#-------------------------------------------------------------------------------
# Stage 2.5: Custom code
#-------------------------------------------------------------------------------

thermo_style      custom step v_time press vol v_sysdensity temp ebond eangle edihed eimp evdwl ecoul etail elong pe ke
thermo            100
fix               1 movable nvt temp 298.2 298.2 100 drag 0.0

compute myADF1 subset_Layer1 adf 200 4 7 7 0 2.6 0 2.6
fix ad1 subset_Layer1 ave/time 1 150000 150000 c_myADF1[*] file tmp1.adf mode vector

compute myADF2 subset_Layer1 adf 200 6 7 7 0 3.2 0 3.2
fix ad2 subset_Layer1 ave/time 1 150000 150000 c_myADF2[*] file tmp2.adf mode vector

compute myADF3 subset_Layer1 adf 200 3 7 7 0 3.5 0 3.5
fix ad3 subset_Layer1 ave/time 1 150000 150000 c_myADF3[*] file tmp3.adf mode vector

compute myADF4 subset_Layer1 adf 200 5 7 7 0 2.7 0 2.7
fix ad4 subset_Layer1 ave/time 1 150000 150000 c_myADF4[*] file tmp4.adf mode vector

compute myADF5 subset_Layer1 adf 200 1 7 7 0 3.9 0 3.9
fix ad5 subset_Layer1 ave/time 1 150000 150000 c_myADF5[*] file tmp5.adf mode vector

compute myADF6 subset_Layer1 adf 200 9 7 7 0 4.7 0 4.7
fix ad6 subset_Layer1 ave/time 1 150000 150000 c_myADF6[*] file tmp6.adf mode vector

timestep             1
run                  150000
PPPM initialization ...
  using 12-bit tables for long-range coulomb (../kspace.cpp:340)
  G vector (1/distance) = 0.25956456
  grid = 30 40 60
  stencil order = 5
  estimated absolute RMS force accuracy = 0.0028924598
  estimated relative force accuracy = 8.7105569e-06
  using double precision KISS FFT
  3d grid and FFT values/proc = 13068 4800
  generated 0 of 36 mixed pair_coeff terms from sixthpower mixing rule
Neighbor list info ...
  update every 1 steps, delay 0 steps, check yes
  max neighbors/atom: 2000, page size: 100000
  master list distance cutoff = 14
  ghost atom cutoff = 14
  binsize = 7, bins = 5 7 13
  7 neighbor lists, perpetual/occasional/extra = 1 6 0
  (1) pair lj/class2/coul/long, perpetual
      attributes: half, newton on
      pair build: half/bin/newton
      stencil: half/bin/3d
      bin: standard
  (2) compute adf, occasional
      attributes: full, newton on
      pair build: full/bin
      stencil: full/bin/3d
      bin: standard
  (3) compute adf, occasional
      attributes: full, newton on
      pair build: full/bin
      stencil: full/bin/3d
      bin: standard
  (4) compute adf, occasional
      attributes: full, newton on
      pair build: full/bin
      stencil: full/bin/3d
      bin: standard
  (5) compute adf, occasional
      attributes: full, newton on
      pair build: full/bin
      stencil: full/bin/3d
      bin: standard
  (6) compute adf, occasional
      attributes: full, newton on
      pair build: full/bin
      stencil: full/bin/3d
      bin: standard
  (7) compute adf, occasional
      attributes: full, newton on
      pair build: full/bin
      stencil: full/bin/3d
      bin: standard
Per MPI rank memory allocation (min/avg/max) = 16.43 | 16.71 | 17.45 Mbytes
Step v_time Press Volume v_sysdensity Temp E_bond E_angle E_dihed E_impro E_vdwl E_coul E_tail E_long PotEng KinEng 
 3000000      3000000     365787.4    143799.62     1.371895    210.46862    290.44841    346.89391            0            0    271545.54   -52488.548   -383.45046   -378987.48   -159293.14    8118.1287 
 3000100      3000100    335298.53    143799.62     1.371895    284.58571     7490.807    2855.0232            0            0     274803.6   -67981.436   -383.45046   -379130.09   -161962.09    10976.949 
 3000200      3000200    333298.17    143799.62     1.371895      290.882    7752.7024    3048.1217            0            0    274428.11   -67867.176   -383.45046   -379087.39   -161725.63    11219.808 
 3000300      3000300    334794.68    143799.62     1.371895    295.46758    7601.0601    2736.1557            0            0    275030.43    -67724.26   -383.45046   -379090.49    -161447.1    11396.681 
 3000400      3000400    335377.46    143799.62     1.371895    297.60827    7720.3521    3210.0351            0            0