[gmx-users] my log file to the mdrun error message that on Tue 15, July...
Andy Chao
achao at energiaq.com
Wed Jul 16 04:02:26 CEST 2014
Dear GROMACS Users:
Here is my log file..
Please let me know how to fix this problem.
Thanks!
Andy
Log file opened on Tue Jul 15 21:01:52 2014
Host: server-Virtual-Machine pid: 10019 nodeid: 0 nnodes: 1
Gromacs version: VERSION 4.6.5
Precision: single
Memory model: 32 bit
MPI library: thread_mpi
OpenMP support: enabled
GPU support: disabled
invsqrt routine: gmx_software_invsqrt(x)
CPU acceleration: SSE4.1
FFT library: fftw-3.3.3-sse2-avx
Large file support: enabled
RDTSCP usage: enabled
Built on: Sun Dec 15 03:59:22 UTC 2013
Built by: buildd at roseapple [CMAKE]
Build OS/arch: Linux 3.2.0-37-generic i686
Build CPU vendor: GenuineIntel
Build CPU brand: Intel(R) Xeon(R) CPU E5530 @ 2.40GHz
Build CPU family: 6 Model: 26 Stepping: 5
Build CPU features: apic clfsh cmov cx8 cx16 htt lahf_lm mmx msr
nonstop_tsc pdcm popcnt pse rdtscp sse2 sse3 sse4.1 sse4.2 ssse3
C compiler: /usr/bin/i686-linux-gnu-gcc GNU gcc-4.8.real
(Ubuntu/Linaro 4.8.2-10ubuntu1) 4.8.2
C compiler flags: -msse4.1 -Wextra -Wno-missing-field-initializers
-Wno-sign-compare -Wall -Wno-unused -Wunused-value -Wno-unused-parameter
-Wno-array-bounds -Wno-maybe-uninitialized -Wno-strict-overflow
-fomit-frame-pointer -funroll-all-loops -fexcess-precision=fast -O3
-DNDEBUG
:-) G R O M A C S (-:
Gromacs Runs On Most of All Computer Systems
:-) VERSION 4.6.5 (-:
Contributions from Mark Abraham, Emile Apol, Rossen Apostolov,
Herman J.C. Berendsen, Aldert van Buuren, Pär Bjelkmar,
Rudi van Drunen, Anton Feenstra, Gerrit Groenhof, Christoph Junghans,
Peter Kasson, Carsten Kutzner, Per Larsson, Pieter Meulenhoff,
Teemu Murtola, Szilard Pall, Sander Pronk, Roland Schulz,
Michael Shirts, Alfons Sijbers, Peter Tieleman,
Berk Hess, David van der Spoel, and Erik Lindahl.
Copyright (c) 1991-2000, University of Groningen, The Netherlands.
Copyright (c) 2001-2012,2013, The GROMACS development team at
Uppsala University & The Royal Institute of Technology, Sweden.
check out http://www.gromacs.org for more information.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public License
as published by the Free Software Foundation; either version 2.1
of the License, or (at your option) any later version.
:-) mdrun (-:
++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
B. Hess and C. Kutzner and D. van der Spoel and E. Lindahl
GROMACS 4: Algorithms for highly efficient, load-balanced, and scalable
molecular simulation
J. Chem. Theory Comput. 4 (2008) pp. 435-447
-------- -------- --- Thank You --- -------- --------
++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
D. van der Spoel, E. Lindahl, B. Hess, G. Groenhof, A. E. Mark and H. J. C.
Berendsen
GROMACS: Fast, Flexible and Free
J. Comp. Chem. 26 (2005) pp. 1701-1719
-------- -------- --- Thank You --- -------- --------
++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
E. Lindahl and B. Hess and D. van der Spoel
GROMACS 3.0: A package for molecular simulation and trajectory analysis
J. Mol. Mod. 7 (2001) pp. 306-317
-------- -------- --- Thank You --- -------- --------
++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
H. J. C. Berendsen, D. van der Spoel and R. van Drunen
GROMACS: A message-passing parallel molecular dynamics implementation
Comp. Phys. Comm. 91 (1995) pp. 43-56
-------- -------- --- Thank You --- -------- --------
Changing rlist from 1.05 to 1 for non-bonded 4x4 atom kernels
Input Parameters:
integrator = steep
nsteps = 200
init-step = 0
cutoff-scheme = Verlet
ns_type = Grid
nstlist = 10
ndelta = 2
nstcomm = 100
comm-mode = Linear
nstlog = 1000
nstxout = 0
nstvout = 0
nstfout = 0
nstcalcenergy = 100
nstenergy = 1000
nstxtcout = 0
init-t = 0
delta-t = 0.001
xtcprec = 1000
fourierspacing = 0.12
nkx = 48
nky = 48
nkz = 48
pme-order = 4
ewald-rtol = 1e-05
ewald-geometry = 0
epsilon-surface = 0
optimize-fft = FALSE
ePBC = xyz
bPeriodicMols = FALSE
bContinuation = FALSE
bShakeSOR = FALSE
etc = No
bPrintNHChains = FALSE
nsttcouple = -1
epc = No
epctype = Isotropic
nstpcouple = -1
tau-p = 1
ref-p (3x3):
ref-p[ 0]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
ref-p[ 1]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
ref-p[ 2]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
compress (3x3):
compress[ 0]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
compress[ 1]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
compress[ 2]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
refcoord-scaling = No
posres-com (3):
posres-com[0]= 0.00000e+00
posres-com[1]= 0.00000e+00
posres-com[2]= 0.00000e+00
posres-comB (3):
posres-comB[0]= 0.00000e+00
posres-comB[1]= 0.00000e+00
posres-comB[2]= 0.00000e+00
verlet-buffer-drift = 0.005
rlist = 1
rlistlong = 1
nstcalclr = 10
rtpi = 0.05
coulombtype = PME
coulomb-modifier = Potential-shift
rcoulomb-switch = 0
rcoulomb = 1
vdwtype = Cut-off
vdw-modifier = Potential-shift
rvdw-switch = 0
rvdw = 1
epsilon-r = 1
epsilon-rf = inf
tabext = 1
implicit-solvent = No
gb-algorithm = Still
gb-epsilon-solvent = 80
nstgbradii = 1
rgbradii = 1
gb-saltconc = 0
gb-obc-alpha = 1
gb-obc-beta = 0.8
gb-obc-gamma = 4.85
gb-dielectric-offset = 0.009
sa-algorithm = Ace-approximation
sa-surface-tension = 2.05016
DispCorr = No
bSimTemp = FALSE
free-energy = no
nwall = 0
wall-type = 9-3
wall-atomtype[0] = -1
wall-atomtype[1] = -1
wall-density[0] = 0
wall-density[1] = 0
wall-ewald-zfac = 3
pull = no
rotation = FALSE
disre = No
disre-weighting = Conservative
disre-mixed = FALSE
dr-fc = 1000
dr-tau = 0
nstdisreout = 100
orires-fc = 0
orires-tau = 0
nstorireout = 100
dihre-fc = 0
em-stepsize = 0.01
em-tol = 10
niter = 20
fc-stepsize = 0
nstcgsteep = 1000
nbfgscorr = 10
ConstAlg = Lincs
shake-tol = 0.0001
lincs-order = 4
lincs-warnangle = 30
lincs-iter = 1
bd-fric = 0
ld-seed = 1993
cos-accel = 0
deform (3x3):
deform[ 0]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
deform[ 1]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
deform[ 2]={ 0.00000e+00, 0.00000e+00, 0.00000e+00}
adress = FALSE
userint1 = 0
userint2 = 0
userint3 = 0
userint4 = 0
userreal1 = 0
userreal2 = 0
userreal3 = 0
userreal4 = 0
grpopts:
nrdf: 22677
ref-t: 0
tau-t: 0
anneal: No
ann-npoints: 0
acc: 0 0 0
nfreeze: N N N
energygrp-flags[ 0]: 0
efield-x:
n = 0
efield-xt:
n = 0
efield-y:
n = 0
efield-yt:
n = 0
efield-z:
n = 0
efield-zt:
n = 0
bQMMM = FALSE
QMconstraints = 0
QMMMscheme = 0
scalefactor = 1
qm-opts:
ngQM = 0
Using 1 MPI thread
Using 1 OpenMP thread
Detecting CPU-specific acceleration.
Present hardware specification:
Vendor: GenuineIntel
Brand: Intel(R) Xeon(R) CPU E5-1603 0 @ 2.80GHz
Family: 6 Model: 45 Stepping: 7
Features: aes apic avx clfsh cmov cx8 cx16 lahf_lm mmx msr pclmuldq popcnt
pse sse2 sse3 sse4.1 sse4.2 ssse3
Acceleration most likely to fit this hardware: AVX_256
Acceleration selected at GROMACS compile time: SSE4.1
Binary not matching hardware - you might be losing performance.
Acceleration most likely to fit this hardware: AVX_256
Acceleration selected at GROMACS compile time: SSE4.1
Will do PME sum in reciprocal space.
++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
U. Essmann, L. Perera, M. L. Berkowitz, T. Darden, H. Lee and L. G.
Pedersen
A smooth particle mesh Ewald method
J. Chem. Phys. 103 (1995) pp. 8577-8592
-------- -------- --- Thank You --- -------- --------
Will do ordinary reciprocal space Ewald sum.
Using a Gaussian width (1/beta) of 0.320163 nm for Ewald
Cut-off's: NS: 1 Coulomb: 1 LJ: 1
System total charge: 0.000
Generated table with 1000 data points for Ewald.
Tabscale = 500 points/nm
Generated table with 1000 data points for LJ6.
Tabscale = 500 points/nm
Generated table with 1000 data points for LJ12.
Tabscale = 500 points/nm
Generated table with 1000 data points for 1-4 COUL.
Tabscale = 500 points/nm
Generated table with 1000 data points for 1-4 LJ6.
Tabscale = 500 points/nm
Generated table with 1000 data points for 1-4 LJ12.
Tabscale = 500 points/nm
Using SSE4.1 4x4 non-bonded kernels
Using geometric Lennard-Jones combination rule
Potential shift: LJ r^-12: 1.000 r^-6 1.000, Ewald 1.000e-05
Initialized non-bonded Ewald correction tables, spacing: 6.60e-04 size: 3033
Removing pbc first time
Pinning threads with an auto-selected logical core stride of 1
Initializing LINear Constraint Solver
++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
B. Hess and H. Bekker and H. J. C. Berendsen and J. G. E. M. Fraaije
LINCS: A Linear Constraint Solver for molecular simulations
J. Comp. Chem. 18 (1997) pp. 1463-1472
-------- -------- --- Thank You --- -------- --------
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