How to use Yambo:advanced usage: Difference between revisions
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== | This module presents examples of more advanced usage of the Yambo command line interface. | ||
''' | == Prerequisites == | ||
'''Previous modules''' | |||
* Initialization for [[Bulk_material:_h-BN|bulk hBN]]. | |||
Here is an example of how to combine several command line options. Starting from the usual folder containing the ''SAVE'', do | '''You will need''': | ||
$ mkdir | * The <code>SAVE</code> databases for bulk hBN ('''Download here''') | ||
$ cd | * The <code>yambo</code> executable | ||
==Lowercase options: input file generation== | |||
Yambo reads various parameters from existing database files and/or input files and use them to suggest values or ranges. | |||
Let's illustrate this by calculating the static screening for bulk hBN. | |||
$ cd YAMBO_TUTORIALS/hBN/YAMBO | |||
$ yambo ''(initialize, if you haven't already done so)'' | |||
$ yambo -b | |||
and look at the generated input file. Inside you will see a suggested range of bands, which Yambo guesses from the core <code>ns.db1</code> database. | |||
% BndsRnXd | |||
1 | 100 | # [Xd] Polarization function bands | |||
% | |||
Change these values to <code> 8 | 9 | </code>, save and exit the editor. Now launch the input file generator again: | |||
$ yambo -b | |||
and notice that your chosen values remain: they are simply read from the <code>yambo.in</code> file. | |||
Now run the calculation. To keep things neat, add the <code>-J TEST1</code> option, which directs all output to a directory ''TEST1''. | |||
$ yambo -J TEST1 | |||
After a few seconds, the code finishes. If you now look inside the ''TEST1'' folder, you will see several new databases: | |||
$ ls TEST1 | |||
ndb.dip_iR_and_P ndb.em1s [...] | |||
Delete the input file ''yambo.in'', and generate the input file for a different task: optical response in the independent particle approximation. | |||
$ rm yambo.in | |||
$ yambo -J TEST1 -o c | |||
Looking inside the input file you will find: | |||
% BndsRnXd | |||
8 | 9 | # [Xd] Polarization function bands | |||
% | |||
Here, Yambo has read from the <code>ndb.dip_iR_and_P</code> database and suggests to use the previous values. | |||
If at this stage, you decide to change these values (increase the range), Yambo will ''recompute'' the relevant database. | |||
==Uppercase options: command line options== | |||
Here is an example of how to combine several uppercase command line options. | |||
Starting from the usual folder containing the ''SAVE'', do | |||
$ mkdir TEST2 | |||
$ cd TEST2 | |||
$ yambo -F yambo.in_IP -I ../ -C q100 -J 3Ry -V RL -o c ''and change to'' | $ yambo -F yambo.in_IP -I ../ -C q100 -J 3Ry -V RL -o c ''and change to'' | ||
FFTGvecs= 3 Ry # [FFT] Plane-waves | FFTGvecs= 3 Ry # [FFT] Plane-waves | ||
| Line 21: | Line 58: | ||
The overall result is very neatly organised. Remember to check the report file to verify which databases are being WR = written to and RD = read from. | The overall result is very neatly organised. Remember to check the report file to verify which databases are being WR = written to and RD = read from. | ||
Of course, it is up to the user to decide which options they like best. | Of course, it is up to the user to decide which options they like best. | ||
== Links == | |||
* [[Tutorials|Back to tutorials menu]] | |||
Latest revision as of 14:30, 30 March 2017
This module presents examples of more advanced usage of the Yambo command line interface.
Prerequisites
Previous modules
- Initialization for bulk hBN.
You will need:
- The
SAVEdatabases for bulk hBN (Download here) - The
yamboexecutable
Lowercase options: input file generation
Yambo reads various parameters from existing database files and/or input files and use them to suggest values or ranges. Let's illustrate this by calculating the static screening for bulk hBN.
$ cd YAMBO_TUTORIALS/hBN/YAMBO $ yambo (initialize, if you haven't already done so) $ yambo -b
and look at the generated input file. Inside you will see a suggested range of bands, which Yambo guesses from the core ns.db1 database.
% BndsRnXd 1 | 100 | # [Xd] Polarization function bands %
Change these values to 8 | 9 | , save and exit the editor. Now launch the input file generator again:
$ yambo -b
and notice that your chosen values remain: they are simply read from the yambo.in file.
Now run the calculation. To keep things neat, add the -J TEST1 option, which directs all output to a directory TEST1.
$ yambo -J TEST1
After a few seconds, the code finishes. If you now look inside the TEST1 folder, you will see several new databases:
$ ls TEST1 ndb.dip_iR_and_P ndb.em1s [...]
Delete the input file yambo.in, and generate the input file for a different task: optical response in the independent particle approximation.
$ rm yambo.in $ yambo -J TEST1 -o c
Looking inside the input file you will find:
% BndsRnXd 8 | 9 | # [Xd] Polarization function bands %
Here, Yambo has read from the ndb.dip_iR_and_P database and suggests to use the previous values.
If at this stage, you decide to change these values (increase the range), Yambo will recompute the relevant database.
Uppercase options: command line options
Here is an example of how to combine several uppercase command line options. Starting from the usual folder containing the SAVE, do
$ mkdir TEST2 $ cd TEST2 $ yambo -F yambo.in_IP -I ../ -C q100 -J 3Ry -V RL -o c and change to FFTGvecs= 3 Ry # [FFT] Plane-waves $ yambo -F yambo.in_IP -I ../ -C q100 -J 3Ry -V RL
You will notice
<---> [WF] Performing Wave-Functions I/O from ..//SAVE <---> Dipoles: P and iR (T): |########################################| [100%] --(E) --(X)
with the ndb.dip_iR_and_P databases written in 3Ry, and output files inside the folder q100. Now select a different q-component and run again:
$ yambo -F yambo.in_IP -I ../ -C q001 -J 3Ry -V RL -o c and change to % LongDrXd 0.000000 | 0.000000 | 1.000000 | # [Xd] [cc] Electric Field % $ yambo -F yambo.in_IP -I ../ -C q001 -J 3Ry -V RL
For this run, yambo reads the database from the 3Ry folder, does a quick calculation, and writes the outputs inside q001.
The overall result is very neatly organised. Remember to check the report file to verify which databases are being WR = written to and RD = read from. Of course, it is up to the user to decide which options they like best.