New microcanonical examples.

[unres.git] / examples / unres / new / microcanonical / RESPA / ff_gab / 1L2Y_micro.out_GB000

--------------------------------------------------------------------------------
                              FILE ASSIGNMENT
--------------------------------------------------------------------------------
 Input file                      : 1L2Y_micro.inp
 Output file                     : 1L2Y_micro.out_GB000
 
 Sidechain potential file        : 
 /users/aks255/newUNRES/unres/PARAM/sc_GB_opt.1e0g-52-17k-2k-newclass-shan1e9_ga
 p8g-sc
 SCp potential file              : /users/aks255/newUNRES/unres/PARAM/scp.parm
 Electrostatic potential file    : 
 /users/aks255/newUNRES/unres/PARAM/electr_631Gdp.parm
 Cumulant coefficient file       : 
 /users/aks255/newUNRES/unres/PARAM/fourier_opt.parm.1igd_hc_iter3_3
 Torsional parameter file        : 
 /users/aks255/newUNRES/unres/PARAM/torsion_631Gdp.parm
 Double torsional parameter file : 
 /users/aks255/newUNRES/unres/PARAM/torsion_double_631Gdp.parm
 SCCOR parameter file : /users/aks255/newUNRES/unres/PARAM/sccor_pdb_shelly.dat
 Bond & inertia constant file    : /users/aks255/newUNRES/unres/PARAM/bond.parm
 Bending parameter file          : 
 /users/aks255/newUNRES/unres/PARAM/thetaml.5parm
 Rotamer parameter file          : 
 /users/aks255/newUNRES/unres/PARAM/scgauss.parm
 Threading database              : 
 /users/aks255/newUNRES/unres/PARAM/patterns.cart
--------------------------------------------------------------------------------
********************************************************************************
United-residue force field calculation - parallel job.
********************************************************************************
 ### LAST MODIFIED  03/28/12 23:29 by czarek
 ++++ Compile info ++++
 Version 2.5 build 300
 compiled Thu Jul  5 03:59:46 2012
 compiled by aks255@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:
 INSTALL_DIR = /users/software/mpich-1.2.7p1_int...
 FC= ifort
 OPT =  -g -ip -w -CB 
 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 ...
 LIBS = -L$(INSTALL_DIR)/lib -lmpich xdrf/libxdr...
 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_MP...
 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
 MPI: node=            0  iseed(4)=            0           0         -46
      -45086
 ran_num  6.422640197456531E-013
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:   1000000
                 Initial time step of numerical integration:   0.01000 natural units
                                                               0.48900 fs
A-MTS algorithm used; initial time step for fast-varying short-range forces split into   1 steps.
Short-range force cutoff 2.00 lambda 0.30
Maximum acceleration threshold to reduce the time step/increase split number:  20.00000
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:     10000
                             Frequency of coordinate output:     10000
Microcanonical mode calculation

============================== 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=   0.000000 (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=   0.000000 (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     
PDB data will be read from file ../../../1L2Y.pdb
 Nres:    21
Backbone and SC coordinates as read from the PDB
  1 21  D    -9.841   4.399  -5.051       -9.841   4.399  -5.051
  2 14  ASN  -8.608   3.135  -1.618      -10.407   3.153  -2.437
  3  5  LEU  -4.923   4.002  -2.452       -4.618   6.091  -1.850
  4  8  TYR  -3.690   2.738   0.981       -1.959   3.143   3.797
  5  4  ILE  -5.857  -0.449   0.613       -7.484  -0.369   1.074
  6 13  GLN  -4.122  -1.167  -2.743       -5.089  -1.450  -4.853
  7  7  TRP  -0.716  -0.631  -0.993        1.727   0.440   1.450
  8  5  LEU  -1.641  -2.932   1.963       -2.244  -2.097   3.799
  9 19  LYS  -3.024  -5.791  -0.269       -3.820  -5.527  -3.146
 10 16  ASP   0.466  -6.016  -1.905        0.653  -5.125  -3.676
 11 10  GLY   2.060  -6.618   1.593        2.060  -6.618   1.593
 12 10  GLY   2.626  -2.967   2.723        2.626  -2.967   2.723
 13 20  PRO   6.333  -2.533   3.806        5.724  -2.372   5.058
 14 12  SER   7.049  -6.179   2.704        6.757  -6.938   3.675
 15 12  SER   6.389  -5.315  -1.015        5.245  -5.350  -1.546
 16 10  GLY   9.451  -3.116  -1.870        9.451  -3.116  -1.870
 17 18  ARG   7.289   0.084  -2.054        5.225  -1.826  -3.986
 18 20  PRO   6.782   3.088   0.345        7.458   3.741  -0.688
 19 20  PRO   3.287   4.031   1.686        4.025   4.206   2.856
 20 20  PRO   1.185   6.543  -0.353        0.358   5.421  -0.430
 21 12  SER   0.852  10.027   1.285        1.151  10.636   1.488
 22 21  D    -1.250  12.539  -0.754       -1.250  12.539  -0.754
nsup= 20 nstart_sup=  2
 ITEL
           1          21           0
           2          14           1
           3           5           1
           4           8           1
           5           4           1
           6          13           1
           7           7           1
           8           5           1
           9          19           1
          10          16           1
          11          10           1
          12          10           2
          13          20           1
          14          12           1
          15          12           1
          16          10           1
          17          18           2
          18          20           2
          19          20           2
          20          20           1
          21          12           0
 ns=           0  iss:
Boundaries in phi angle sampling:
D      1    -180.0     180.0
ASN    2    -180.0     180.0
LEU    3    -180.0     180.0
TYR    4    -180.0     180.0
ILE    5    -180.0     180.0
GLN    6    -180.0     180.0
TRP    7    -180.0     180.0
LEU    8    -180.0     180.0
LYS    9    -180.0     180.0
ASP   10    -180.0     180.0
GLY   11    -180.0     180.0
GLY   12    -180.0     180.0
PRO   13    -180.0     180.0
SER   14    -180.0     180.0
SER   15    -180.0     180.0
GLY   16    -180.0     180.0
ARG   17    -180.0     180.0
PRO   18    -180.0     180.0
PRO   19    -180.0     180.0
PRO   20    -180.0     180.0
SER   21    -180.0     180.0
D     22    -180.0     180.0
nsup= 20
 nsup=          20  nstart_sup=           2  nstart_seq=           2
 NZ_START=           2  NZ_END=          21
 IZ_SC=           0
 Contact order:  0.308441558441558     
 Shifting contacts:           2           2
           1  ILE            5  ASN            2
           2  TRP            7  TYR            4
           3  LEU            8  TYR            4
           4  LEU            8  ILE            5
           5  LYS            9  GLN            6
           6  GLY           12  TRP            7
           7  GLY           12  LEU            8
           8  SER           14  GLY           11
           9  SER           15  ASP           10
          10  SER           15  GLY           11
          11  PRO           19  TRP            7
          12  PRO           20  LEU            3
          13  PRO           20  TYR            4
          14  PRO           20  TRP            7

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
ASN   2     3.861     0.000     0.000     1.977    94.624  -178.093
LEU   3     3.876    92.239     0.000     2.195   102.878   -79.236
TYR   4     3.861    92.239  -180.000     3.330   163.195    -7.440
ILE   5     3.871    90.357    45.849     1.692   144.011  -104.516
GLN   6     3.846    89.090    55.194     2.338   170.986  -139.318
TRP   7     3.867    88.657    49.396     3.617   123.650   -21.913
LEU   8     3.859    93.032    48.298     2.105   151.723  -105.899
LYS   9     3.882    94.826    46.843     2.997   106.974   -55.960
ASP  10     3.861    87.966    59.623     1.991   153.447  -128.646
GLY  11     3.891    89.908    56.679     0.000     0.000     0.000
GLY  12     3.864   100.181   -87.304     0.000     0.000     0.000
PRO  13     3.886   109.073  -127.499     1.402   101.771  -115.580
SER  14     3.876    89.537     4.261     1.267   144.515  -129.218
SER  15     3.875    91.815    66.108     1.262   161.047  -100.177
GLY  16     3.866   101.784    70.140     0.000     0.000     0.000
ARG  17     3.866    92.201  -108.949     3.411   139.846  -132.716
PRO  18     3.878   133.225   103.824     1.397   115.610  -118.024
PRO  19     3.860   121.502  -122.527     1.395   118.575  -122.417
PRO  20     3.858   117.950   -90.285     1.396   118.959  -126.207
SER  21     3.864   114.201  -108.328     0.708   128.925   -37.341
D    22     3.858   114.201   180.000     0.000     0.000     0.000


********************************************************************************
                    Processor   0: end reading molecular data.
********************************************************************************


Mesoscopic molecular dynamics (MD) calculation.

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

 Calling chainbuild
====================MD calculation start====================
 Initial velocities randomly generated
 Initial velocities
  0   0.02267   0.06282  -0.18129      0.00000   0.00000   0.00000
  1   0.00000   0.00000   0.00000      0.00000   0.00000   0.00000
  2  -0.36014  -0.22705  -0.00171     -0.06904  -0.02446   0.24778
  3   0.27655   0.20645   0.14150      0.26200   0.15105   0.09342
  4   0.10834  -0.11941   0.14712      0.10330  -0.09595   0.03277
  5   0.05798  -0.08974   0.08325      0.03879   0.02648  -0.14707
  6   0.01211   0.16444  -0.14711     -0.01628   0.11599  -0.16511
  7  -0.01010  -0.05513   0.03662     -0.18958   0.06429   0.04531
  8  -0.01799   0.13439  -0.04510      0.02318   0.10657   0.03722
  9  -0.26458  -0.01929   0.09531     -0.22533  -0.17075  -0.04594
 10   0.14062  -0.06051  -0.18363      0.20415  -0.15549  -0.17329
 11  -0.14145   0.13159  -0.00733      0.00000   0.00000   0.00000
 12   0.19745  -0.24261   0.01759      0.00000   0.00000   0.00000
 13  -0.15305   0.28008   0.07251      0.06558   0.14824   0.10057
 14   0.11104  -0.31941   0.15684     -0.02949  -0.09688   0.05398
 15   0.14534   0.10342  -0.23754     -0.13923   0.07952   0.07655
 16  -0.11969   0.14757   0.15002      0.00000   0.00000   0.00000
 17  -0.09007  -0.15856  -0.20234     -0.07955  -0.08516  -0.10245
 18   0.24139   0.09063   0.14043     -0.02074   0.10220   0.04907
 19  -0.14354  -0.07226  -0.29143     -0.12408  -0.06855  -0.02978
 20   0.28536   0.09023   0.56577      0.02348   0.16297   0.19270
 21   0.00000   0.00000   0.00000     -0.13725  -0.06434  -0.21957
 22   0.00000   0.00000   0.00000      0.00000   0.00000   0.00000
 Calling the zero-angular  momentum subroutine
 vcm right after adjustment:
  4.226504204090251E-017 -1.020894735287500E-018 -4.083578941150001E-019


              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
ASN(  2)     3.86050     0.00000     0.00000     2.55159     1.47985     0.06557
LEU(  3)     4.01193    -3.87344     0.00000     3.96088    -4.50305    -2.10206
TYR(  4)     7.87243    -3.87344     0.00000    10.79652    -4.89021    -1.22632
ILE(  5)     7.89655    -1.17680     2.77774     7.76075     0.44675     2.31935
GLN(  6)     5.70141    -3.47509     4.94285     3.60888    -3.02771     5.88565
TRP(  7)     8.16996    -6.36206     4.22016    10.77228    -8.29798     2.61912
LEU(  8)    11.25658    -4.20989     5.07405    12.42370    -3.38205     3.52958
LYS(  9)     9.76612    -2.79308     8.36640     6.86736    -2.82804     9.12493
ASP( 10)     9.49962    -6.42561     9.64741     7.69328    -7.25489     9.53489
GLY( 11)    13.31647    -6.90493     9.06335    13.31647    -6.90493     9.06335
GLY( 12)    13.30671    -8.01769     5.36352    13.30671    -8.01769     5.36352
PRO( 13)    15.31165   -11.32992     5.02827    16.17763   -10.48298     4.32295
SER( 14)    15.75414   -11.41497     8.87760    16.77305   -10.71800     9.16233
SER( 15)    11.95328   -11.92981     9.42670    11.12717   -10.97987     9.51528
GLY( 16)    11.45094   -15.53878     8.13618    11.45094   -15.53878     8.13618
ARG( 17)     9.54906   -14.31220     5.00147     7.79760   -12.40573     7.22288
PRO( 18)    10.53690   -13.94710     1.26956     9.62009   -14.99504     1.15440
PRO( 19)    10.30439   -10.55356    -0.55592    11.52337   -10.99526    -1.06954
PRO( 20)     6.99735    -9.68439    -2.34313     7.03150    -8.66136    -1.39345
SER( 21)     7.20688    -9.78655    -6.20031     7.28380   -10.16020    -6.79638
D  ( 22)     3.89984    -8.91739    -7.98752     3.89984    -8.91739    -7.98752

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
ASN   2     3.861     0.000     0.000     1.977    94.624  -178.093
LEU   3     3.876    92.239     0.000     2.195   102.878   -79.236
TYR   4     3.861    92.239  -180.000     3.330   163.195    -7.440
ILE   5     3.871    90.357    45.849     1.692   144.011  -104.516
GLN   6     3.846    89.090    55.194     2.338   170.986  -139.318
TRP   7     3.867    88.657    49.396     3.617   123.650   -21.913
LEU   8     3.859    93.032    48.298     2.105   151.723  -105.899
LYS   9     3.882    94.826    46.843     2.997   106.974   -55.960
ASP  10     3.861    87.966    59.623     1.991   153.447  -128.646
GLY  11     3.891    89.908    56.679     0.000   180.000   180.000
GLY  12     3.864   100.181   -87.304     0.000   180.000   180.000
PRO  13     3.886   109.073  -127.499     1.402   101.771  -115.580
SER  14     3.876    89.537     4.261     1.267   144.515  -129.218
SER  15     3.875    91.815    66.108     1.262   161.047  -100.177
GLY  16     3.866   101.784    70.140     0.000   180.000   180.000
ARG  17     3.866    92.201  -108.949     3.411   139.846  -132.716
PRO  18     3.878   133.225   103.824     1.397   115.610  -118.024
PRO  19     3.860   121.502  -122.527     1.395   118.575  -122.417
PRO  20     3.858   117.950   -90.285     1.396   118.959  -126.207
SER  21     3.864   114.201  -108.328     0.708   128.925   -37.341
D    22     3.858   114.201   180.000     0.000   180.000   180.000
 Potential energy and its components

Virtual-chain energies:

EVDW=     -1.475487E+01 WEIGHT=    1.352790D+00 (SC-SC)
EVDW2=     4.471415E+01 WEIGHT=    1.593040D+00 (SC-p)
EES=      -9.165378E+01 WEIGHT=    7.153400D-01 (p-p)
EVDWPP=   -3.362882E+01 WEIGHT=    1.137100D-01 (p-p VDW)
ESTR=      6.750243E+02 WEIGHT=    1.000000D+00 (stretching)
EBE=      -3.261471E+01 WEIGHT=    1.138730D+00 (bending)
ESC=       5.789477E+01 WEIGHT=    1.625800D-01 (SC local)
ETORS=     1.479510E+01 WEIGHT=    1.985990D+00 (torsional)
ETORSD=    1.006444E+00 WEIGHT=    1.570690D+00 (double torsional)
EHPB=      0.000000E+00 WEIGHT=    1.000000D+00 (SS bridges & dist. cnstr.)
ECORR4=   -6.528803E+01 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=    -4.012900E+00 WEIGHT=    1.603600D-01 (electrostatic-local)
ETURN3=    1.829789E+01 WEIGHT=    1.687220D+00 (turns, 3rd order)
ETURN4=    6.580750E-01 WEIGHT=    6.623000D-01 (turns, 4th order)
ETURN6=    0.000000E+00 WEIGHT=    0.000000D+00 (turns, 6th order)
ESCCOR=    0.000000E+00 WEIGHT=    0.000000D+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=      6.628097E+02 (total)

Initial:
           Kinetic energy   3.07644E+01
         potential energy   6.62810E+02
             total energy   6.93574E+02

    maximum acceleration    8.66045E+00

 acceleration/energy drift too large   6734279.41463274     
   54738311078.4543       split increased to            2  itime      200118 
  itsplit           1
 acceleration/energy drift too large   24.4895369028038     
   1.32821218845467       split increased to            2  itime      266081 
  itsplit           1
 acceleration/energy drift too large   44.4311917664969     
   4.57319205143200       split increased to            2  itime      402601 
  itsplit           1
 acceleration/energy drift too large   28.7572428909513     
  0.788936299146734       split increased to            2  itime      442590 
  itsplit           1
 acceleration/energy drift too large   20.2089764275842     
  0.691673346201888       split increased to            2  itime      500270 
  itsplit           1
 acceleration/energy drift too large   88.4493437373067     
   9.37101357246886       split increased to            2  itime      507636 
  itsplit           1
 acceleration/energy drift too large   21.6111228162178     
  0.788433998481953       split increased to            2  itime      593794 
  itsplit           1
 acceleration/energy drift too large   45.1553522760112     
   1.55936649601761       split increased to            2  itime      649983 
  itsplit           1
 acceleration/energy drift too large   20.6831475552737     
  0.213878726179870       split increased to            2  itime      655014 
  itsplit           1
 acceleration/energy drift too large   26.2212647543526     
   1.13468372407443       split increased to            2  itime      745766 
  itsplit           1
 acceleration/energy drift too large   21.7231442885384     
  0.800053830161955       split increased to            2  itime      753149 
  itsplit           1
 acceleration/energy drift too large   20.2313659174623     
  0.170161192756919       split increased to            2  itime      786929 
  itsplit           1
 acceleration/energy drift too large   46.0826648400908     
   1.73113689064057       split increased to            2  itime      843183 
  itsplit           1
 acceleration/energy drift too large   59.0640848256989     
   7.53088041329393       split increased to            2  itime      897348 
  itsplit           1
 acceleration/energy drift too large   21.0228612878638     
   1.14611488476855       split increased to            2  itime      922019 
  itsplit           1
 acceleration/energy drift too large   26.5185743531151     
   1.60871726136454       split increased to            2  itime      979841 
  itsplit           1


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

                  MD calculations setup:    1.56250E-02
           Energy & gradient evaluation:    3.50645E+02
                    Stochastic MD setup:    0.00000E+00
               Stochastic MD step setup:    0.00000E+00
                               MD steps:    3.79141E+02


============================  End of MD calculation  ===========================
CG processor   0 is finishing work.
 Total wall clock time   384.445312500000       sec