6/11/2012 Update of the CSA version

[unres.git] / examples / unres / MD / ff_gab / ala10-cx.out_GB

--------------------------------------------------------------------------------
                              FILE ASSIGNMENT
--------------------------------------------------------------------------------
 Input file                      : ala10-cx.inp
 Output file                     : ala10-cx.out_GB
 
 Sidechain potential file        : 
 ../../../../PARAM/sc_GB_opt.1gab_3S_qclass5no310-shan2-sc-16-10-8k
 SCp potential file              : ../../../../PARAM/scp.parm
 Electrostatic potential file    : ../../../../PARAM/electr_631Gdp.parm
 Cumulant coefficient file       : 
 ../../../../PARAM/fourier_opt.parm.1igd_hc_iter3_3
 Torsional parameter file        : ../../../../PARAM/torsion_631Gdp.parm
 Double torsional parameter file : ../../../../PARAM/torsion_double_631Gdp.parm
 SCCOR parameter file : ../../../../PARAM/rotcorr_AM1.parm
 Bond & inertia constant file    : ../../../../PARAM/bond.parm
 Bending parameter file          : ../../../../PARAM/thetaml.5parm
 Rotamer parameter file          : ../../../../PARAM/scgauss.parm
 Threading database              : ../../../../PARAM/patterns.cart
--------------------------------------------------------------------------------
 ### LAST MODIFIED  03/28/12 23:29 by czarek
 ++++ Compile info ++++
 Version 2.5 build 34
 compiled Mon Apr  2 08:16:44 2012
 compiled by adam@matrix.chem.cornell.edu
 OS name:    Linux 
 OS release: 2.6.34.9-69.fc13.x86_64 
 OS version: #1 SMP Tue May 3 09:23:03 UTC 2011 
 flags:
 FC = ifort
 FFLAGS = -c ${OPT} -I$(INSTALL_DIR)/include
 FFLAGS1 = -c -w -g -d2 -CA -CB -I$(INSTALL_DIR)...
 FFLAGS2 = -c -w -g -O0 -I$(INSTALL_DIR)/include
 FFLAGSE = -c -w -O3 -ipo -ipo_obj  -opt_report ...
 CC = cc
 CFLAGS = -DLINUX -DPGI -c
 OPT =  -O3 -ip -w
 LIBS = -Lxdrf -lxdrf
 ARCH = LINUX
 PP = /lib/cpp -P
 object = unres.o arcos.o cartprint.o chainbuild...
 GAB: CPPFLAGS = -DPROCOR -DLINUX -DPGI -DUNRES ...
 GAB: BIN = ../../../bin/unres/MD/unres_ifort_si...
 E0LL2Y: CPPFLAGS = -DPROCOR -DLINUX -DPGI -DUNR...
 E0LL2Y: BIN = ../../../bin/unres/MD/unres_ifort...
 ++++ End of compile info ++++

Potential is GB , exponents are   6 12

Disulfide bridge parameters:
S-S bridge energy:      -5.50
d0cm:      3.78 akcm:     15.10
akth:     11.00 akct:     12.00
v1ss:     -1.08 v2ss:      7.61 v3ss:     13.70
 ran_num  0.383569105241247     
RMSDBC =        3.0
RMSDBC1 =        0.5
RMSDBC1MAX =        1.5
DRMS    =        0.1
RMSDBCM =        3.0
Time limit (min):     960.0
 RESCALE_MODE           2
Library  routine used to diagonalize matrices.
 
=========================== Parameters of the MD run ===========================
 
The units are:
positions: angstrom, time: 48.9 fs
velocity: angstrom/(48.9 fs), acceleration: angstrom/(48.9 fs)**2
energy: kcal/mol, temperature: K
 
                                       Number of time steps:     10000
                 Initial time step of numerical integration:   0.10000 natural units
                                                               4.89000 fs
Maximum acceleration threshold to reduce the time step/increase split number:   1.00000
Maximum predicted energy drift to reduce the timestep/increase split number:  10.00000
            Maximum velocity threshold to reduce velocities:  20.00000
                               Frequency of property output:       100
                             Frequency of coordinate output:      1000
Berendsen bath calculation
                                                Temperature: 300.00000
                                    Coupling constant (tau):   0.10000
Momenta will be reset at zero every      1000 steps
Velocities will be reset at random every      1000 steps

============================== End of MD run setup =============================


Energy-term weights (unscaled):

WSCC=     1.352790 (SC-SC)
WSCP=     1.593040 (SC-p)
WELEC=    0.715340 (p-p electr)
WVDWPP=   0.113710 (p-p VDW)
WBOND=    1.000000 (stretching)
WANG=     1.138730 (bending)
WSCLOC=   0.162580 (SC local)
WTOR=     1.985990 (torsional)
WTORD=    1.570690 (double torsional)
WSTRAIN=  1.000000 (SS bridges & dist. cnstr.)
WEL_LOC=  0.160360 (multi-body 3-rd order)
WCORR4=   0.428870 (multi-body 4th order)
WCORR5=   0.000000 (multi-body 5th order)
WCORR6=   0.000000 (multi-body 6th order)
WSCCOR=   1.000000 (back-scloc correlation)
WTURN3=   1.687220 (turns, 3rd order)
WTURN4=   0.662300 (turns, 4th order)
WTURN6=   0.000000 (turns, 6th order)

Hydrogen-bonding correlation between contact pairs of peptide groups

Scaling factor of 1,4 SC-p interactions:   0.400
General scaling factor of SC-p interactions:   1.000

Energy-term weights (scaled):

WSCC=     1.352790 (SC-SC)
WSCP=     1.593040 (SC-p)
WELEC=    0.715340 (p-p electr)
WVDWPP=   0.113710 (p-p VDW)
WBOND=    1.000000 (stretching)
WANG=     1.138730 (bending)
WSCLOC=   0.162580 (SC local)
WTOR=     1.985990 (torsional)
WTORD=    1.570690 (double torsional)
WSTRAIN=  1.000000 (SS bridges & dist. cnstr.)
WEL_LOC=  0.160360 (multi-body 3-rd order)
WCORR4=   0.428870 (multi-body 4th order)
WCORR5=   0.000000 (multi-body 5th order)
WCORR6=   0.000000 (multi-body 6th order)
WSCCOR=   1.000000 (back-scloc correlatkion)
WTURN3=   1.687220 (turns, 3rd order)
WTURN4=   0.662300 (turns, 4th order)
WTURN6=   0.000000 (turns, 6th order)
 Reference temperature for weights calculation:   300.000000000000     
 Parameters of the SS-bond potential:
 D0CM   3.78000000000000       AKCM   15.1000000000000       AKTH
   11.0000000000000       AKCT   12.0000000000000     
 V1SS  -1.08000000000000       V2SS   7.61000000000000       V3SS
   13.7000000000000     
 EBR  -5.50000000000000     
 ITEL
           1          21           0
           2           9           1
           3           9           1
           4           9           1
           5           9           1
           6           9           1
           7           9           1
           8           9           1
           9           9           1
          10           9           1
          11           9           0
 ns=           0  iss:
Boundaries in phi angle sampling:
D      1    -180.0     180.0
ALA    2    -180.0     180.0
ALA    3    -180.0     180.0
ALA    4    -180.0     180.0
ALA    5    -180.0     180.0
ALA    6    -180.0     180.0
ALA    7    -180.0     180.0
ALA    8    -180.0     180.0
ALA    9    -180.0     180.0
ALA   10    -180.0     180.0
ALA   11    -180.0     180.0
D     12    -180.0     180.0
 NZ_START=           2  NZ_END=          11
 IZ_SC=           0
Initial geometry will be read in.

Geometry of the virtual chain.
  Res           d     Theta     Gamma       Dsc     Alpha      Beta 
D     1     0.000     0.000     0.000     0.000     0.000     0.000
ALA   2     3.800     0.000     0.000     0.743   110.000  -120.000
ALA   3     3.800    90.000     0.000     0.743   110.000  -120.000
ALA   4     3.800    90.000   180.000     0.743   110.000  -120.000
ALA   5     3.800    90.000   180.000     0.743   100.000  -120.000
ALA   6     3.800    90.000   180.000     0.743   110.000  -120.000
ALA   7     3.800    90.000   180.000     0.743   100.000  -120.000
ALA   8     3.800    90.000   180.000     0.743   110.000  -120.000
ALA   9     3.800    90.000   180.000     0.743   110.000  -120.000
ALA  10     3.800    90.000   180.000     0.743   110.000  -120.000
ALA  11     3.800    90.000   180.000     0.743   110.000  -120.000
D    12     3.800    90.000   180.000     0.000     0.000     0.000
Mesoscopic molecular dynamics (MD) calculation.

********************************************************************************

 Calling chainbuild
====================MD calculation start====================
 Initial velocities randomly generated
 Initial velocities
  0  -0.02571   0.04778  -0.01151      0.00000   0.00000   0.00000
  1   0.00000   0.00000   0.00000      0.00000   0.00000   0.00000
  2  -0.11082  -0.24316  -0.01092     -0.01544   0.04693   0.02901
  3   0.17509   0.14021   0.01920     -0.06074   0.20983  -0.00546
  4  -0.28110  -0.18298   0.04141      0.05768  -0.02663  -0.10403
  5   0.52321   0.32791  -0.28506      0.24480   0.23049   0.08887
  6  -0.24047  -0.12903   0.12193      0.03851  -0.08315   0.33390
  7   0.09902  -0.00280   0.29189     -0.33532  -0.00436   0.03329
  8  -0.12228   0.11945  -0.17716      0.08467  -0.09409  -0.31636
  9   0.15147  -0.14801  -0.02818      0.01545  -0.19775   0.03783
 10   0.03113   0.28957  -0.29450      0.09912  -0.08052   0.16164
 11   0.00000   0.00000   0.00000     -0.24131  -0.01384   0.16566
 12   0.00000   0.00000   0.00000      0.00000   0.00000   0.00000
 Calling the zero-angular  momentum subroutine
 vcm right after adjustment:
 -2.929524022998914E-017 -5.326407314543479E-018 -1.731082377226631E-017


              alpha-carbon coordinates            centroid coordinates
             X           Y           Z          X           Y           Z
D  (  1)     0.00000     0.00000     0.00000     0.00000     0.00000     0.00000
ALA(  2)     3.80000     0.00000     0.00000     3.73284     0.42654     0.60465
ALA(  3)     3.80000    -3.80000     0.00000     3.37346    -3.73284    -0.60465
ALA(  4)     7.60000    -3.80000     0.00000     7.53284    -3.37346     0.60465
ALA(  5)     7.60000    -7.60000     0.00000     7.25007    -7.43253    -0.63368
ALA(  6)    11.40000    -7.60000     0.00000    11.33284    -7.17346     0.60465
ALA(  7)    11.40000   -11.40000     0.00000    11.05007   -11.23253    -0.63368
ALA(  8)    15.20000   -11.40000     0.00000    15.13284   -10.97346     0.60465
ALA(  9)    15.20000   -15.20000     0.00000    14.77346   -15.13284    -0.60465
ALA( 10)    19.00000   -15.20000     0.00000    18.93284   -14.77346     0.60465
ALA( 11)    19.00000   -19.00000     0.00000    18.57346   -18.93284    -0.60465
D  ( 12)    22.80000   -19.00000     0.00000    22.80000   -19.00000     0.00000

Geometry of the virtual chain.
  Res           d     Theta     Gamma       Dsc     Alpha      Beta 
D     1     0.000     0.000     0.000     0.000     0.000     0.000
ALA   2     3.800     0.000     0.000     0.743   110.000  -120.000
ALA   3     3.800    90.000     0.000     0.743   110.000  -120.000
ALA   4     3.800    90.000   180.000     0.743   110.000  -120.000
ALA   5     3.800    90.000   180.000     0.743   100.000  -120.000
ALA   6     3.800    90.000   180.000     0.743   110.000  -120.000
ALA   7     3.800    90.000   180.000     0.743   100.000  -120.000
ALA   8     3.800    90.000   180.000     0.743   110.000  -120.000
ALA   9     3.800    90.000   180.000     0.743   110.000  -120.000
ALA  10     3.800    90.000   180.000     0.743   110.000  -120.000
ALA  11     3.800    90.000   180.000     0.743   110.000  -120.000
D    12     3.800    90.000   180.000     0.000   180.000   180.000
 Potential energy and its components

Virtual-chain energies:

EVDW=     -1.466547E+01 WEIGHT=    1.352790D+00 (SC-SC)
EVDW2=     1.045502E+01 WEIGHT=    1.593040D+00 (SC-p)
EES=      -3.731028E+00 WEIGHT=    7.153400D-01 (p-p)
EVDWPP=   -1.171261E+01 WEIGHT=    1.137100D-01 (p-p VDW)
ESTR=      1.531499E-27 WEIGHT=    1.000000D+00 (stretching)
EBE=      -2.106038E+00 WEIGHT=    1.138730D+00 (bending)
ESC=       9.424775E+01 WEIGHT=    1.625800D-01 (SC local)
ETORS=     0.000000E+00 WEIGHT=    1.985990D+00 (torsional)
ETORSD=   -9.403905E-01 WEIGHT=    1.570690D+00 (double torsional)
EHBP=      0.000000E+00 WEIGHT=    1.000000D+00 (SS bridges & dist. cnstr.)
ECORR4=   -2.225631E+00 WEIGHT=    4.288700D-01 (multi-body)
ECORR5=    0.000000E+00 WEIGHT=    0.000000D+00 (multi-body)
ECORR6=    0.000000E+00 WEIGHT=    0.000000D+00 (multi-body)
EELLO=     1.644793E+01 WEIGHT=    1.603600D-01 (electrostatic-local)
ETURN3=   -1.490245E+00 WEIGHT=    1.687220D+00 (turns, 3rd order)
ETURN4=    6.106256E+00 WEIGHT=    6.623000D-01 (turns, 4th order)
ETURN6=    0.000000E+00 WEIGHT=    0.000000D+00 (turns, 6th order)
ESCCOR=    0.000000E+00 WEIGHT=    1.000000D+00 (backbone-rotamer corr)
EDIHC=     0.000000E+00 (dihedral angle constraints)
ESS=       0.000000E+00 (disulfide-bridge intrinsic energy)
UCONST=     0.000000E+00 (Constraint energy)
ETOT=      7.475595E+00 (total)

Initial:
           Kinetic energy   1.64667E+01
         potential energy   7.47559E+00
             total energy   2.39423E+01

    maximum acceleration    9.73465E-01

Velocities reset to random values, time               84.93
Momenta zeroed out, time               84.93
Velocities reset to random values, time              162.90
Momenta zeroed out, time              162.90
Velocities reset to random values, time              249.85
Momenta zeroed out, time              249.85
Velocities reset to random values, time              319.31
Momenta zeroed out, time              319.31
Velocities reset to random values, time              398.92
Momenta zeroed out, time              398.92
Velocities reset to random values, time              476.10
Momenta zeroed out, time              476.10
Velocities reset to random values, time              540.82
Momenta zeroed out, time              540.82
Velocities reset to random values, time              612.01
Momenta zeroed out, time              612.01
Velocities reset to random values, time              687.88
Momenta zeroed out, time              687.88
Velocities reset to random values, time              762.77
Momenta zeroed out, time              762.77


===================================  Timing  ===================================

                  MD calculations setup:    0.00000E+00
           Energy & gradient evaluation:    7.80000E-01
                    Stochastic MD setup:    0.00000E+00
               Stochastic MD step setup:    0.00000E+00
                               MD steps:    8.80000E-01


============================  End of MD calculation  ===========================


***** Computation time:    0 hours  0 minutes  1 seconds *****