In this tutorial we will explain how to visualize outputs from Octopus. Several different file formats are available in Octopus that are suitable for a variety of visualization software. We will not cover all of them here. See Visualization for more information.
As an example, we will use the benzene molecule. At this point, the input should be quite familiar to you:
CalculationMode = gs UnitsOutput = eV_Angstrom Radius = 5*angstrom Spacing = 0.15*angstrom %Output wfs density elf potential % OutputFormat = cube + xcrysden + dx + axis_x + plane_z XYZCoordinates = "benzene.xyz"
Coordinates are in this case given in the benzene.xyz file. This file should look like:
12 Geometry of benzene (in Angstrom) C 0.000 1.396 0.000 C 1.209 0.698 0.000 C 1.209 -0.698 0.000 C 0.000 -1.396 0.000 C -1.209 -0.698 0.000 C -1.209 0.698 0.000 H 0.000 2.479 0.000 H 2.147 1.240 0.000 H 2.147 -1.240 0.000 H 0.000 -2.479 0.000 H -2.147 -1.240 0.000 H -2.147 1.240 0.000
Here we have used two new input variables:
- Output: this tells Octopus what quantities to output.
- OutputFormat: specifies the format of the output files.
In this case we ask Octopus to output the wavefunctions (
wfs), the density, the electron localization function (
elf) and the Kohn-Sham potential. We ask Octopus to generate this output in several formats, that are required for the different visualization tools that we mention below. If you want to save some disk space you can just keep the option that corresponds to the program you will use. Take a look at the documentation on variables Output and OutputFormat for the full list of possible quantities to output and formats to visualize them in.
If you now run Octopus with this input file, you should get the following files in the static directory:
%ls static convergence forces vh.z=0 wf-st0001.cube wf-st0003.dx wf-st0005.xsf wf-st0007.y=0,z=0 wf-st0009.z=0 wf-st0012.cube wf-st0014.dx density.cube info vks.cube wf-st0001.dx wf-st0003.xsf wf-st0005.y=0,z=0 wf-st0007.z=0 wf-st0010.cube wf-st0012.dx wf-st0014.xsf density.dx v0.cube vks.dx wf-st0001.xsf wf-st0003.y=0,z=0 wf-st0005.z=0 wf-st0008.cube wf-st0010.dx wf-st0012.xsf wf-st0014.y=0,z=0 density.xsf v0.dx vks.xsf wf-st0001.y=0,z=0 wf-st0003.z=0 wf-st0006.cube wf-st0008.dx wf-st0010.xsf wf-st0012.y=0,z=0 wf-st0014.z=0 density.y=0,z=0 v0.xsf vks.y=0,z=0 wf-st0001.z=0 wf-st0004.cube wf-st0006.dx wf-st0008.xsf wf-st0010.y=0,z=0 wf-st0012.z=0 wf-st0015.cube density.z=0 v0.y=0,z=0 vks.z=0 wf-st0002.cube wf-st0004.dx wf-st0006.xsf wf-st0008.y=0,z=0 wf-st0010.z=0 wf-st0013.cube wf-st0015.dx elf_rs.cube v0.z=0 vxc.cube wf-st0002.dx wf-st0004.xsf wf-st0006.y=0,z=0 wf-st0008.z=0 wf-st0011.cube wf-st0013.dx wf-st0015.xsf elf_rs.dx vh.cube vxc.dx wf-st0002.xsf wf-st0004.y=0,z=0 wf-st0006.z=0 wf-st0009.cube wf-st0011.dx wf-st0013.xsf wf-st0015.y=0,z=0 elf_rs.xsf vh.dx vxc.xsf wf-st0002.y=0,z=0 wf-st0004.z=0 wf-st0007.cube wf-st0009.dx wf-st0011.xsf wf-st0013.y=0,z=0 wf-st0015.z=0 elf_rs.y=0,z=0 vh.xsf vxc.y=0,z=0 wf-st0002.z=0 wf-st0005.cube wf-st0007.dx wf-st0009.xsf wf-st0011.y=0,z=0 wf-st0013.z=0 elf_rs.z=0 vh.y=0,z=0 vxc.z=0 wf-st0003.cube wf-st0005.dx wf-st0007.xsf wf-st0009.y=0,z=0 wf-st0011.z=0 wf-st0014.cube
Visualization of the fields in 3-dimensions is complicated. In many cases it is more useful to plot part of the data, for example the values of a scalar field along a line of plane that can be displayed as a 1D or 2D plot.
gnuplot program is very useful for making these types of plots (and many more) and can directly read Octopus output. First type
gnuplot to enter the program’s command line. Now to plot a the density along a line (the X axis in this case) type
plot "static/density.y=0,z=0" w l
To plot a 2D field, for example the density in the plane z=0, you can use the command
splot "static/density.z=0" w l
If you want to get a color scale for the values of the field use “
w pm3d” instead of “
The above plot has been produced with the script:
set xlabel "x" set ylabel "y" set zlabel "density" set t postscript enhanced color font "Monospace-Bold,20" landscape size 11,8.5 set output "benzene_2D.eps" set key left set rmargin 4.5 set lmargin 9.5 set tmargin 3.2 set bmargin 5.5 set view 20, 350 splot [-5:5][-5:5][0:5] "static/density.z=0" w pm3d t ''
The program VisIt is an open-source data visualizer developed by Lawrence Livermore National Laborartory. It supports multiple platforms including Linux, OS X and Windows, most likely you can download a precompiled version for your platform here.
For this tutorial you need to have Visit installed and running. VisIt can read several formats, the most convenient for Octopus data is the cube format: OutputFormat = cube. This is a common format that can be read by several visualization and analysis programs, it has the advantage that includes both the requested scalar field and the geometry in the same file. Visit can also read other formats that Octopus can generate like xyz, XSF (partial support), and VTK.
The following video contains the instruction on how to open a cube file in VisIt. Note that the video has subtitles in case you don’t have audio in your current location, you can enable them by clicking the “CC” button.
Atomic coordinates (finite or periodic), forces, and functions on a grid can be plotted with the free program XCrysDen. Its XSF format also can be read by V_Sim and VESTA. Beware, these all probably assume that your output is in Angstrom units (according to the specification), so use UnitsOutput = eV_Angstrom, or your data will be misinterpreted by the visualization software.
Those .dx files can be also be opened by UCSF Chimera .
Once having UCSF Chimera installed and opened, open the benzene.xyz file from ‘‘‘File > Open’'’.
To open the .dx file, go to ‘‘‘Tools > Volume Data > Volume Viewer’'’. A new window opens. There go to ‘‘‘File > Open’’’ and select static/density.dx .
To “color” the density go to ‘‘‘Tools > Surface Color’'’. A new dialog opens and there choose ‘‘‘Browse’’’ to open the vh.dx file. Then click ‘‘‘Color’’’ and you should have an image similar to the below one.