update local/density examples to follow conventions more closely

examples/PACKAGES/local_density/benzene_water/benzene_water.localdensity.table

@@ -1,4 +1,4 @@
-# local density potentials: (B,B), (W,W), (B,W), (W,B)
+# local density potentials: (B,B), (W,W), (B,W), (W,B)  UNITS: real
 
 4 500
 

examples/PACKAGES/local_density/benzene_water/benzene_water.pair.table

@@ -1,4 +1,4 @@
-
+# UNITS: real
 PairBB
 N 500 R  2.00000e-02  1.32500e+01
 

examples/PACKAGES/local_density/benzene_water/in.benzene_water

@@ -11,7 +11,7 @@
 
 # Initialize simulation box
 dimension       3
-boundary        p p p 
+boundary        p p p
 units           real
 atom_style      molecular
 
@@ -32,7 +32,7 @@ pair_coeff          *     *    local/density  benzene_water.localdensity.table
 fix recentering all recenter 0.0 0.0 0.0 units box
 
 # Thermostat & time integration
-timestep        2.0 
+timestep        2.0
 thermo          100
 thermo_style    custom temp ke pe etotal ebond eangle edihed evdwl
 
@@ -49,14 +49,14 @@ run             5000
 
 # Turn off recentering during production phase
 unfix recentering
+reset_timestep  0
 
 # Setup trajectory output
-dump            myDump all custom 100 benzene_water.lammpstrj.gz id type x y z element
-dump_modify     myDump element B W
-dump_modify     myDump sort id
+#dump            myDump all custom 100 benzene_water.lammpstrj.gz id type x y z element
+#dump_modify     myDump element B W
+#dump_modify     myDump sort id
 
 # Production (for realistic results, run for 10000000 steps)
-reset_timestep  0
-run             1000             
+run             1000
 
 

examples/PACKAGES/local_density/methanol_implicit_water/in.methanol_implicit_water

@@ -1,6 +1,6 @@
 # LAMMPS input file for 50.0% methanol mole fraction solution
 # with 2500 methanol molecules in implicit water.
-# 
+#
 #
 # Author: David Rosenberger, van der Vegt Group, TU Darmstadt
 #
@@ -9,7 +9,7 @@
 
 # Initialize simulation box
 dimension       3
-boundary        p p p 
+boundary        p p p
 units           real
 atom_style      molecular
 
@@ -17,7 +17,7 @@ atom_style      molecular
 pair_style      hybrid/overlay table spline 500 local/density
 
 # Read molecule data and set initial velocities
-read_data       methanol_implicit_water.data 
+read_data       methanol_implicit_water.data
 velocity        all create  3.0000e+02 12142 rot yes dist gaussian
 
 # Assign potentials
@@ -31,7 +31,7 @@ pair_coeff          *     * local/density methanol_implicit_water.localdensity.t
 fix recentering all recenter 0.0 0.0 0.0 units box
 
 #Thermostat & time integration
-timestep        1.0 
+timestep        1.0
 thermo          100
 thermo_style    custom etotal ke pe temp evdwl
 
@@ -52,15 +52,14 @@ run             2000
 
 #turn off recentering during production run
 unfix recentering
-
+reset_timestep  0
 
 #setup trajectory output
-dump            myDump all custom 100 methanol_implicit_water.lammpstrj.gz id type x y z element
-dump_modify     myDump element M
-dump_modify     myDump sort id
+#dump            myDump all custom 100 methanol_implicit_water.lammpstrj.gz id type x y z element
+#dump_modify     myDump element M
+#dump_modify     myDump sort id
 
 #run production (for realistic results, run for 10000000 steps)
-reset_timestep  0
 thermo          1000
 thermo_style    custom etotal ke pe temp  evdwl
 run             10000

examples/PACKAGES/local_density/methanol_implicit_water/methanol_implicit_water.localdensity.table

@@ -1,4 +1,4 @@
-#LOCAL DENSITY POTENTIALS
+#LOCAL DENSITY POTENTIALS  UNITS: real
 
 1 500
 

examples/PACKAGES/local_density/methanol_implicit_water/methanol_implicit_water.pair.table

@@ -1,4 +1,4 @@
-
+# UNITS: real
 PairMM
 N 500 R  2.00000e-02  1.50000e+01