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Addd born/matrix numdiff to example

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This commit is contained in:
Aidan Thompson
2022-02-19 17:07:21 -07:00
parent 563f98b898
commit 335fa2e742
6 changed files with 461 additions and 361 deletions
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11
examples/numdiff/README.md
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@ -1,8 +1,11 @@
# LAMMPS FIX NUMDIFF EXAMPLE
# LAMMPS NUMDIFF EXAMPLES FOR FORCES, VIRIAL, and BORN MATRIX
## Numerical Difference Fix
## Numerical Difference Fixes and Computes
This directory contains the ingredients to run an NVE simulation using the numerical difference fix and calculate error in forces.
This directory contains the input script for an NVE simulation with
fix numdiff, fix numdiff/virial, and compute born/matrix numdiff.
In each cases, results are compared to exact analytic expressions
and the small relative differences are reported.
Example:
```
@ -10,4 +13,4 @@ NP=4 #number of processors
mpirun -np $NP lmp_mpi -in.numdiff
```
## Required LAMMPS packages: MOLECULE package
## Required LAMMPS packages: EXTRA-FIX, EXTRA-COMPUTE

67
examples/numdiff/in.numdiff
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# Numerical difference calculation
# of error in forces and virial stress
# of error in forces, virial stress, and Born matrix
# adjustable parameters
@ -8,8 +8,10 @@ variable nthermo index 10 # thermo output interval
variable ndump index 500 # dump output interval
variable nlat index 3 # size of box
variable fdelta index 1.0e-4 # displacement size
variable vdelta index 1.0e-6 # strain size
variable vdelta index 1.0e-6 # strain size for numdiff/virial
variable bdelta index 1.0e-8 # strain size for numdiff Born matrix
variable temp index 10.0 # temperature
variable nugget equal 1.0e-6 # regularization for relerr
units metal
atom_style atomic
@ -23,8 +25,8 @@ mass 1 39.903
velocity all create ${temp} 2357 mom yes dist gaussian
pair_style lj/cubic
pair_coeff * * 0.0102701 3.42
pair_style lj/cut 5.0
pair_coeff 1 1 0.0102701 3.42
neighbor 0.0 bin
neigh_modify every 1 delay 0 check no
@ -42,7 +44,7 @@ variable ferrsq atom v_ferrx^2+v_ferry^2+v_ferrz^2
compute faverrsq all reduce ave v_ferrsq
variable fsq atom fx^2+fy^2+fz^2
compute favsq all reduce ave v_fsq
variable frelerr equal sqrt(c_faverrsq/c_favsq)
variable frelerr equal sqrt(c_faverrsq/(c_favsq+${nugget}))
dump errors all custom ${ndump} force_error.dump v_ferrx v_ferry v_ferrz
# define numerical virial stress tensor calculation
@ -67,8 +69,59 @@ variable vsq equal "c_myvirial[1]^2 + &
c_myvirial[4]^2 + &
c_myvirial[5]^2 + &
c_myvirial[6]^2"
variable vrelerr equal sqrt(v_verrsq/v_vsq)
variable vrelerr equal sqrt(v_verrsq/(v_vsq+${nugget}))
thermo_style custom step temp pe etotal press v_frelerr v_vrelerr
# define numerical Born matrix calculation
compute bornnum all born/matrix numdiff ${bdelta} myvirial
compute born all born/matrix
variable berr vector c_bornnum-c_born
variable berrsq equal "v_berr[1]^2 + &
v_berr[2]^2 + &
v_berr[3]^2 + &
v_berr[4]^2 + &
v_berr[5]^2 + &
v_berr[6]^2 + &
v_berr[7]^2 + &
v_berr[8]^2 + &
v_berr[9]^2 + &
v_berr[10]^2 + &
v_berr[11]^2 + &
v_berr[12]^2 + &
v_berr[13]^2 + &
v_berr[14]^2 + &
v_berr[15]^2 + &
v_berr[16]^2 + &
v_berr[17]^2 + &
v_berr[18]^2 + &
v_berr[19]^2 + &
v_berr[20]^2 + &
v_berr[21]^2"
variable bsq equal "c_born[1]^2 + &
c_born[2]^2 + &
c_born[3]^2 + &
c_born[4]^2 + &
c_born[5]^2 + &
c_born[6]^2 + &
c_born[7]^2 + &
c_born[8]^2 + &
c_born[9]^2 + &
c_born[10]^2 + &
c_born[11]^2 + &
c_born[12]^2 + &
c_born[13]^2 + &
c_born[14]^2 + &
c_born[15]^2 + &
c_born[16]^2 + &
c_born[17]^2 + &
c_born[18]^2 + &
c_born[19]^2 + &
c_born[20]^2 + &
c_born[21]^2"
variable brelerr equal sqrt(v_berrsq/(v_bsq+${nugget}))
thermo_style custom step temp pe etotal press v_frelerr v_vrelerr v_brelerr
thermo ${nthermo}
run ${nsteps}

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LAMMPS (7 Jan 2022)
# Numerical difference calculation
# of error in forces, virial stress, and Born matrix
# adjustable parameters
variable nsteps index 500 # length of run
variable nthermo index 10 # thermo output interval
variable ndump index 500 # dump output interval
variable nlat index 3 # size of box
variable fdelta index 1.0e-4 # displacement size
variable vdelta index 1.0e-6 # strain size for numdiff/virial
variable bdelta index 1.0e-8 # strain size for numdiff Born matrix
variable temp index 10.0 # temperature
variable nugget equal 1.0e-6 # regularization for relerr
units metal
atom_style atomic
atom_modify map yes
lattice fcc 5.358000
Lattice spacing in x,y,z = 5.358 5.358 5.358
region box block 0 ${nlat} 0 ${nlat} 0 ${nlat}
region box block 0 3 0 ${nlat} 0 ${nlat}
region box block 0 3 0 3 0 ${nlat}
region box block 0 3 0 3 0 3
create_box 1 box
Created orthogonal box = (0 0 0) to (16.074 16.074 16.074)
1 by 1 by 1 MPI processor grid
create_atoms 1 box
Created 108 atoms
using lattice units in orthogonal box = (0 0 0) to (16.074 16.074 16.074)
create_atoms CPU = 0.000 seconds
mass 1 39.903
velocity all create ${temp} 2357 mom yes dist gaussian
velocity all create 10.0 2357 mom yes dist gaussian
pair_style lj/cut 5.0
pair_coeff 1 1 0.0102701 3.42
neighbor 0.0 bin
neigh_modify every 1 delay 0 check no
timestep 0.001
fix nve all nve
# define numerical force calculation
fix numforce all numdiff ${nthermo} ${fdelta}
fix numforce all numdiff 10 ${fdelta}
fix numforce all numdiff 10 1.0e-4
variable ferrx atom f_numforce[1]-fx
variable ferry atom f_numforce[2]-fy
variable ferrz atom f_numforce[3]-fz
variable ferrsq atom v_ferrx^2+v_ferry^2+v_ferrz^2
compute faverrsq all reduce ave v_ferrsq
variable fsq atom fx^2+fy^2+fz^2
compute favsq all reduce ave v_fsq
variable frelerr equal sqrt(c_faverrsq/(c_favsq+${nugget}))
variable frelerr equal sqrt(c_faverrsq/(c_favsq+1e-06))
dump errors all custom ${ndump} force_error.dump v_ferrx v_ferry v_ferrz
dump errors all custom 500 force_error.dump v_ferrx v_ferry v_ferrz
# define numerical virial stress tensor calculation
compute myvirial all pressure NULL virial
fix numvirial all numdiff/virial ${nthermo} ${vdelta}
fix numvirial all numdiff/virial 10 ${vdelta}
fix numvirial all numdiff/virial 10 1.0e-6
variable errxx equal f_numvirial[1]-c_myvirial[1]
variable erryy equal f_numvirial[2]-c_myvirial[2]
variable errzz equal f_numvirial[3]-c_myvirial[3]
variable erryz equal f_numvirial[4]-c_myvirial[6]
variable errxz equal f_numvirial[5]-c_myvirial[5]
variable errxy equal f_numvirial[6]-c_myvirial[4]
variable verrsq equal "v_errxx^2 + v_erryy^2 + v_errzz^2 + v_erryz^2 + v_errxz^2 + v_errxy^2"
variable vsq equal "c_myvirial[1]^2 + c_myvirial[3]^2 + c_myvirial[3]^2 + c_myvirial[4]^2 + c_myvirial[5]^2 + c_myvirial[6]^2"
variable vrelerr equal sqrt(v_verrsq/(v_vsq+${nugget}))
variable vrelerr equal sqrt(v_verrsq/(v_vsq+1e-06))
# define numerical Born matrix calculation
compute bornnum all born/matrix numdiff ${bdelta} myvirial
compute bornnum all born/matrix numdiff 1.0e-8 myvirial
compute born all born/matrix
variable berr vector c_bornnum-c_born
variable berrsq equal "v_berr[1]^2 + v_berr[2]^2 + v_berr[3]^2 + v_berr[4]^2 + v_berr[5]^2 + v_berr[6]^2 + v_berr[7]^2 + v_berr[8]^2 + v_berr[9]^2 + v_berr[10]^2 + v_berr[11]^2 + v_berr[12]^2 + v_berr[13]^2 + v_berr[14]^2 + v_berr[15]^2 + v_berr[16]^2 + v_berr[17]^2 + v_berr[18]^2 + v_berr[19]^2 + v_berr[20]^2 + v_berr[21]^2"
variable bsq equal "c_born[1]^2 + c_born[2]^2 + c_born[3]^2 + c_born[4]^2 + c_born[5]^2 + c_born[6]^2 + c_born[7]^2 + c_born[8]^2 + c_born[9]^2 + c_born[10]^2 + c_born[11]^2 + c_born[12]^2 + c_born[13]^2 + c_born[14]^2 + c_born[15]^2 + c_born[16]^2 + c_born[17]^2 + c_born[18]^2 + c_born[19]^2 + c_born[20]^2 + c_born[21]^2"
variable brelerr equal sqrt(v_berrsq/(v_bsq+${nugget}))
variable brelerr equal sqrt(v_berrsq/(v_bsq+1e-06))
thermo_style custom step temp pe etotal press v_frelerr v_vrelerr v_brelerr
thermo ${nthermo}
thermo 10
run ${nsteps}
run 500
generated 0 of 0 mixed pair_coeff terms from geometric mixing rule
Neighbor list info ...
update every 1 steps, delay 0 steps, check no
max neighbors/atom: 2000, page size: 100000
master list distance cutoff = 5
ghost atom cutoff = 5
binsize = 2.5, bins = 7 7 7
2 neighbor lists, perpetual/occasional/extra = 1 1 0
(1) pair lj/cut, perpetual
attributes: half, newton on
pair build: half/bin/atomonly/newton
stencil: half/bin/3d
bin: standard
(2) compute born/matrix, occasional, copy from (1)
attributes: half, newton on
pair build: copy
stencil: none
bin: none
Per MPI rank memory allocation (min/avg/max) = 6.823 | 6.823 | 6.823 Mbytes
Step Temp PotEng TotEng Press v_frelerr v_vrelerr v_brelerr
0 10 -6.6101864 -6.471878 947.70558 5.7012262e-09 1.4849734e-08 9.072204e-09
10 9.9357441 -6.6092976 -6.471878 949.3486 1.3828998e-08 1.9248385e-09 3.0140952e-09
20 9.7444561 -6.6066519 -6.4718779 954.23637 1.385204e-08 1.7476399e-09 2.8104946e-09
30 9.4311148 -6.6023181 -6.4718779 962.23331 1.4147226e-08 1.7647816e-09 3.038408e-09
40 9.0043293 -6.5964152 -6.4718778 973.10762 1.4128155e-08 1.6390138e-09 3.1677083e-09
50 8.4762135 -6.5891108 -6.4718777 986.53572 1.4168048e-08 2.3910821e-09 3.2880496e-09
60 7.8621735 -6.5806179 -6.4718775 1002.1092 1.411958e-08 2.0683414e-09 2.650625e-09
70 7.1805874 -6.5711908 -6.4718773 1019.3448 1.4139911e-08 1.6084571e-09 2.7690475e-09
80 6.4523557 -6.5611186 -6.4718771 1037.6974 1.4105096e-08 1.9929271e-09 3.7464396e-09
90 5.7003071 -6.5507169 -6.4718769 1056.5767 1.4084183e-08 1.750579e-09 4.1502319e-09
100 4.9484503 -6.5403179 -6.4718767 1075.3674 1.4063796e-08 1.0250271e-09 3.0940885e-09
110 4.221081 -6.5302576 -6.4718765 1093.4526 1.400901e-08 1.389277e-09 3.3111451e-09
120 3.5417733 -6.520862 -6.4718763 1110.2388 1.4038158e-08 8.6231891e-10 2.6872042e-09
130 2.9323072 -6.5124324 -6.4718762 1125.183 1.4048645e-08 7.0840985e-10 2.5616823e-09
140 2.411607 -6.5052306 -6.471876 1137.8182 1.3968429e-08 1.8508015e-09 3.984183e-09
150 1.9947801 -6.4994654 -6.4718759 1147.7764 1.395965e-08 1.9484728e-09 3.8459442e-09
160 1.6923481 -6.4952825 -6.4718759 1154.8063 1.3948606e-08 1.5275137e-09 3.4566825e-09
170 1.5097515 -6.492757 -6.4718759 1158.7853 1.3845523e-08 1.5455e-09 2.4291888e-09
180 1.4471795 -6.4918916 -6.4718759 1159.7221 1.3788451e-08 1.578099e-09 2.2452653e-09
190 1.4997431 -6.4926187 -6.471876 1157.7529 1.374841e-08 2.142073e-09 2.3614867e-09
200 1.6579637 -6.4948072 -6.4718761 1153.1286 1.3674788e-08 2.111894e-09 3.4774073e-09
210 1.908522 -6.4982727 -6.4718763 1146.1965 1.3639408e-08 1.2386489e-09 2.1550029e-09
220 2.23518 -6.5027908 -6.4718764 1137.3775 1.3524209e-08 1.7016573e-09 3.3806952e-09
230 2.6197892 -6.5081105 -6.4718766 1127.1415 1.3344007e-08 1.5843477e-09 2.9517742e-09
240 3.043298 -6.5139681 -6.4718768 1115.9815 1.3245227e-08 1.5502368e-09 3.7751316e-09
250 3.4866901 -6.5201007 -6.4718769 1104.3906 1.3080142e-08 1.369987e-09 3.1015926e-09
260 3.9318061 -6.5262572 -6.4718771 1092.84 1.2885339e-08 1.0743728e-09 3.2781775e-09
270 4.3620216 -6.5322076 -6.4718772 1081.7617 1.2705966e-08 1.3618619e-09 3.2074528e-09
280 4.7627723 -6.5377504 -6.4718773 1071.5341 1.2480463e-08 1.4346869e-09 2.6014531e-09
290 5.1219322 -6.542718 -6.4718774 1062.4716 1.2434727e-08 2.1935942e-09 2.8738025e-09
300 5.4300557 -6.5469796 -6.4718774 1054.8177 1.2321314e-08 8.2365886e-10 3.0321861e-09
310 5.6804997 -6.5504435 -6.4718774 1048.7409 1.2300884e-08 1.4855741e-09 3.0631008e-09
320 5.8694423 -6.5530567 -6.4718774 1044.3341 1.2483087e-08 1.8711589e-09 3.9505726e-09
330 5.9958115 -6.5548045 -6.4718774 1041.6165 1.2627617e-08 1.9256986e-09 2.0214697e-09
340 6.0611353 -6.555708 -6.4718774 1040.5369 1.2935701e-08 1.6609255e-09 3.0860271e-09
350 6.0693222 -6.5558211 -6.4718773 1040.9803 1.3218179e-08 1.985355e-09 2.8012116e-09
360 6.0263776 -6.5552271 -6.4718773 1042.7755 1.3471701e-08 1.5125203e-09 2.8686484e-09
370 5.9400629 -6.5540332 -6.4718772 1045.7049 1.3676495e-08 1.7364093e-09 2.578312e-09
380 5.8195019 -6.5523657 -6.4718771 1049.515 1.3859995e-08 1.6834835e-09 2.9599336e-09
390 5.6747442 -6.5503635 -6.471877 1053.9288 1.3987553e-08 1.7893896e-09 2.5163687e-09
400 5.5162948 -6.5481719 -6.4718769 1058.6583 1.4091878e-08 1.4468098e-09 2.1565248e-09
410 5.3546269 -6.5459358 -6.4718768 1063.4182 1.4188438e-08 1.7231047e-09 2.8650537e-09
420 5.1996958 -6.5437929 -6.4718768 1067.9384 1.4205207e-08 1.3551982e-09 4.5778887e-09
430 5.0604771 -6.5418673 -6.4718767 1071.9767 1.4267199e-08 1.361845e-09 3.0381078e-09
440 4.9445529 -6.5402639 -6.4718766 1075.3292 1.4253464e-08 1.3945282e-09 2.820632e-09
450 4.8577717 -6.5390637 -6.4718766 1077.8394 1.4240998e-08 1.8767323e-09 3.4379833e-09
460 4.8040023 -6.53832 -6.4718766 1079.4048 1.4242259e-08 1.4785379e-09 4.399133e-09
470 4.7849977 -6.5380571 -6.4718766 1079.9795 1.4227939e-08 1.8623848e-09 3.0102588e-09
480 4.8003794 -6.5382699 -6.4718766 1079.5756 1.4215836e-08 1.2821795e-09 3.0643976e-09
490 4.8477405 -6.538925 -6.4718767 1078.2596 1.4186541e-08 2.47604e-09 3.3809071e-09
500 4.9228588 -6.539964 -6.4718767 1076.1469 1.4099819e-08 1.6653302e-09 3.4324143e-09
Loop time of 0.476785 on 1 procs for 500 steps with 108 atoms
Performance: 90.607 ns/day, 0.265 hours/ns, 1048.692 timesteps/s
99.6% CPU use with 1 MPI tasks x no OpenMP threads
MPI task timing breakdown:
Section | min time | avg time | max time |%varavg| %total
---------------------------------------------------------------
Pair | 0.0043699 | 0.0043699 | 0.0043699 | 0.0 | 0.92
Neigh | 0.026529 | 0.026529 | 0.026529 | 0.0 | 5.56
Comm | 0.0026272 | 0.0026272 | 0.0026272 | 0.0 | 0.55
Output | 0.014971 | 0.014971 | 0.014971 | 0.0 | 3.14
Modify | 0.42777 | 0.42777 | 0.42777 | 0.0 | 89.72
Other | | 0.0005208 | | | 0.11
Nlocal: 108 ave 108 max 108 min
Histogram: 1 0 0 0 0 0 0 0 0 0
Nghost: 256 ave 256 max 256 min
Histogram: 1 0 0 0 0 0 0 0 0 0
Neighs: 648 ave 648 max 648 min
Histogram: 1 0 0 0 0 0 0 0 0 0
Total # of neighbors = 648
Ave neighs/atom = 6
Neighbor list builds = 500
Dangerous builds not checked
Total wall time: 0:00:00

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LAMMPS (7 Jan 2022)
# Numerical difference calculation
# of error in forces, virial stress, and Born matrix
# adjustable parameters
variable nsteps index 500 # length of run
variable nthermo index 10 # thermo output interval
variable ndump index 500 # dump output interval
variable nlat index 3 # size of box
variable fdelta index 1.0e-4 # displacement size
variable vdelta index 1.0e-6 # strain size for numdiff/virial
variable bdelta index 1.0e-8 # strain size for numdiff Born matrix
variable temp index 10.0 # temperature
variable nugget equal 1.0e-6 # regularization for relerr
units metal
atom_style atomic
atom_modify map yes
lattice fcc 5.358000
Lattice spacing in x,y,z = 5.358 5.358 5.358
region box block 0 ${nlat} 0 ${nlat} 0 ${nlat}
region box block 0 3 0 ${nlat} 0 ${nlat}
region box block 0 3 0 3 0 ${nlat}
region box block 0 3 0 3 0 3
create_box 1 box
Created orthogonal box = (0 0 0) to (16.074 16.074 16.074)
1 by 2 by 2 MPI processor grid
create_atoms 1 box
Created 108 atoms
using lattice units in orthogonal box = (0 0 0) to (16.074 16.074 16.074)
create_atoms CPU = 0.000 seconds
mass 1 39.903
velocity all create ${temp} 2357 mom yes dist gaussian
velocity all create 10.0 2357 mom yes dist gaussian
pair_style lj/cut 5.0
pair_coeff 1 1 0.0102701 3.42
neighbor 0.0 bin
neigh_modify every 1 delay 0 check no
timestep 0.001
fix nve all nve
# define numerical force calculation
fix numforce all numdiff ${nthermo} ${fdelta}
fix numforce all numdiff 10 ${fdelta}
fix numforce all numdiff 10 1.0e-4
variable ferrx atom f_numforce[1]-fx
variable ferry atom f_numforce[2]-fy
variable ferrz atom f_numforce[3]-fz
variable ferrsq atom v_ferrx^2+v_ferry^2+v_ferrz^2
compute faverrsq all reduce ave v_ferrsq
variable fsq atom fx^2+fy^2+fz^2
compute favsq all reduce ave v_fsq
variable frelerr equal sqrt(c_faverrsq/(c_favsq+${nugget}))
variable frelerr equal sqrt(c_faverrsq/(c_favsq+1e-06))
dump errors all custom ${ndump} force_error.dump v_ferrx v_ferry v_ferrz
dump errors all custom 500 force_error.dump v_ferrx v_ferry v_ferrz
# define numerical virial stress tensor calculation
compute myvirial all pressure NULL virial
fix numvirial all numdiff/virial ${nthermo} ${vdelta}
fix numvirial all numdiff/virial 10 ${vdelta}
fix numvirial all numdiff/virial 10 1.0e-6
variable errxx equal f_numvirial[1]-c_myvirial[1]
variable erryy equal f_numvirial[2]-c_myvirial[2]
variable errzz equal f_numvirial[3]-c_myvirial[3]
variable erryz equal f_numvirial[4]-c_myvirial[6]
variable errxz equal f_numvirial[5]-c_myvirial[5]
variable errxy equal f_numvirial[6]-c_myvirial[4]
variable verrsq equal "v_errxx^2 + v_erryy^2 + v_errzz^2 + v_erryz^2 + v_errxz^2 + v_errxy^2"
variable vsq equal "c_myvirial[1]^2 + c_myvirial[3]^2 + c_myvirial[3]^2 + c_myvirial[4]^2 + c_myvirial[5]^2 + c_myvirial[6]^2"
variable vrelerr equal sqrt(v_verrsq/(v_vsq+${nugget}))
variable vrelerr equal sqrt(v_verrsq/(v_vsq+1e-06))
# define numerical Born matrix calculation
compute bornnum all born/matrix numdiff ${bdelta} myvirial
compute bornnum all born/matrix numdiff 1.0e-8 myvirial
compute born all born/matrix
variable berr vector c_bornnum-c_born
variable berrsq equal "v_berr[1]^2 + v_berr[2]^2 + v_berr[3]^2 + v_berr[4]^2 + v_berr[5]^2 + v_berr[6]^2 + v_berr[7]^2 + v_berr[8]^2 + v_berr[9]^2 + v_berr[10]^2 + v_berr[11]^2 + v_berr[12]^2 + v_berr[13]^2 + v_berr[14]^2 + v_berr[15]^2 + v_berr[16]^2 + v_berr[17]^2 + v_berr[18]^2 + v_berr[19]^2 + v_berr[20]^2 + v_berr[21]^2"
variable bsq equal "c_born[1]^2 + c_born[2]^2 + c_born[3]^2 + c_born[4]^2 + c_born[5]^2 + c_born[6]^2 + c_born[7]^2 + c_born[8]^2 + c_born[9]^2 + c_born[10]^2 + c_born[11]^2 + c_born[12]^2 + c_born[13]^2 + c_born[14]^2 + c_born[15]^2 + c_born[16]^2 + c_born[17]^2 + c_born[18]^2 + c_born[19]^2 + c_born[20]^2 + c_born[21]^2"
variable brelerr equal sqrt(v_berrsq/(v_bsq+${nugget}))
variable brelerr equal sqrt(v_berrsq/(v_bsq+1e-06))
thermo_style custom step temp pe etotal press v_frelerr v_vrelerr v_brelerr
thermo ${nthermo}
thermo 10
run ${nsteps}
run 500
generated 0 of 0 mixed pair_coeff terms from geometric mixing rule
Neighbor list info ...
update every 1 steps, delay 0 steps, check no
max neighbors/atom: 2000, page size: 100000
master list distance cutoff = 5
ghost atom cutoff = 5
binsize = 2.5, bins = 7 7 7
2 neighbor lists, perpetual/occasional/extra = 1 1 0
(1) pair lj/cut, perpetual
attributes: half, newton on
pair build: half/bin/atomonly/newton
stencil: half/bin/3d
bin: standard
(2) compute born/matrix, occasional, copy from (1)
attributes: half, newton on
pair build: copy
stencil: none
bin: none
Per MPI rank memory allocation (min/avg/max) = 6.816 | 6.816 | 6.816 Mbytes
Step Temp PotEng TotEng Press v_frelerr v_vrelerr v_brelerr
0 10 -6.6101864 -6.471878 947.70558 1.9110624e-09 9.4407596e-10 3.6112548e-09
10 9.9369961 -6.6093149 -6.471878 949.31222 1.3055176e-08 4.996456e-10 1.8135199e-09
20 9.7500224 -6.6067289 -6.4718779 954.07898 1.3721178e-08 5.6039795e-10 1.6247414e-09
30 9.4448115 -6.6025075 -6.4718779 961.85502 1.3813156e-08 6.8451692e-10 1.3087974e-09
40 9.0305392 -6.5967776 -6.4718777 972.39819 1.3961749e-08 3.1134064e-10 2.0036072e-09
50 8.5196068 -6.5897109 -6.4718776 985.38158 1.3996941e-08 7.0149406e-10 1.6670043e-09
60 7.9273388 -6.5815192 -6.4718775 1000.4024 1.4000005e-08 3.5766629e-10 2.53484e-09
70 7.2715879 -6.5724494 -6.4718773 1016.9932 1.3996503e-08 6.2731503e-10 1.9890841e-09
80 6.5722375 -6.5627766 -6.4718771 1034.6361 1.3973603e-08 3.1142917e-10 1.3798878e-09
90 5.8505991 -6.5527956 -6.4718769 1052.7794 1.3983301e-08 3.9931135e-10 2.7529755e-09
100 5.128708 -6.542811 -6.4718767 1070.8561 1.395586e-08 2.3152413e-10 2.0674207e-09
110 4.4285344 -6.5331269 -6.4718766 1088.305 1.3938374e-08 4.2173005e-10 1.5662067e-09
120 3.7711361 -6.5240343 -6.4718764 1104.5919 1.3915264e-08 2.5458038e-10 1.5849397e-09
130 3.1757964 -6.5158002 -6.4718762 1119.2319 1.3858843e-08 5.7490448e-10 3.0296967e-09
140 2.6591997 -6.5086551 -6.4718761 1131.8095 1.3814891e-08 3.5434633e-10 1.6789888e-09
150 2.2347034 -6.5027839 -6.471876 1141.9961 1.3781115e-08 5.0639594e-10 2.9776968e-09
160 1.9117661 -6.4983173 -6.471876 1149.564 1.3734288e-08 3.1954962e-10 1.3139064e-09
170 1.6955808 -6.4953273 -6.471876 1154.3946 1.3682252e-08 3.5426781e-10 2.5537158e-09
180 1.586949 -6.4938249 -6.471876 1156.4812 1.363e-08 4.0804881e-10 1.5958563e-09
190 1.5824056 -6.4937621 -6.4718761 1155.925 1.3532637e-08 4.0767685e-10 2.3016751e-09
200 1.6745831 -6.4950371 -6.4718762 1152.926 1.3455927e-08 2.953369e-10 2.1101198e-09
210 1.8527803 -6.4975018 -6.4718763 1147.7684 1.335224e-08 3.5042319e-10 1.7878344e-09
220 2.1036825 -6.5009721 -6.4718764 1140.8026 1.3239176e-08 3.5988448e-10 1.9695755e-09
230 2.4121721 -6.5052389 -6.4718766 1132.4243 1.3090019e-08 3.5004036e-10 1.5993755e-09
240 2.7621668 -6.5100798 -6.4718767 1123.0538 1.2946525e-08 4.1216361e-10 2.1544908e-09
250 3.1374274 -6.5152701 -6.4718768 1113.1152 1.277789e-08 5.9848318e-10 2.5891141e-09
260 3.5222906 -6.5205932 -6.471877 1103.0171 1.2591089e-08 2.0080182e-10 1.9280289e-09
270 3.9022942 -6.5258491 -6.4718771 1093.1369 1.2432232e-08 4.2494727e-10 2.2260348e-09
280 4.2646753 -6.5308612 -6.4718772 1083.8072 1.2268238e-08 6.1239266e-10 1.7606971e-09
290 4.598736 -6.5354816 -6.4718772 1075.306 1.2181179e-08 4.9338341e-10 1.5542041e-09
300 4.896078 -6.5395941 -6.4718773 1067.85 1.2098274e-08 3.4564838e-10 1.9030041e-09
310 5.150715 -6.543116 -6.4718773 1061.5918 1.2184958e-08 4.2383299e-10 1.6691938e-09
320 5.3590742 -6.5459978 -6.4718773 1056.6189 1.2312948e-08 3.5194185e-10 1.340539e-09
330 5.5199009 -6.5482222 -6.4718773 1052.9565 1.2573918e-08 4.2401322e-10 1.6425443e-09
340 5.6340787 -6.5498013 -6.4718773 1050.5719 1.2821551e-08 5.8802825e-10 1.9791699e-09
350 5.7043792 -6.5507736 -6.4718772 1049.3813 1.3067314e-08 4.0014945e-10 1.0305017e-09
360 5.7351548 -6.5511992 -6.4718772 1049.2581 1.331283e-08 4.1684815e-10 1.3051661e-09
370 5.7319891 -6.5511553 -6.4718771 1050.042 1.354018e-08 3.8495426e-10 1.5606716e-09
380 5.7013193 -6.5507311 -6.4718771 1051.5496 1.3734888e-08 3.5333605e-10 1.6933716e-09
390 5.6500487 -6.5500219 -6.471877 1053.5847 1.3892287e-08 3.8154957e-10 1.5483204e-09
400 5.5851679 -6.5491245 -6.471877 1055.9489 1.3988171e-08 5.8769536e-10 1.860034e-09
410 5.5134009 -6.5481319 -6.4718769 1058.4508 1.4088779e-08 3.6754739e-10 3.0708184e-09
420 5.4408957 -6.547129 -6.4718769 1060.9152 1.4139924e-08 4.9030281e-10 2.8908455e-09
430 5.3729707 -6.5461895 -6.4718768 1063.1898 1.4173041e-08 5.2345074e-10 1.9816809e-09
440 5.3139284 -6.5453729 -6.4718768 1065.1506 1.4191516e-08 5.9481094e-10 1.6654998e-09
450 5.2669383 -6.5447229 -6.4718768 1066.7054 1.4168424e-08 3.0799668e-10 2.0838273e-09
460 5.2339881 -6.5442672 -6.4718768 1067.7958 1.4163444e-08 6.3927736e-10 2.7292416e-09
470 5.2158979 -6.544017 -6.4718768 1068.3968 1.413819e-08 5.5108262e-10 1.3969622e-09
480 5.2123873 -6.5439685 -6.4718768 1068.5155 1.4083227e-08 3.9249548e-10 1.6717922e-09
490 5.2221849 -6.544104 -6.4718768 1068.188 1.4035287e-08 2.1988631e-10 1.75155e-09
500 5.2431716 -6.5443943 -6.4718768 1067.4759 1.3968666e-08 3.9100701e-10 1.9215444e-09
Loop time of 0.169723 on 4 procs for 500 steps with 108 atoms
Performance: 254.532 ns/day, 0.094 hours/ns, 2945.973 timesteps/s
99.7% CPU use with 4 MPI tasks x no OpenMP threads
MPI task timing breakdown:
Section | min time | avg time | max time |%varavg| %total
---------------------------------------------------------------
Pair | 0.0012438 | 0.0014032 | 0.0015571 | 0.4 | 0.83
Neigh | 0.0048166 | 0.0051267 | 0.0054319 | 0.4 | 3.02
Comm | 0.0075482 | 0.0081723 | 0.0087409 | 0.6 | 4.82
Output | 0.0081869 | 0.0082763 | 0.0085015 | 0.1 | 4.88
Modify | 0.14635 | 0.14641 | 0.14646 | 0.0 | 86.26
Other | | 0.0003391 | | | 0.20
Nlocal: 27 ave 31 max 24 min
Histogram: 1 0 1 0 1 0 0 0 0 1
Nghost: 135 ave 138 max 131 min
Histogram: 1 0 0 0 0 1 0 1 0 1
Neighs: 162 ave 191 max 148 min
Histogram: 1 2 0 0 0 0 0 0 0 1
Total # of neighbors = 648
Ave neighs/atom = 6
Neighbor list builds = 500
Dangerous builds not checked
Total wall time: 0:00:00

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@ -1,175 +0,0 @@
LAMMPS (7 Jan 2022)
# Numerical difference calculation
# of error in forces and virial stress
# adjustable parameters
variable nsteps index 500 # length of run
variable nthermo index 10 # thermo output interval
variable ndump index 500 # dump output interval
variable nlat index 3 # size of box
variable fdelta index 1.0e-4 # displacement size
variable vdelta index 1.0e-6 # strain size
variable temp index 10.0 # temperature
units metal
atom_style atomic
atom_modify map yes
lattice fcc 5.358000
Lattice spacing in x,y,z = 5.358 5.358 5.358
region box block 0 ${nlat} 0 ${nlat} 0 ${nlat}
region box block 0 3 0 ${nlat} 0 ${nlat}
region box block 0 3 0 3 0 ${nlat}
region box block 0 3 0 3 0 3
create_box 1 box
Created orthogonal box = (0 0 0) to (16.074 16.074 16.074)
1 by 1 by 1 MPI processor grid
create_atoms 1 box
Created 108 atoms
using lattice units in orthogonal box = (0 0 0) to (16.074 16.074 16.074)
create_atoms CPU = 0.000 seconds
mass 1 39.903
velocity all create ${temp} 2357 mom yes dist gaussian
velocity all create 10.0 2357 mom yes dist gaussian
pair_style lj/cubic
pair_coeff * * 0.0102701 3.42
neighbor 0.0 bin
neigh_modify every 1 delay 0 check no
timestep 0.001
fix nve all nve
# define numerical force calculation
fix numforce all numdiff ${nthermo} ${fdelta}
fix numforce all numdiff 10 ${fdelta}
fix numforce all numdiff 10 1.0e-4
variable ferrx atom f_numforce[1]-fx
variable ferry atom f_numforce[2]-fy
variable ferrz atom f_numforce[3]-fz
variable ferrsq atom v_ferrx^2+v_ferry^2+v_ferrz^2
compute faverrsq all reduce ave v_ferrsq
variable fsq atom fx^2+fy^2+fz^2
compute favsq all reduce ave v_fsq
variable frelerr equal sqrt(c_faverrsq/c_favsq)
dump errors all custom ${ndump} force_error.dump v_ferrx v_ferry v_ferrz
dump errors all custom 500 force_error.dump v_ferrx v_ferry v_ferrz
# define numerical virial stress tensor calculation
compute myvirial all pressure NULL virial
fix numvirial all numdiff/virial ${nthermo} ${vdelta}
fix numvirial all numdiff/virial 10 ${vdelta}
fix numvirial all numdiff/virial 10 1.0e-6
variable errxx equal f_numvirial[1]-c_myvirial[1]
variable erryy equal f_numvirial[2]-c_myvirial[2]
variable errzz equal f_numvirial[3]-c_myvirial[3]
variable erryz equal f_numvirial[4]-c_myvirial[6]
variable errxz equal f_numvirial[5]-c_myvirial[5]
variable errxy equal f_numvirial[6]-c_myvirial[4]
variable verrsq equal "v_errxx^2 + v_erryy^2 + v_errzz^2 + v_erryz^2 + v_errxz^2 + v_errxy^2"
variable vsq equal "c_myvirial[1]^2 + c_myvirial[3]^2 + c_myvirial[3]^2 + c_myvirial[4]^2 + c_myvirial[5]^2 + c_myvirial[6]^2"
variable vrelerr equal sqrt(v_verrsq/v_vsq)
thermo_style custom step temp pe etotal press v_frelerr v_vrelerr
thermo ${nthermo}
thermo 10
run ${nsteps}
run 500
generated 0 of 0 mixed pair_coeff terms from geometric mixing rule
Neighbor list info ...
update every 1 steps, delay 0 steps, check no
max neighbors/atom: 2000, page size: 100000
master list distance cutoff = 5.9407173
ghost atom cutoff = 5.9407173
binsize = 2.9703587, bins = 6 6 6
1 neighbor lists, perpetual/occasional/extra = 1 0 0
(1) pair lj/cubic, perpetual
attributes: half, newton on
pair build: half/bin/atomonly/newton
stencil: half/bin/3d
bin: standard
Per MPI rank memory allocation (min/avg/max) = 6.083 | 6.083 | 6.083 Mbytes
Step Temp PotEng TotEng Press v_frelerr v_vrelerr
0 10 -7.0259569 -6.8876486 28.564278 19203.344 1.5660292e-06
10 9.9376583 -7.0250947 -6.8876486 30.254762 1.5040965e-08 2.1991382e-07
20 9.7520139 -7.022527 -6.8876485 35.28505 1.4756358e-08 2.6265315e-06
30 9.4477557 -7.0183188 -6.8876485 43.519863 1.4688198e-08 2.6356166e-07
40 9.0330215 -7.0125826 -6.8876484 54.727797 1.4637921e-08 5.2292327e-08
50 8.5192918 -7.0054772 -6.8876483 68.585553 1.4587854e-08 7.1324716e-08
60 7.9212026 -6.997205 -6.8876481 84.684636 1.4525561e-08 3.1108149e-08
70 7.2562592 -6.9880081 -6.8876479 102.54088 1.450885e-08 3.2311094e-08
80 6.5444294 -6.9781627 -6.8876478 121.60715 1.4444738e-08 2.1776998e-08
90 5.8075961 -6.9679715 -6.8876476 141.2895 1.4493562e-08 2.0400898e-08
100 5.0688629 -6.957754 -6.8876474 160.9668 1.445455e-08 1.2636688e-08
110 4.3517145 -6.947835 -6.8876472 180.0135 1.4460371e-08 1.2528038e-08
120 3.6790589 -6.9385314 -6.887647 197.82486 1.4371757e-08 1.4489522e-08
130 3.0721984 -6.9301379 -6.8876468 213.84331 1.4364708e-08 1.2461922e-08
140 2.5497991 -6.9229125 -6.8876467 227.58429 1.4330926e-08 9.3913926e-09
150 2.1269443 -6.917064 -6.8876466 238.6596 1.4287002e-08 4.1510266e-09
160 1.8143642 -6.9127407 -6.8876465 246.79599 1.4282669e-08 7.7048281e-09
170 1.6179191 -6.9100237 -6.8876465 251.84748 1.42726e-08 1.2719973e-08
180 1.5383946 -6.9089239 -6.8876466 253.79991 1.4236534e-08 8.1200831e-09
190 1.5716287 -6.9093836 -6.8876467 252.76745 1.41706e-08 6.5670612e-09
200 1.7089493 -6.911283 -6.8876468 248.98142 1.4096463e-08 1.1685863e-08
210 1.9378716 -6.9144493 -6.8876469 242.77289 1.4008978e-08 1.1226902e-08
220 2.2429731 -6.9186692 -6.887647 234.55055 1.3886901e-08 9.9914102e-09
230 2.606862 -6.9237023 -6.8876472 224.77626 1.3864576e-08 1.1540228e-08
240 3.0111524 -6.9292941 -6.8876474 213.93996 1.3696314e-08 1.1697747e-08
250 3.4373794 -6.9351893 -6.8876475 202.53583 1.3626701e-08 1.0398197e-08
260 3.8678047 -6.9411426 -6.8876476 191.04084 1.3489489e-08 6.6603364e-09
270 4.2860853 -6.9469279 -6.8876478 179.89646 1.3312014e-08 1.1687917e-08
280 4.6777954 -6.9523457 -6.8876479 169.49404 1.3081144e-08 1.1336675e-08
290 5.030805 -6.9572282 -6.887648 160.16371 1.2947385e-08 1.7342825e-08
300 5.3355278 -6.9614428 -6.887648 152.16682 1.2893673e-08 1.7510534e-08
310 5.5850532 -6.964894 -6.887648 145.69148 1.2842022e-08 1.2782546e-08
320 5.7751794 -6.9675236 -6.8876481 140.85102 1.2903488e-08 1.5319437e-08
330 5.9043601 -6.9693103 -6.887648 137.68497 1.3076809e-08 1.1208999e-08
340 5.9735784 -6.9702676 -6.887648 136.16232 1.3296904e-08 1.891087e-08
350 5.9861549 -6.9704415 -6.887648 136.18679 1.3504051e-08 2.5783601e-08
360 5.947496 -6.9699067 -6.8876479 137.60397 1.3731112e-08 2.0556839e-08
370 5.8647874 -6.9687627 -6.8876478 140.2101 1.4009878e-08 2.1771736e-08
380 5.7466376 -6.9671285 -6.8876477 143.76234 1.4092054e-08 1.1085162e-08
390 5.6026773 -6.9651374 -6.8876477 147.99019 1.4282872e-08 2.0221602e-08
400 5.4431231 -6.9629305 -6.8876476 152.60787 1.4317739e-08 1.7076065e-08
410 5.2783192 -6.960651 -6.8876475 157.32722 1.4415075e-08 2.5031776e-08
420 5.1182723 -6.9584374 -6.8876474 161.87063 1.4441435e-08 2.2519289e-08
430 4.9722 -6.956417 -6.8876473 165.98344 1.4550624e-08 2.4512613e-08
440 4.8481153 -6.9547008 -6.8876473 169.44527 1.4544672e-08 1.4758301e-08
450 4.7524707 -6.9533779 -6.8876472 172.07964 1.4546492e-08 1.324687e-08
460 4.6898817 -6.9525122 -6.8876472 173.76132 1.4537475e-08 1.351367e-08
470 4.6629495 -6.9521397 -6.8876472 174.42109 1.4530458e-08 1.521106e-08
480 4.6721922 -6.9522675 -6.8876472 174.04742 1.4543785e-08 1.0905422e-08
490 4.7160887 -6.9528747 -6.8876473 172.68525 1.4545591e-08 2.0128525e-08
500 4.7912313 -6.953914 -6.8876473 170.43183 1.4438981e-08 1.6062775e-08
Loop time of 0.837333 on 1 procs for 500 steps with 108 atoms
Performance: 51.592 ns/day, 0.465 hours/ns, 597.134 timesteps/s
99.8% CPU use with 1 MPI tasks x no OpenMP threads
MPI task timing breakdown:
Section | min time | avg time | max time |%varavg| %total
---------------------------------------------------------------
Pair | 0.0097726 | 0.0097726 | 0.0097726 | 0.0 | 1.17
Neigh | 0.03095 | 0.03095 | 0.03095 | 0.0 | 3.70
Comm | 0.005564 | 0.005564 | 0.005564 | 0.0 | 0.66
Output | 0.0042451 | 0.0042451 | 0.0042451 | 0.0 | 0.51
Modify | 0.78618 | 0.78618 | 0.78618 | 0.0 | 93.89
Other | | 0.0006258 | | | 0.07
Nlocal: 108 ave 108 max 108 min
Histogram: 1 0 0 0 0 0 0 0 0 0
Nghost: 558 ave 558 max 558 min
Histogram: 1 0 0 0 0 0 0 0 0 0
Neighs: 972 ave 972 max 972 min
Histogram: 1 0 0 0 0 0 0 0 0 0
Total # of neighbors = 972
Ave neighs/atom = 9
Neighbor list builds = 500
Dangerous builds not checked
Total wall time: 0:00:00

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@ -1,175 +0,0 @@
LAMMPS (7 Jan 2022)
# Numerical difference calculation
# of error in forces and virial stress
# adjustable parameters
variable nsteps index 500 # length of run
variable nthermo index 10 # thermo output interval
variable ndump index 500 # dump output interval
variable nlat index 3 # size of box
variable fdelta index 1.0e-4 # displacement size
variable vdelta index 1.0e-6 # strain size
variable temp index 10.0 # temperature
units metal
atom_style atomic
atom_modify map yes
lattice fcc 5.358000
Lattice spacing in x,y,z = 5.358 5.358 5.358
region box block 0 ${nlat} 0 ${nlat} 0 ${nlat}
region box block 0 3 0 ${nlat} 0 ${nlat}
region box block 0 3 0 3 0 ${nlat}
region box block 0 3 0 3 0 3
create_box 1 box
Created orthogonal box = (0 0 0) to (16.074 16.074 16.074)
1 by 2 by 2 MPI processor grid
create_atoms 1 box
Created 108 atoms
using lattice units in orthogonal box = (0 0 0) to (16.074 16.074 16.074)
create_atoms CPU = 0.000 seconds
mass 1 39.903
velocity all create ${temp} 2357 mom yes dist gaussian
velocity all create 10.0 2357 mom yes dist gaussian
pair_style lj/cubic
pair_coeff * * 0.0102701 3.42
neighbor 0.0 bin
neigh_modify every 1 delay 0 check no
timestep 0.001
fix nve all nve
# define numerical force calculation
fix numforce all numdiff ${nthermo} ${fdelta}
fix numforce all numdiff 10 ${fdelta}
fix numforce all numdiff 10 1.0e-4
variable ferrx atom f_numforce[1]-fx
variable ferry atom f_numforce[2]-fy
variable ferrz atom f_numforce[3]-fz
variable ferrsq atom v_ferrx^2+v_ferry^2+v_ferrz^2
compute faverrsq all reduce ave v_ferrsq
variable fsq atom fx^2+fy^2+fz^2
compute favsq all reduce ave v_fsq
variable frelerr equal sqrt(c_faverrsq/c_favsq)
dump errors all custom ${ndump} force_error.dump v_ferrx v_ferry v_ferrz
dump errors all custom 500 force_error.dump v_ferrx v_ferry v_ferrz
# define numerical virial stress tensor calculation
compute myvirial all pressure NULL virial
fix numvirial all numdiff/virial ${nthermo} ${vdelta}
fix numvirial all numdiff/virial 10 ${vdelta}
fix numvirial all numdiff/virial 10 1.0e-6
variable errxx equal f_numvirial[1]-c_myvirial[1]
variable erryy equal f_numvirial[2]-c_myvirial[2]
variable errzz equal f_numvirial[3]-c_myvirial[3]
variable erryz equal f_numvirial[4]-c_myvirial[6]
variable errxz equal f_numvirial[5]-c_myvirial[5]
variable errxy equal f_numvirial[6]-c_myvirial[4]
variable verrsq equal "v_errxx^2 + v_erryy^2 + v_errzz^2 + v_erryz^2 + v_errxz^2 + v_errxy^2"
variable vsq equal "c_myvirial[1]^2 + c_myvirial[3]^2 + c_myvirial[3]^2 + c_myvirial[4]^2 + c_myvirial[5]^2 + c_myvirial[6]^2"
variable vrelerr equal sqrt(v_verrsq/v_vsq)
thermo_style custom step temp pe etotal press v_frelerr v_vrelerr
thermo ${nthermo}
thermo 10
run ${nsteps}
run 500
generated 0 of 0 mixed pair_coeff terms from geometric mixing rule
Neighbor list info ...
update every 1 steps, delay 0 steps, check no
max neighbors/atom: 2000, page size: 100000
master list distance cutoff = 5.9407173
ghost atom cutoff = 5.9407173
binsize = 2.9703587, bins = 6 6 6
1 neighbor lists, perpetual/occasional/extra = 1 0 0
(1) pair lj/cubic, perpetual
attributes: half, newton on
pair build: half/bin/atomonly/newton
stencil: half/bin/3d
bin: standard
Per MPI rank memory allocation (min/avg/max) = 6.067 | 6.067 | 6.067 Mbytes
Step Temp PotEng TotEng Press v_frelerr v_vrelerr
0 10 -7.0259569 -6.8876486 28.564278 10664.391 9.1481187e-08
10 9.9388179 -7.0251107 -6.8876486 30.21736 1.4771865e-08 1.3452512e-07
20 9.7572185 -7.022599 -6.8876485 35.123527 1.437525e-08 8.0966999e-07
30 9.4606673 -7.0184974 -6.8876484 43.132052 1.4375468e-08 1.990012e-08
40 9.0579092 -7.0129268 -6.8876483 54.000927 1.4350331e-08 1.7239028e-08
50 8.5607685 -7.0060508 -6.8876482 67.403151 1.4353284e-08 7.813181e-09
60 7.9838726 -6.9980717 -6.8876481 82.935358 1.4398078e-08 2.022316e-08
70 7.3442875 -6.9892255 -6.8876479 100.12892 1.434409e-08 7.5938179e-09
80 6.6610579 -6.9797757 -6.8876477 118.46358 1.4324787e-08 7.1972571e-09
90 5.9546462 -6.9700053 -6.8876476 137.38365 1.4322718e-08 4.3978378e-09
100 5.2462727 -6.9602077 -6.8876474 156.31651 1.4273172e-08 4.6728038e-09
110 4.5571706 -6.9506767 -6.8876472 174.69294 1.4266163e-08 3.522225e-09
120 3.9077807 -6.9416949 -6.887647 191.96859 1.42241e-08 3.5357511e-09
130 3.3169241 -6.9335227 -6.8876469 207.64566 1.4203813e-08 2.5182488e-09
140 2.8010028 -6.926387 -6.8876468 221.29333 1.4164215e-08 2.3112509e-09
150 2.3732854 -6.9204712 -6.8876467 232.5658 1.4134122e-08 1.9368963e-09
160 2.0433329 -6.9159076 -6.8876466 241.21647 1.4095473e-08 3.6806452e-09
170 1.8166184 -6.912772 -6.8876466 247.10715 1.4049531e-08 2.5319322e-09
180 1.6943727 -6.9110813 -6.8876467 250.21143 1.3997912e-08 1.952404e-09
190 1.6736731 -6.910795 -6.8876467 250.61203 1.3915487e-08 1.4271767e-09
200 1.7477659 -6.9118199 -6.8876468 248.49223 1.3850618e-08 2.4515718e-09
210 1.9065921 -6.9140167 -6.8876469 244.12226 1.3747916e-08 1.7957531e-09
220 2.1374676 -6.91721 -6.887647 237.84173 1.3674779e-08 2.6613511e-09
230 2.4258607 -6.9211989 -6.8876472 230.0395 1.3565712e-08 3.0777067e-09
240 2.7562034 -6.9257679 -6.8876473 221.13265 1.3440442e-08 1.7111501e-09
250 3.1126827 -6.9306984 -6.8876474 211.54566 1.3270914e-08 1.6690112e-09
260 3.4799641 -6.9357784 -6.8876476 201.69126 1.3105092e-08 2.1637558e-09
270 3.8438148 -6.9408108 -6.8876477 191.95361 1.2962846e-08 4.4613506e-09
280 4.191607 -6.9456212 -6.8876478 182.6745 1.2846383e-08 3.3730203e-09
290 4.5126922 -6.9500621 -6.8876478 174.14285 1.2710692e-08 2.2809889e-09
300 4.7986487 -6.9540172 -6.8876479 166.58747 1.2657778e-08 6.9880891e-09
310 5.0434083 -6.9574025 -6.8876479 160.17316 1.266381e-08 4.2486217e-09
320 5.243275 -6.9601668 -6.8876479 154.99974 1.279856e-08 5.1505673e-09
330 5.3968455 -6.9622908 -6.8876479 151.1038 1.2981831e-08 3.3339333e-09
340 5.5048468 -6.9637845 -6.8876479 148.46296 1.3159021e-08 1.7881393e-09
350 5.569902 -6.9646843 -6.8876479 147.00205 1.3439465e-08 5.6876219e-09
360 5.5962378 -6.9650485 -6.8876478 146.60113 1.3645943e-08 7.233847e-09
370 5.5893468 -6.9649531 -6.8876478 147.10471 1.3829581e-08 4.5514318e-09
380 5.5556199 -6.9644866 -6.8876477 148.33195 1.4005893e-08 4.2971846e-09
390 5.5019639 -6.9637444 -6.8876476 150.08725 1.4157454e-08 3.3564262e-09
400 5.4354239 -6.962824 -6.8876476 152.17073 1.4226422e-08 4.2393923e-09
410 5.3628267 -6.9618199 -6.8876475 154.38825 1.4302679e-08 3.8937698e-09
420 5.2904639 -6.960819 -6.8876475 156.56034 1.4381099e-08 4.315875e-09
430 5.2238282 -6.9598973 -6.8876474 158.52969 1.4426567e-08 4.2658185e-09
440 5.1674149 -6.9591171 -6.8876474 160.16704 1.4453381e-08 5.7055268e-09
450 5.1245913 -6.9585248 -6.8876474 161.37513 1.4449488e-08 4.4308801e-09
460 5.0975361 -6.9581506 -6.8876474 162.09077 1.4445596e-08 5.8269923e-09
470 5.0872416 -6.9580082 -6.8876474 162.28517 1.4444348e-08 4.8263194e-09
480 5.0935712 -6.9580957 -6.8876474 161.96268 1.4411666e-08 6.222228e-09
490 5.115362 -6.9583971 -6.8876474 161.15816 1.4369716e-08 3.3926077e-09
500 5.1505605 -6.958884 -6.8876474 159.9333 1.4288515e-08 3.8845251e-09
Loop time of 0.252598 on 4 procs for 500 steps with 108 atoms
Performance: 171.023 ns/day, 0.140 hours/ns, 1979.430 timesteps/s
99.8% CPU use with 4 MPI tasks x no OpenMP threads
MPI task timing breakdown:
Section | min time | avg time | max time |%varavg| %total
---------------------------------------------------------------
Pair | 0.0021545 | 0.0022845 | 0.0023794 | 0.2 | 0.90
Neigh | 0.0063887 | 0.0067604 | 0.0069752 | 0.3 | 2.68
Comm | 0.01048 | 0.010916 | 0.011408 | 0.3 | 4.32
Output | 0.0026603 | 0.0027399 | 0.0029738 | 0.3 | 1.08
Modify | 0.2295 | 0.22952 | 0.22954 | 0.0 | 90.86
Other | | 0.0003814 | | | 0.15
Nlocal: 27 ave 29 max 25 min
Histogram: 1 0 1 0 0 0 0 1 0 1
Nghost: 325 ave 327 max 323 min
Histogram: 1 0 1 0 0 0 0 1 0 1
Neighs: 243 ave 273 max 228 min
Histogram: 1 1 1 0 0 0 0 0 0 1
Total # of neighbors = 972
Ave neighs/atom = 9
Neighbor list builds = 500
Dangerous builds not checked
Total wall time: 0:00:00