh script should look something like this:
#PBS -l walltime=10:00:00,nodes=1:ppn=16 ##PBS -M EmailAddress ##PBS -m bae #PBS -q default #PBS -N Jobname #PBS -o myoutput.txt #PBS -j oe QE_MODULE=pw.x . $(which qe-config) # The input file must have a '.qei' extension (e.g., mysimulation.qei). INPUTFILE=mysimulation doQE
The submission script we just copied has default settings that have to be modified for this simulation. Lucky, most of the defaults work for the ZnO simulation (1 node, 16 processes per node, etc.) and all we have to change is the name of the job, the Quantum Espresso module, and the name of the input file.
Running Quantum Espresso
To calculate the Infrared and Raman spectra we will use three modules of Quantum Espresso: pw.x, to perform a self consistent field calculation; ph.x, to calculate the vibrational frequencies; and dynmat.x, to extract the phonon information.
Self Consistent Field (SCF) Calculation
For SCF calculations we need to use the pw.x Quantum Espresso module.
Modify Queue Submission Script
Changing the job name to ZnO-pw, the Quantum Espresso module to pw.x, and the input file to zno.scf results in a submission script that looks like this:
#PBS -l walltime=10:00:00,nodes=1:ppn=16 ##PBS -M EmailAddress ##PBS -m bae #PBS -q default #PBS -N ZnO-pw #PBS -o myoutput.txt #PBS -j oe QE_CMD=pw.x . $(which qe-config) # The input file must have a '.qei' extension (e.g., mysimulation.qei). INPUTFILE=zno.scf doQE
Submit Job
The job is now ready to be sent to the cluster.
user $
qsub torque-qe.sh
user $
qstat
Job ID Name User Time Use S Queue ------------------------- ---------------- --------------- -------- - ----- 14222.flory ZnO-pw user 00:00:35 R default
The job should take about 1 minute. Check the job status with qstat to see when it is finished; when the job is no longer listed it has finished.
Check Results
When the job completes you should find the following files:
user $
ls -lh
total 400K -rw-r--r-- 1 user user 162K Jan 3 14:36 O.pw-mt_fhi.UPF -rw-r--r-- 1 user user 2.1K Jan 3 14:36 README -rw-r--r-- 1 user user 180K Jan 3 14:36 Zn.pw-mt_fhi.UPF -rw------- 1 user user 14K Jan 3 14:37 myoutput.txt drwxrwxr-x 3 user user 4.0K Jan 3 14:37 tmp -rwxr-xr-x 1 user user 271 Jan 3 14:36 torque-qe.sh -rw-r--r-- 1 user user 117 Jan 3 14:36 zno.dm.qei -rw-r--r-- 1 user user 255 Jan 3 14:36 zno.ph.qei -rw-rw-r-- 1 user user 13K Jan 3 14:37 zno.scf.out -rw-r--r-- 1 user user 720 Jan 3 14:36 zno.scf.qei
Calculate the vibrational frequencies (normal modes/phonons)
No we use the ph.x module of Quantum Espresso to calculate the vibrational frequencies of ZnO.
Modify Queue Submission Script
Changing the job name to ZnO-ph, the Quantum Espresso module to ph.x, and the input file to zno.ph results in a submission script that looks like this:
#PBS -l walltime=10:00:00,nodes=1:ppn=16 ##PBS -M EmailAddress ##PBS -m bae #PBS -q default #PBS -N ZnO-ph #PBS -o myoutput.txt #PBS -j oe QE_CMD=ph.x . $(which qe-config) # The input file must have a '.qei' extension (e.g., mysimulation.qei). INPUTFILE=zno.ph doQE
Submit Job
Send the job to the cluster:
user $
qsub torque-qe.sh
user $
qstat
Job ID Name User Time Use S Queue ------------------------- ---------------- --------------- -------- - ----- 14223.flory ZnO-ph user 00:00:35 R default
The job should take about 5 minutes. Check the job status with qstat to see when it is finished; when the job is no longer listed it has finished.
Check Results
When the job completes you should find the following files:
user $
ls -lh
-rw-r--r-- 1 user user 162K Jan 3 14:37 O.pw-mt_fhi.UPF -rw-r--r-- 1 user user 2.1K Jan 3 14:37 README -rw-r--r-- 1 user user 180K Jan 3 14:37 Zn.pw-mt_fhi.UPF -rw-rw-r-- 1 user user 13K Jan 3 14:43 dmat.zno -rw-rw-r-- 1 user user 2.4M Jan 3 14:38 drho_e1 -rw-rw-r-- 1 user user 2.4M Jan 3 14:38 drho_e2 -rw-rw-r-- 1 user user 2.4M Jan 3 14:38 drho_e3 -rw------- 1 user user 33K Jan 3 14:43 myoutput.txt drwxrwxr-x 4 user user 4.0K Jan 3 14:38 tmp -rwxr-xr-x 1 user user 270 Jan 3 14:37 torque-qe.sh -rw-r--r-- 1 user user 117 Jan 3 14:37 zno.dm.qei -rw-rw-r-- 1 user user 32K Jan 3 14:43 zno.ph.out -rw-r--r-- 1 user user 255 Jan 3 14:37 zno.ph.qei -rw-rw-r-- 1 user user 13K Jan 3 14:37 zno.scf.out -rw-r--r-- 1 user user 720 Jan 3 14:37 zno.scf.qei
Phonon Information
Now use the dynmat.x Quantum Espresso module to extract the Infrared and Raman spectra data from the results of the previous two jobs.
Modify Queue Submission Script
Changing the job name to ZnO-dynmat, the Quantum Espresso module to dynmat.x, and the input file to zno.dm results in a submission script that looks like this:
#PBS -l walltime=10:00:00,nodes=1:ppn=16 ##PBS -M EmailAddress ##PBS -m bae #PBS -q default #PBS -N ZnO-dynmat #PBS -o myoutput.txt #PBS -j oe QE_CMD=dynmat.x . $(which qe-config) # The input file must have a '.qei' extension (e.g., mysimulation.qei). INPUTFILE=zno.dm doQE
Submit Job
The job is now ready to be sent to the cluster.
user $
qsub torque-qe.sh
user $
qstat
Job ID Name User Time Use S Queue ------------------------- ---------------- --------------- -------- - ----- 14224.flory ZnO-dynmat user 00:00:35 R default
The job should take less than a minute. Check the job status with qstat to see when it is finished; when the job is no longer listed it has finished.
Check Results
When the job completes you should find the following files:
user $
ls -lh
total 7.7M -rw-r--r-- 1 user user 162K Jan 3 14:46 O.pw-mt_fhi.UPF -rw-r--r-- 1 user user 2.1K Jan 3 14:46 README -rw-r--r-- 1 user user 180K Jan 3 14:46 Zn.pw-mt_fhi.UPF -rw-rw-r-- 1 user user 13K Jan 3 14:46 dmat.zno -rw-rw-r-- 1 user user 2.4M Jan 3 14:46 drho_e1 -rw-rw-r-- 1 user user 2.4M Jan 3 14:46 drho_e2 -rw-rw-r-- 1 user user 2.4M Jan 3 14:46 drho_e3 -rw------- 1 user user 3.0K Jan 3 14:47 myoutput.txt drwxrwxr-x 4 user user 4.0K Jan 3 14:46 tmp -rwxr-xr-x 1 user user 278 Jan 3 14:47 torque-qe.sh -rwxr-xr-x 1 user user 274 Jan 3 14:46 torque-qe.sh~ -rw-rw-r-- 1 user user 2.4K Jan 3 14:47 zno.dm.out -rw-r--r-- 1 user user 117 Jan 3 14:46 zno.dm.qei -rw-rw-r-- 1 user user 32K Jan 3 14:46 zno.ph.out -rw-r--r-- 1 user user 255 Jan 3 14:46 zno.ph.qei -rw-rw-r-- 1 user user 13K Jan 3 14:46 zno.scf.out -rw-r--r-- 1 user user 720 Jan 3 14:46 zno.scf.qei -rw-rw-r-- 1 user user 3.7K Jan 3 14:47 zno_raman.axsf -rw-rw-r-- 1 user user 2.1K Jan 3 14:47 zno_raman.mold -rw-rw-r-- 1 user user 4.6K Jan 3 14:47 zno_raman.out
Spectra Data
IR activities are in (D/A)^2/amu units Raman activities are in A^4/amu units multiply Raman by 0.000650 for Clausius-Mossotti correction # mode [cm-1] [THz] IR Raman depol.fact 1 -0.00 -0.0000 0.0000 5406.9725 0.7500 2 -0.00 -0.0000 0.0000 5757.6500 0.7500 3 -0.00 -0.0000 0.0000 5688.7322 0.7499 4 -0.00 -0.0000 0.0000 171.9037 0.4691 5 0.00 0.0000 0.0000 554.2156 0.5434 6 0.00 0.0000 0.0000 2358.3724 0.7367 7 105.98 3.1773 0.1227 1281.9877 0.7500 8 124.94 3.7456 0.0000 4603.4623 0.7500 9 287.20 8.6100 13.4004 3428.9212 0.7500 10 391.76 11.7446 71.1599 37311.9784 0.1040 11 407.14 12.2057 101.4467 9438.8013 0.7500 12 532.61 15.9672 6.1669 385.1588 0.7500