#!/bin/sh # run from directory where this script is cd `echo $0 | sed 's/\(.*\)\/.*/\1/'` # extract pathname EXAMPLE_DIR=`pwd` # check whether echo has the -e option if test "`echo -e`" = "-e" ; then ECHO=echo ; else ECHO="echo -e" ; fi $ECHO $ECHO "$EXAMPLE_DIR : starting" $ECHO $ECHO "This example tests the Born effective charges and dielectric constant" $ECHO "together with the noncollinear or the spin-orbit part of the code" $ECHO "The collinear version for insulators with fixed total " $ECHO "magnetization is also tested." # set the needed environment variables . ../../../environment_variables # required executables and pseudopotentials BIN_LIST="pw.x ph.x " PSEUDO_LIST="Si.rel-pbe-rrkj.UPF C.pz-rrkjus.UPF O.pbe-rrkjus.UPF" $ECHO $ECHO " executables directory: $BIN_DIR" $ECHO " pseudo directory: $PSEUDO_DIR" $ECHO " temporary directory: $TMP_DIR" $ECHO $ECHO " checking that needed directories and files exist...\c" # check for directories for DIR in "$BIN_DIR" "$PSEUDO_DIR" ; do if test ! -d $DIR ; then $ECHO $ECHO "ERROR: $DIR not existent or not a directory" $ECHO "Aborting" exit 1 fi done for DIR in "$TMP_DIR" "$EXAMPLE_DIR/results" ; do if test ! -d $DIR ; then mkdir $DIR fi done cd $EXAMPLE_DIR/results # check for executables for FILE in $BIN_LIST ; do if test ! -x $BIN_DIR/$FILE ; then $ECHO $ECHO "ERROR: $BIN_DIR/$FILE not existent or not executable" $ECHO "Aborting" exit 1 fi done # check for pseudopotentials for FILE in $PSEUDO_LIST ; do if test ! -r $PSEUDO_DIR/$FILE ; then $ECHO $ECHO "Downloading $FILE to $PSEUDO_DIR...\c" $WGET $PSEUDO_DIR/$FILE $NETWORK_PSEUDO/$FILE 2> /dev/null fi if test $? != 0; then $ECHO $ECHO "ERROR: $PSEUDO_DIR/$FILE not existent or not readable" $ECHO "Aborting" exit 1 fi done $ECHO " done" # how to run executables PW_COMMAND="$PARA_PREFIX $BIN_DIR/pw.x $PARA_POSTFIX" PH_COMMAND="$PARA_PREFIX $BIN_DIR/ph.x $PARA_POSTFIX" $ECHO $ECHO " running pw.x as: $PW_COMMAND" $ECHO " running ph.x as: $PH_COMMAND" $ECHO # clean TMP_DIR $ECHO " cleaning $TMP_DIR...\c" rm -rf $TMP_DIR/Si_pbe* rm -rf $TMP_DIR/_ph0/Si_pbe* $ECHO " done" # # self-consistent calculation. This example demonstrates the use of spin-orbit # together with gga-pbe. Dielectric constant and effective charges # cat > si.scf.in << EOF &control calculation='scf', restart_mode='from_scratch', prefix='Si_pbe', pseudo_dir = '$PSEUDO_DIR', outdir='$TMP_DIR' / &system ibrav = 2, celldm(1) =10.35, nat= 2, ntyp= 1, ecutwfc = 20.0 noncolin=.true., lspinorb=.true., / &electrons mixing_beta = 0.7 conv_thr = 1.0d-10 / ATOMIC_SPECIES Si 28.0855 Si.rel-pbe-rrkj.UPF ATOMIC_POSITIONS (alat) Si 0.00 0.00 0.00 Si 0.25 0.25 0.25 K_POINTS AUTOMATIC 2 2 2 1 1 1 EOF $ECHO " running pw.x for Si with gga-pbe and spin-orbit coupling...\c" $PW_COMMAND < si.scf.in > si.scf.out check_failure $? $ECHO " done" cat > si.phG.in << EOF phonons of Si at Gamma &inputph tr2_ph=1.0d-16, epsil=.true., prefix='Si_pbe', fildyn='Sig.dyn', amass(1)=28.0855, outdir='$TMP_DIR/' / 0.0 0.0 0.0 EOF $ECHO " running ph.x at Gamma for Si with gga-pbe and spin-orbit coupling...\c" $PH_COMMAND < si.phG.in > si.phG.out check_failure $? $ECHO " done" # self-consistent calculation. This example demonstrates the use of # the noncollinear dielectric constants and effective charges. # For diamond these quantities are calculated in example02. The same # calculation is repeated here after setting noncolin=.true. # # clean TMP_DIR $ECHO " cleaning $TMP_DIR...\c" rm -rf $TMP_DIR/carbon* rm -rf $TMP_DIR/_ph0/carbon* $ECHO " done" # cat > c.scf.in << EOF &control calculation='scf', restart_mode='from_scratch', prefix='carbon', pseudo_dir = '$PSEUDO_DIR', outdir='$TMP_DIR' / &system ibrav = 2, celldm(1) =6.74, nat= 2, ntyp= 1, noncolin=.true., ecutwfc = 27.0 ecutrho = 300.0 / &electrons mixing_beta = 0.7 conv_thr = 1.0d-9 / ATOMIC_SPECIES C 12.0107 C.pz-rrkjus.UPF ATOMIC_POSITIONS (alat) C 0.00 0.00 0.00 C 0.25 0.25 0.25 K_POINTS AUTOMATIC 4 4 4 1 1 1 EOF $ECHO " running pw.x for C with noncolin=.true....\c" $PW_COMMAND < c.scf.in > c.scf.out check_failure $? $ECHO " done" cat > c.phG.in << EOF phonons of C at Gamma &inputph tr2_ph=1.0d-14, epsil=.true., prefix='carbon', outdir='$TMP_DIR' / 0.0 0.0 0.0 EOF $ECHO " running ph.x at Gamma for C with noncolin=.true....\c" $PH_COMMAND < c.phG.in > c.phG.out check_failure $? $ECHO " done" # clean TMP_DIR $ECHO " cleaning $TMP_DIR...\c" rm -rf $TMP_DIR/o2_mol* rm -rf $TMP_DIR/_ph0/o2_mol* $ECHO " done" cat > o2.scf.in << EOF o2 o2 molecule in a cubic box &control calculation = 'relax', prefix='o2_mol', tprnfor = .true., pseudo_dir='$PSEUDO_DIR', outdir='$TMP_DIR' / &system ibrav= 1, celldm(1) =10.0, nat=2, ntyp= 1, ecutwfc =45, ecutrho =500, nspin=2 starting_magnetization=0.5, tot_magnetization=2.0 / &electrons mixing_beta = 0.5, conv_thr = 1.0d-10 / &ions / ATOMIC_SPECIES O 0.0 O.pbe-rrkjus.UPF ATOMIC_POSITIONS BOHR O -1.156 0.000000000 0.000000000 O 1.156 0.000000000 0.000000000 K_POINTS AUTOMATIC 1 1 1 0 0 0 EOF $ECHO " running pw.x at Gamma for O2 with LSDA and constrained magnetization...\c" $PW_COMMAND < o2.scf.in > o2.scf.out check_failure $? $ECHO " done" cat > o2.phG.in << EOF phonons of O2 at Gamma &inputph tr2_ph=1.0d-15, epsil=.true., zue=.true., prefix='o2_mol', outdir='$TMP_DIR' / 0.0 0.0 0.0 EOF $ECHO " running ph.x at Gamma for O2 with LSDA and constrained magnetization...\c" $PH_COMMAND < o2.phG.in > o2.phG.out check_failure $? $ECHO " done" # clean TMP_DIR $ECHO " cleaning $TMP_DIR...\c" rm -rf $TMP_DIR/o2_nc_mol* rm -rf $TMP_DIR/_ph0/o2_nc_mol* $ECHO " done" cat > o2_nc.scf.in << EOF o2 o2 molecule in a cubic box &control calculation = 'relax', prefix='o2_nc_mol', tprnfor = .true., pseudo_dir='$PSEUDO_DIR', outdir='$TMP_DIR' / &system ibrav= 1, celldm(1) =10.0, nat=2, ntyp= 1, ecutwfc =45, ecutrho =500, nspin=4 starting_magnetization=0.5, / &electrons mixing_beta = 0.5, conv_thr = 1.0d-10 / &ions / ATOMIC_SPECIES O 0.0 O.pbe-rrkjus.UPF ATOMIC_POSITIONS BOHR O 0.0 0.0 -1.156 O 0.0 0.0 1.156 K_POINTS AUTOMATIC 1 1 1 0 0 0 EOF $ECHO " running pw.x at Gamma for O2 with noncolin=.true....\c" $PW_COMMAND < o2_nc.scf.in > o2_nc.scf.out check_failure $? $ECHO " done" cat > o2_nc.phG.in << EOF phonons of O2 at Gamma &inputph tr2_ph=1.0d-15, epsil=.true., zue=.true., prefix='o2_nc_mol', outdir='$TMP_DIR' / 0.0 0.0 0.0 EOF $ECHO " running ph.x at Gamma for O2 with noncolin=.true....\c" $PH_COMMAND < o2_nc.phG.in > o2_nc.phG.out check_failure $? $ECHO " done" $ECHO $ECHO "$EXAMPLE_DIR: done"