*Anthracene [#jf0cc19e] This tutorial explains how to obtain the maximally localized Wannier function of an anthracene crystal. ** Relaxation [#bcb693f4] First of all, optimize the atomic positions as well as the cell parameters. ** SCF calculation [#bd0ff31d] A single point (SCF) calculation is performed by using the optimized structure (using the input file&ref(c28h20.scf.in);). ** Non-SCF calculation [#i0244065] To prepare for the calculation of the max. loc. Wannier function, non-SCF calculation using a k-point set generated by using utility/kmesh.pl. To generate, for instance, a 4 x 4 x 4 k-point set, execute kmesh.pl 4 4 4 and use the generated k-points to create the input file for the non-SCF calculation (&ref(c28h20.nscf.in);) ** Post-processing [#sc20ef23] *** wannier90.x -pp [#kcfd01ae] After the non-SCF calculation, *.win to be generated first and one uses the following commands. Let us name &ref(c28h20.win); and then execute wannier90.x -pp c28h20 *** pw2wannier90.x [#m81cc908] Then execute pw2wannier90.x as other commands in the QE suite such as pw.x using the input file (e.g., &ref(c28h20.pw2wan);). Note the same number of cores should be used as the SCF/Non-SCF calculation if wf_collect=.false. *** wannier90.x [#hcd45837] Finally execute wannier90.x wannier90.x c28h20 Note Wannier90 (<3) is not parallelized and it is not necessary to use mpirun nor the same number of cores for SCF and non-SCF calculations.