============================================================
          |                                                          |
          |            Crystallography & NMR System (CNS)            |
          |                         CNSsolve                         |
          |                                                          |
          ============================================================
           Version: 1.1
           Status: Developmental version
          ============================================================
           Written by: A.T.Brunger, P.D.Adams, G.M.Clore, W.L.DeLano,
                       P.Gros, R.W.Grosse-Kunstleve, J.-S.Jiang,
                       J.Kuszewski, M.Nilges, N.S.Pannu, R.J.Read,
                       L.M.Rice, T.Simonson, G.L.Warren.
           Copyright (c) 1997-1999 Yale University
          ============================================================
           Running on machine: cesg-master.biochem.wisc.edu (Linux,32-bit)
           Program started by: lytle
           Program started at: 23:05:24 on 23-Mar-05
          ============================================================

 FFT3C: Using FFTPACK4.1

 CNSsolve>define( 
 DEFINE>{* selection of atoms other than hydrogens for which coordinates 
 DEFINE>   will be generated *} 
 DEFINE>{* to generate coordinates for all unknown atoms use: (not(known)) *} 
 DEFINE>{===>} atom_build=(not(known)); 
 DEFINE>{============================= output files ================================} 
 DEFINE> 
 DEFINE>{* input coordinate file *} 
 DEFINE>{===>} coordinate_infile="1xxx_4.pdb"; 
 DEFINE> 
 DEFINE>{* output coordinate file *} 
 DEFINE>{===>} coordinate_outfile="1xxx_4_cns.pdb"; 
 DEFINE>) 
 CNSsolve> 
 CNSsolve> checkversion 1.1 
 Program version= 1.1 File version= 1.1
 CNSsolve> 
 CNSsolve> evaluate ($log_level=verbose) 
 Assuming literal string "VERBOSE"
 EVALUATE: symbol $LOG_LEVEL set to "VERBOSE" (string)
 CNSsolve> evaluate ($par_nonbonded="PROLSQ") 
 EVALUATE: symbol $PAR_NONBONDED set to "PROLSQ" (string)
 CNSsolve> 
 CNSsolve> !@generateProtonsJFD.inp 
 CNSsolve> 
 CNSsolve>{===========================================================================} 
 CNSsolve>{         things below this line do not need to be changed                  } 
 CNSsolve>{===========================================================================} 
 CNSsolve> 
 CNSsolve>remarks changed Tue Sep  2 09:48:07 CDT 2003 
 CNSsolve>remarks by jfd to include a fes residue 
 CNSsolve> 
 CNSsolve>!@generate_tmoc.inp 
 CNSsolve> 
 CNSsolve>topology reset end 
 CNSsolve>structure reset end 
 Status of internal molecular topology database:
 -> NATOM=          0(MAXA=       40000)  NBOND=          0(MAXB=       40000)
 -> NTHETA=         0(MAXT=       80000)  NGRP=           0(MAXGRP=     40000)
 -> NPHI=           0(MAXP=       80000)  NIMPHI=         0(MAXIMP=     40000)
 -> NNB=            0(MAXNB=      40000) 
 CNSsolve> 
 CNSsolve>topology 
 RTFRDR>{===>} @TOPPAR:topallhdg5.3.pro 
 ASSFIL: file /u/lytle/waterrefine/toppar/topallhdg5.3.pro opened.
 RTFRDR>remark   file topallhdg.pro  version 5.3  date 23-Sept-02 
 RTFRDR>remark      for file parallhdg.pro version 5.3 date 13-Feb-02 or later 
 RTFRDR>remark   Geometric energy function parameters for distance geometry and 
 RTFRDR>remark      simulated annealing. 
 RTFRDR>remark   Author: Michael Nilges, EMBL Heidelberg; Institut Pasteur, Paris 
 RTFRDR>remark   This file contains modifications from M. Williams, UCL London 
 RTFRDR>remark   Last modification 16-Sept-02 
 RTFRDR> 
 RTFRDR>set echo off message off end 
 RTFRDR>end 
 CNSsolve> 
 CNSsolve>! no chain id. 
 CNSsolve>segment  name="    " 
 SEGMENT>    chain 
 CHAIN>        @TOPPAR:topallhdg5.3.pep 
 CHAIN>REMARKS  TOPH19.pep -MACRO for protein sequence 
 CHAIN>SET ECHO=FALSE END 
 CHAIN>        sequence 
 SEQUENCE>        	@1xxx.seq 
 SEQUENCE>ASP 
 SEQUence-element (terminate with END) =PRO 
 SEQUence-element (terminate with END) =ASN 
 SEQUence-element (terminate with END) =ALA 
 SEQUence-element (terminate with END) =GLU 
 SEQUence-element (terminate with END) =PHE 
 SEQUence-element (terminate with END) =ASP 
 SEQUence-element (terminate with END) =PRO 
 SEQUence-element (terminate with END) =ASP 
 SEQUence-element (terminate with END) =LEU 
 SEQUence-element (terminate with END) =PRO 
 SEQUence-element (terminate with END) =GLY 
 SEQUence-element (terminate with END) =GLY 
 SEQUence-element (terminate with END) =GLY 
 SEQUence-element (terminate with END) =LEU 
 SEQUence-element (terminate with END) =HIS 
 SEQUence-element (terminate with END) =ARG 
 SEQUence-element (terminate with END) =CYS 
 SEQUence-element (terminate with END) =LEU 
 SEQUence-element (terminate with END) =ALA 
 SEQUence-element (terminate with END) =CYS 
 SEQUence-element (terminate with END) =ALA 
 SEQUence-element (terminate with END) =ARG 
 SEQUence-element (terminate with END) =TYR 
 SEQUence-element (terminate with END) =PHE 
 SEQUence-element (terminate with END) =ILE 
 SEQUence-element (terminate with END) =ASP 
 SEQUence-element (terminate with END) =SER 
 SEQUence-element (terminate with END) =THR 
 SEQUence-element (terminate with END) =ASN 
 SEQUence-element (terminate with END) =LEU 
 SEQUence-element (terminate with END) =LYS 
 SEQUence-element (terminate with END) =THR 
 SEQUence-element (terminate with END) =HIS 
 SEQUence-element (terminate with END) =PHE 
 SEQUence-element (terminate with END) =ARG 
 SEQUence-element (terminate with END) =SER 
 SEQUence-element (terminate with END) =LYS 
 SEQUence-element (terminate with END) =ASP 
 SEQUence-element (terminate with END) =HIS 
 SEQUence-element (terminate with END) =LYS 
 SEQUence-element (terminate with END) =LYS 
 SEQUence-element (terminate with END) =ARG 
 SEQUence-element (terminate with END) =LEU 
 SEQUence-element (terminate with END) =LYS 
 SEQUence-element (terminate with END) =GLN 
 SEQUence-element (terminate with END) =LEU 
 SEQUence-element (terminate with END) =SER 
 SEQUence-element (terminate with END) =VAL 
 SEQUence-element (terminate with END) =GLU 
 SEQUence-element (terminate with END) =PRO 
 SEQUence-element (terminate with END) =TYR 
 SEQUence-element (terminate with END) =SER 
 SEQUence-element (terminate with END) =GLN 
 SEQUence-element (terminate with END) =GLU 
 SEQUence-element (terminate with END) =GLU 
 SEQUence-element (terminate with END) =ALA 
 SEQUence-element (terminate with END) =GLU 
 SEQUence-element (terminate with END) =ARG 
 SEQUence-element (terminate with END) =ALA 
 SEQUence-element (terminate with END) =ALA 
 SEQUence-element (terminate with END) =GLY 
 SEQUence-element (terminate with END) =MET 
 SEQUence-element (terminate with END) =GLY 
 SEQUence-element (terminate with END) =SER 
 SEQUence-element (terminate with END) =TYR 
 SEQUence-element (terminate with END) =VAL 
 SEQUence-element (terminate with END) =	end 
 SEGMNT:    67 residues were inserted into segment "    "
 CHAIN>    end 
 SEGMENT>    chain 
 CHAIN>        sequece 
 SEQUENCE>              ZIN 
 SEQUence-element (terminate with END) =        end 
 SEGMNT:     1 residues were inserted into segment "    "
 CHAIN>    end 
 SEGMENT>end 
 Status of internal molecular topology database:
 -> NATOM=       1046(MAXA=       40000)  NBOND=       1057(MAXB=       40000)
 -> NTHETA=      1903(MAXT=       80000)  NGRP=          70(MAXGRP=     40000)
 -> NPHI=        1607(MAXP=       80000)  NIMPHI=       559(MAXIMP=     40000)
 -> NNB=          258(MAXNB=      40000) 
 CNSsolve> 
 CNSsolve>patch ZINC 
 PATCH>     reference=1=( resid 18 ) 
 PATCH>     reference=2=( resid 21 ) 
 PATCH>     reference=3=( resid 34 ) 
 PATCH>     reference=4=( resid 40 ) 
 PATCH>     reference=5=( resid 68 ) 
 PATCH>end 
 Status of internal molecular topology database:
 -> NATOM=       1042(MAXA=       40000)  NBOND=       1057(MAXB=       40000)
 -> NTHETA=      1909(MAXT=       80000)  NGRP=          70(MAXGRP=     40000)
 -> NPHI=        1607(MAXP=       80000)  NIMPHI=       563(MAXIMP=     40000)
 -> NNB=          258(MAXNB=      40000) 
 CNSsolve> 
 CNSsolve>! turn peptide from trans to cis 
 CNSsolve>!patch CISP reference=nil=( resid 80 ) end 
 CNSsolve> 
 CNSsolve>coor @&coordinate_infile 
 COOR>HEADER    Structures from CYANA                    23-03-2005 
 COOR>REMARK model 4 
 COOR>ATOM   3628    N ASP A   1       1.325   0.000   0.000  1.00  0.00 
 %READC-ERR: atom      1    ASP  HN   not found in molecular structure
 %READC-ERR: atom      1    ASP  2HB  not found in molecular structure
 %READC-ERR: atom      1    ASP  3HB  not found in molecular structure
 %READC-ERR: atom      1    ASP  QB   not found in molecular structure
 %READC-ERR: atom      2    PRO  2HB  not found in molecular structure
 %READC-ERR: atom      2    PRO  3HB  not found in molecular structure
 %READC-ERR: atom      2    PRO  QB   not found in molecular structure
 %READC-ERR: atom      2    PRO  2HG  not found in molecular structure
 %READC-ERR: atom      2    PRO  3HG  not found in molecular structure
 %READC-ERR: atom      2    PRO  QG   not found in molecular structure
 %READC-ERR: atom      2    PRO  2HD  not found in molecular structure
 %READC-ERR: atom      2    PRO  3HD  not found in molecular structure
 %READC-ERR: atom      2    PRO  QD   not found in molecular structure
 %READC-ERR: atom      3    ASN  2HB  not found in molecular structure
 %READC-ERR: atom      3    ASN  3HB  not found in molecular structure
 %READC-ERR: atom      3    ASN  QB   not found in molecular structure
 %READC-ERR: atom      3    ASN  1HD2 not found in molecular structure
 %READC-ERR: atom      3    ASN  2HD2 not found in molecular structure
 %READC-ERR: atom      3    ASN  QD2  not found in molecular structure
 %READC-ERR: atom      4    ALA  QB   not found in molecular structure
 %READC-ERR: atom      4    ALA  1HB  not found in molecular structure
 %READC-ERR: atom      4    ALA  2HB  not found in molecular structure
 %READC-ERR: atom      4    ALA  3HB  not found in molecular structure
 %READC-ERR: atom      5    GLU  2HB  not found in molecular structure
 %READC-ERR: atom      5    GLU  3HB  not found in molecular structure
 %READC-ERR: atom      5    GLU  QB   not found in molecular structure
 %READC-ERR: atom      5    GLU  2HG  not found in molecular structure
 %READC-ERR: atom      5    GLU  3HG  not found in molecular structure
 %READC-ERR: atom      5    GLU  QG   not found in molecular structure
 %READC-ERR: atom      6    PHE  2HB  not found in molecular structure
 %READC-ERR: atom      6    PHE  3HB  not found in molecular structure
 %READC-ERR: atom      6    PHE  QB   not found in molecular structure
 %READC-ERR: atom      6    PHE  QD   not found in molecular structure
 %READC-ERR: atom      6    PHE  QE   not found in molecular structure
 %READC-ERR: atom      6    PHE  QR   not found in molecular structure
 %READC-ERR: atom      7    ASP  2HB  not found in molecular structure
 %READC-ERR: atom      7    ASP  3HB  not found in molecular structure
 %READC-ERR: atom      7    ASP  QB   not found in molecular structure
 %READC-ERR: atom      8    PRO  2HB  not found in molecular structure
 %READC-ERR: atom      8    PRO  3HB  not found in molecular structure
 %READC-ERR: atom      8    PRO  QB   not found in molecular structure
 %READC-ERR: atom      8    PRO  2HG  not found in molecular structure
 %READC-ERR: atom      8    PRO  3HG  not found in molecular structure
 %READC-ERR: atom      8    PRO  QG   not found in molecular structure
 %READC-ERR: atom      8    PRO  2HD  not found in molecular structure
 %READC-ERR: atom      8    PRO  3HD  not found in molecular structure
 %READC-ERR: atom      8    PRO  QD   not found in molecular structure
 %READC-ERR: atom      9    ASP  2HB  not found in molecular structure
 %READC-ERR: atom      9    ASP  3HB  not found in molecular structure
 %READC-ERR: atom      9    ASP  QB   not found in molecular structure
 %READC-ERR: atom      10   LEU  2HB  not found in molecular structure
 %READC-ERR: atom      10   LEU  3HB  not found in molecular structure
 %READC-ERR: atom      10   LEU  QB   not found in molecular structure
 %READC-ERR: atom      10   LEU  QD1  not found in molecular structure
 %READC-ERR: atom      10   LEU  QD2  not found in molecular structure
 %READC-ERR: atom      10   LEU  1HD1 not found in molecular structure
 %READC-ERR: atom      10   LEU  2HD1 not found in molecular structure
 %READC-ERR: atom      10   LEU  3HD1 not found in molecular structure
 %READC-ERR: atom      10   LEU  1HD2 not found in molecular structure
 %READC-ERR: atom      10   LEU  2HD2 not found in molecular structure
 %READC-ERR: atom      10   LEU  3HD2 not found in molecular structure
 %READC-ERR: atom      10   LEU  QQD  not found in molecular structure
 %READC-ERR: atom      11   PRO  2HB  not found in molecular structure
 %READC-ERR: atom      11   PRO  3HB  not found in molecular structure
 %READC-ERR: atom      11   PRO  QB   not found in molecular structure
 %READC-ERR: atom      11   PRO  2HG  not found in molecular structure
 %READC-ERR: atom      11   PRO  3HG  not found in molecular structure
 %READC-ERR: atom      11   PRO  QG   not found in molecular structure
 %READC-ERR: atom      11   PRO  2HD  not found in molecular structure
 %READC-ERR: atom      11   PRO  3HD  not found in molecular structure
 %READC-ERR: atom      11   PRO  QD   not found in molecular structure
 %READC-ERR: atom      12   GLY  1HA  not found in molecular structure
 %READC-ERR: atom      12   GLY  2HA  not found in molecular structure
 %READC-ERR: atom      12   GLY  QA   not found in molecular structure
 %READC-ERR: atom      13   GLY  1HA  not found in molecular structure
 %READC-ERR: atom      13   GLY  2HA  not found in molecular structure
 %READC-ERR: atom      13   GLY  QA   not found in molecular structure
 %READC-ERR: atom      14   GLY  1HA  not found in molecular structure
 %READC-ERR: atom      14   GLY  2HA  not found in molecular structure
 %READC-ERR: atom      14   GLY  QA   not found in molecular structure
 %READC-ERR: atom      15   LEU  2HB  not found in molecular structure
 %READC-ERR: atom      15   LEU  3HB  not found in molecular structure
 %READC-ERR: atom      15   LEU  QB   not found in molecular structure
 %READC-ERR: atom      15   LEU  QD1  not found in molecular structure
 %READC-ERR: atom      15   LEU  QD2  not found in molecular structure
 %READC-ERR: atom      15   LEU  1HD1 not found in molecular structure
 %READC-ERR: atom      15   LEU  2HD1 not found in molecular structure
 %READC-ERR: atom      15   LEU  3HD1 not found in molecular structure
 %READC-ERR: atom      15   LEU  1HD2 not found in molecular structure
 %READC-ERR: atom      15   LEU  2HD2 not found in molecular structure
 %READC-ERR: atom      15   LEU  3HD2 not found in molecular structure
 %READC-ERR: atom      15   LEU  QQD  not found in molecular structure
 %READC-ERR: atom      16   HIS  2HB  not found in molecular structure
 %READC-ERR: atom      16   HIS  3HB  not found in molecular structure
 %READC-ERR: atom      16   HIS  QB   not found in molecular structure
 %READC-ERR: atom      17   ARG  2HB  not found in molecular structure
 %READC-ERR: atom      17   ARG  3HB  not found in molecular structure
 %READC-ERR: atom      17   ARG  QB   not found in molecular structure
 %READC-ERR: atom      17   ARG  2HG  not found in molecular structure
 %READC-ERR: atom      17   ARG  3HG  not found in molecular structure
 %READC-ERR: atom      17   ARG  QG   not found in molecular structure
 %READC-ERR: atom      17   ARG  2HD  not found in molecular structure
 %READC-ERR: atom      17   ARG  3HD  not found in molecular structure
 %READC-ERR: atom      17   ARG  QD   not found in molecular structure
 %READC-ERR: atom      17   ARG  1HH1 not found in molecular structure
 %READC-ERR: atom      17   ARG  2HH1 not found in molecular structure
 %READC-ERR: atom      17   ARG  QH1  not found in molecular structure
 %READC-ERR: atom      17   ARG  1HH2 not found in molecular structure
 %READC-ERR: atom      17   ARG  2HH2 not found in molecular structure
 %READC-ERR: atom      17   ARG  QH2  not found in molecular structure
 %READC-ERR: atom      18   CYS  2HB  not found in molecular structure
 %READC-ERR: atom      18   CYS  3HB  not found in molecular structure
 %READC-ERR: atom      18   CYS  QB   not found in molecular structure
 %READC-ERR: atom      19   LEU  2HB  not found in molecular structure
 %READC-ERR: atom      19   LEU  3HB  not found in molecular structure
 %READC-ERR: atom      19   LEU  QB   not found in molecular structure
 %READC-ERR: atom      19   LEU  QD1  not found in molecular structure
 %READC-ERR: atom      19   LEU  QD2  not found in molecular structure
 %READC-ERR: atom      19   LEU  1HD1 not found in molecular structure
 %READC-ERR: atom      19   LEU  2HD1 not found in molecular structure
 %READC-ERR: atom      19   LEU  3HD1 not found in molecular structure
 %READC-ERR: atom      19   LEU  1HD2 not found in molecular structure
 %READC-ERR: atom      19   LEU  2HD2 not found in molecular structure
 %READC-ERR: atom      19   LEU  3HD2 not found in molecular structure
 %READC-ERR: atom      19   LEU  QQD  not found in molecular structure
 %READC-ERR: atom      20   ALA  QB   not found in molecular structure
 %READC-ERR: atom      20   ALA  1HB  not found in molecular structure
 %READC-ERR: atom      20   ALA  2HB  not found in molecular structure
 %READC-ERR: atom      20   ALA  3HB  not found in molecular structure
 %READC-ERR: atom      21   CYS  2HB  not found in molecular structure
 %READC-ERR: atom      21   CYS  3HB  not found in molecular structure
 %READC-ERR: atom      21   CYS  QB   not found in molecular structure
 %READC-ERR: atom      22   ALA  QB   not found in molecular structure
 %READC-ERR: atom      22   ALA  1HB  not found in molecular structure
 %READC-ERR: atom      22   ALA  2HB  not found in molecular structure
 %READC-ERR: atom      22   ALA  3HB  not found in molecular structure
 %READC-ERR: atom      23   ARG  2HB  not found in molecular structure
 %READC-ERR: atom      23   ARG  3HB  not found in molecular structure
 %READC-ERR: atom      23   ARG  QB   not found in molecular structure
 %READC-ERR: atom      23   ARG  2HG  not found in molecular structure
 %READC-ERR: atom      23   ARG  3HG  not found in molecular structure
 %READC-ERR: atom      23   ARG  QG   not found in molecular structure
 %READC-ERR: atom      23   ARG  2HD  not found in molecular structure
 %READC-ERR: atom      23   ARG  3HD  not found in molecular structure
 %READC-ERR: atom      23   ARG  QD   not found in molecular structure
 %READC-ERR: atom      23   ARG  1HH1 not found in molecular structure
 %READC-ERR: atom      23   ARG  2HH1 not found in molecular structure
 %READC-ERR: atom      23   ARG  QH1  not found in molecular structure
 %READC-ERR: atom      23   ARG  1HH2 not found in molecular structure
 %READC-ERR: atom      23   ARG  2HH2 not found in molecular structure
 %READC-ERR: atom      23   ARG  QH2  not found in molecular structure
 %READC-ERR: atom      24   TYR  2HB  not found in molecular structure
 %READC-ERR: atom      24   TYR  3HB  not found in molecular structure
 %READC-ERR: atom      24   TYR  QB   not found in molecular structure
 %READC-ERR: atom      24   TYR  QD   not found in molecular structure
 %READC-ERR: atom      24   TYR  QE   not found in molecular structure
 %READC-ERR: atom      24   TYR  QR   not found in molecular structure
 %READC-ERR: atom      25   PHE  2HB  not found in molecular structure
 %READC-ERR: atom      25   PHE  3HB  not found in molecular structure
 %READC-ERR: atom      25   PHE  QB   not found in molecular structure
 %READC-ERR: atom      25   PHE  QD   not found in molecular structure
 %READC-ERR: atom      25   PHE  QE   not found in molecular structure
 %READC-ERR: atom      25   PHE  QR   not found in molecular structure
 %READC-ERR: atom      26   ILE  QG2  not found in molecular structure
 %READC-ERR: atom      26   ILE  1HG2 not found in molecular structure
 %READC-ERR: atom      26   ILE  2HG2 not found in molecular structure
 %READC-ERR: atom      26   ILE  3HG2 not found in molecular structure
 %READC-ERR: atom      26   ILE  2HG1 not found in molecular structure
 %READC-ERR: atom      26   ILE  3HG1 not found in molecular structure
 %READC-ERR: atom      26   ILE  QG1  not found in molecular structure
 %READC-ERR: atom      26   ILE  QD1  not found in molecular structure
 %READC-ERR: atom      26   ILE  1HD1 not found in molecular structure
 %READC-ERR: atom      26   ILE  2HD1 not found in molecular structure
 %READC-ERR: atom      26   ILE  3HD1 not found in molecular structure
 %READC-ERR: atom      27   ASP  2HB  not found in molecular structure
 %READC-ERR: atom      27   ASP  3HB  not found in molecular structure
 %READC-ERR: atom      27   ASP  QB   not found in molecular structure
 %READC-ERR: atom      28   SER  2HB  not found in molecular structure
 %READC-ERR: atom      28   SER  3HB  not found in molecular structure
 %READC-ERR: atom      28   SER  QB   not found in molecular structure
 %READC-ERR: atom      29   THR  QG2  not found in molecular structure
 %READC-ERR: atom      29   THR  1HG2 not found in molecular structure
 %READC-ERR: atom      29   THR  2HG2 not found in molecular structure
 %READC-ERR: atom      29   THR  3HG2 not found in molecular structure
 %READC-ERR: atom      30   ASN  2HB  not found in molecular structure
 %READC-ERR: atom      30   ASN  3HB  not found in molecular structure
 %READC-ERR: atom      30   ASN  QB   not found in molecular structure
 %READC-ERR: atom      30   ASN  1HD2 not found in molecular structure
 %READC-ERR: atom      30   ASN  2HD2 not found in molecular structure
 %READC-ERR: atom      30   ASN  QD2  not found in molecular structure
 %READC-ERR: atom      31   LEU  2HB  not found in molecular structure
 %READC-ERR: atom      31   LEU  3HB  not found in molecular structure
 %READC-ERR: atom      31   LEU  QB   not found in molecular structure
 %READC-ERR: atom      31   LEU  QD1  not found in molecular structure
 %READC-ERR: atom      31   LEU  QD2  not found in molecular structure
 %READC-ERR: atom      31   LEU  1HD1 not found in molecular structure
 %READC-ERR: atom      31   LEU  2HD1 not found in molecular structure
 %READC-ERR: atom      31   LEU  3HD1 not found in molecular structure
 %READC-ERR: atom      31   LEU  1HD2 not found in molecular structure
 %READC-ERR: atom      31   LEU  2HD2 not found in molecular structure
 %READC-ERR: atom      31   LEU  3HD2 not found in molecular structure
 %READC-ERR: atom      31   LEU  QQD  not found in molecular structure
 %READC-ERR: atom      32   LYS  2HB  not found in molecular structure
 %READC-ERR: atom      32   LYS  3HB  not found in molecular structure
 %READC-ERR: atom      32   LYS  QB   not found in molecular structure
 %READC-ERR: atom      32   LYS  2HG  not found in molecular structure
 %READC-ERR: atom      32   LYS  3HG  not found in molecular structure
 %READC-ERR: atom      32   LYS  QG   not found in molecular structure
 %READC-ERR: atom      32   LYS  2HD  not found in molecular structure
 %READC-ERR: atom      32   LYS  3HD  not found in molecular structure
 %READC-ERR: atom      32   LYS  QD   not found in molecular structure
 %READC-ERR: atom      32   LYS  2HE  not found in molecular structure
 %READC-ERR: atom      32   LYS  3HE  not found in molecular structure
 %READC-ERR: atom      32   LYS  QE   not found in molecular structure
 %READC-ERR: atom      32   LYS  1HZ  not found in molecular structure
 %READC-ERR: atom      32   LYS  2HZ  not found in molecular structure
 %READC-ERR: atom      32   LYS  3HZ  not found in molecular structure
 %READC-ERR: atom      32   LYS  QZ   not found in molecular structure
 %READC-ERR: atom      33   THR  QG2  not found in molecular structure
 %READC-ERR: atom      33   THR  1HG2 not found in molecular structure
 %READC-ERR: atom      33   THR  2HG2 not found in molecular structure
 %READC-ERR: atom      33   THR  3HG2 not found in molecular structure
 %READC-ERR: atom      34   HIS  2HB  not found in molecular structure
 %READC-ERR: atom      34   HIS  3HB  not found in molecular structure
 %READC-ERR: atom      34   HIS  QB   not found in molecular structure
 %READC-ERR: atom      35   PHE  2HB  not found in molecular structure
 %READC-ERR: atom      35   PHE  3HB  not found in molecular structure
 %READC-ERR: atom      35   PHE  QB   not found in molecular structure
 %READC-ERR: atom      35   PHE  QD   not found in molecular structure
 %READC-ERR: atom      35   PHE  QE   not found in molecular structure
 %READC-ERR: atom      35   PHE  QR   not found in molecular structure
 %READC-ERR: atom      36   ARG  2HB  not found in molecular structure
 %READC-ERR: atom      36   ARG  3HB  not found in molecular structure
 %READC-ERR: atom      36   ARG  QB   not found in molecular structure
 %READC-ERR: atom      36   ARG  2HG  not found in molecular structure
 %READC-ERR: atom      36   ARG  3HG  not found in molecular structure
 %READC-ERR: atom      36   ARG  QG   not found in molecular structure
 %READC-ERR: atom      36   ARG  2HD  not found in molecular structure
 %READC-ERR: atom      36   ARG  3HD  not found in molecular structure
 %READC-ERR: atom      36   ARG  QD   not found in molecular structure
 %READC-ERR: atom      36   ARG  1HH1 not found in molecular structure
 %READC-ERR: atom      36   ARG  2HH1 not found in molecular structure
 %READC-ERR: atom      36   ARG  QH1  not found in molecular structure
 %READC-ERR: atom      36   ARG  1HH2 not found in molecular structure
 %READC-ERR: atom      36   ARG  2HH2 not found in molecular structure
 %READC-ERR: atom      36   ARG  QH2  not found in molecular structure
 %READC-ERR: atom      37   SER  2HB  not found in molecular structure
 %READC-ERR: atom      37   SER  3HB  not found in molecular structure
 %READC-ERR: atom      37   SER  QB   not found in molecular structure
 %READC-ERR: atom      38   LYS  2HB  not found in molecular structure
 %READC-ERR: atom      38   LYS  3HB  not found in molecular structure
 %READC-ERR: atom      38   LYS  QB   not found in molecular structure
 %READC-ERR: atom      38   LYS  2HG  not found in molecular structure
 %READC-ERR: atom      38   LYS  3HG  not found in molecular structure
 %READC-ERR: atom      38   LYS  QG   not found in molecular structure
 %READC-ERR: atom      38   LYS  2HD  not found in molecular structure
 %READC-ERR: atom      38   LYS  3HD  not found in molecular structure
 %READC-ERR: atom      38   LYS  QD   not found in molecular structure
 %READC-ERR: atom      38   LYS  2HE  not found in molecular structure
 %READC-ERR: atom      38   LYS  3HE  not found in molecular structure
 %READC-ERR: atom      38   LYS  QE   not found in molecular structure
 %READC-ERR: atom      38   LYS  1HZ  not found in molecular structure
 %READC-ERR: atom      38   LYS  2HZ  not found in molecular structure
 %READC-ERR: atom      38   LYS  3HZ  not found in molecular structure
 %READC-ERR: atom      38   LYS  QZ   not found in molecular structure
 %READC-ERR: atom      39   ASP  2HB  not found in molecular structure
 %READC-ERR: atom      39   ASP  3HB  not found in molecular structure
 %READC-ERR: atom      39   ASP  QB   not found in molecular structure
 %READC-ERR: atom      40   HIS  2HB  not found in molecular structure
 %READC-ERR: atom      40   HIS  3HB  not found in molecular structure
 %READC-ERR: atom      40   HIS  QB   not found in molecular structure
 %READC-ERR: atom      41   LYS  2HB  not found in molecular structure
 %READC-ERR: atom      41   LYS  3HB  not found in molecular structure
 %READC-ERR: atom      41   LYS  QB   not found in molecular structure
 %READC-ERR: atom      41   LYS  2HG  not found in molecular structure
 %READC-ERR: atom      41   LYS  3HG  not found in molecular structure
 %READC-ERR: atom      41   LYS  QG   not found in molecular structure
 %READC-ERR: atom      41   LYS  2HD  not found in molecular structure
 %READC-ERR: atom      41   LYS  3HD  not found in molecular structure
 %READC-ERR: atom      41   LYS  QD   not found in molecular structure
 %READC-ERR: atom      41   LYS  2HE  not found in molecular structure
 %READC-ERR: atom      41   LYS  3HE  not found in molecular structure
 %READC-ERR: atom      41   LYS  QE   not found in molecular structure
 %READC-ERR: atom      41   LYS  1HZ  not found in molecular structure
 %READC-ERR: atom      41   LYS  2HZ  not found in molecular structure
 %READC-ERR: atom      41   LYS  3HZ  not found in molecular structure
 %READC-ERR: atom      41   LYS  QZ   not found in molecular structure
 %READC-ERR: atom      42   LYS  2HB  not found in molecular structure
 %READC-ERR: atom      42   LYS  3HB  not found in molecular structure
 %READC-ERR: atom      42   LYS  QB   not found in molecular structure
 %READC-ERR: atom      42   LYS  2HG  not found in molecular structure
 %READC-ERR: atom      42   LYS  3HG  not found in molecular structure
 %READC-ERR: atom      42   LYS  QG   not found in molecular structure
 %READC-ERR: atom      42   LYS  2HD  not found in molecular structure
 %READC-ERR: atom      42   LYS  3HD  not found in molecular structure
 %READC-ERR: atom      42   LYS  QD   not found in molecular structure
 %READC-ERR: atom      42   LYS  2HE  not found in molecular structure
 %READC-ERR: atom      42   LYS  3HE  not found in molecular structure
 %READC-ERR: atom      42   LYS  QE   not found in molecular structure
 %READC-ERR: atom      42   LYS  1HZ  not found in molecular structure
 %READC-ERR: atom      42   LYS  2HZ  not found in molecular structure
 %READC-ERR: atom      42   LYS  3HZ  not found in molecular structure
 %READC-ERR: atom      42   LYS  QZ   not found in molecular structure
 %READC-ERR: atom      43   ARG  2HB  not found in molecular structure
 %READC-ERR: atom      43   ARG  3HB  not found in molecular structure
 %READC-ERR: atom      43   ARG  QB   not found in molecular structure
 %READC-ERR: atom      43   ARG  2HG  not found in molecular structure
 %READC-ERR: atom      43   ARG  3HG  not found in molecular structure
 %READC-ERR: atom      43   ARG  QG   not found in molecular structure
 %READC-ERR: atom      43   ARG  2HD  not found in molecular structure
 %READC-ERR: atom      43   ARG  3HD  not found in molecular structure
 %READC-ERR: atom      43   ARG  QD   not found in molecular structure
 %READC-ERR: atom      43   ARG  1HH1 not found in molecular structure
 %READC-ERR: atom      43   ARG  2HH1 not found in molecular structure
 %READC-ERR: atom      43   ARG  QH1  not found in molecular structure
 %READC-ERR: atom      43   ARG  1HH2 not found in molecular structure
 %READC-ERR: atom      43   ARG  2HH2 not found in molecular structure
 %READC-ERR: atom      43   ARG  QH2  not found in molecular structure
 %READC-ERR: atom      44   LEU  2HB  not found in molecular structure
 %READC-ERR: atom      44   LEU  3HB  not found in molecular structure
 %READC-ERR: atom      44   LEU  QB   not found in molecular structure
 %READC-ERR: atom      44   LEU  QD1  not found in molecular structure
 %READC-ERR: atom      44   LEU  QD2  not found in molecular structure
 %READC-ERR: atom      44   LEU  1HD1 not found in molecular structure
 %READC-ERR: atom      44   LEU  2HD1 not found in molecular structure
 %READC-ERR: atom      44   LEU  3HD1 not found in molecular structure
 %READC-ERR: atom      44   LEU  1HD2 not found in molecular structure
 %READC-ERR: atom      44   LEU  2HD2 not found in molecular structure
 %READC-ERR: atom      44   LEU  3HD2 not found in molecular structure
 %READC-ERR: atom      44   LEU  QQD  not found in molecular structure
 %READC-ERR: atom      45   LYS  2HB  not found in molecular structure
 %READC-ERR: atom      45   LYS  3HB  not found in molecular structure
 %READC-ERR: atom      45   LYS  QB   not found in molecular structure
 %READC-ERR: atom      45   LYS  2HG  not found in molecular structure
 %READC-ERR: atom      45   LYS  3HG  not found in molecular structure
 %READC-ERR: atom      45   LYS  QG   not found in molecular structure
 %READC-ERR: atom      45   LYS  2HD  not found in molecular structure
 %READC-ERR: atom      45   LYS  3HD  not found in molecular structure
 %READC-ERR: atom      45   LYS  QD   not found in molecular structure
 %READC-ERR: atom      45   LYS  2HE  not found in molecular structure
 %READC-ERR: atom      45   LYS  3HE  not found in molecular structure
 %READC-ERR: atom      45   LYS  QE   not found in molecular structure
 %READC-ERR: atom      45   LYS  1HZ  not found in molecular structure
 %READC-ERR: atom      45   LYS  2HZ  not found in molecular structure
 %READC-ERR: atom      45   LYS  3HZ  not found in molecular structure
 %READC-ERR: atom      45   LYS  QZ   not found in molecular structure
 %READC-ERR: atom      46   GLN  2HB  not found in molecular structure
 %READC-ERR: atom      46   GLN  3HB  not found in molecular structure
 %READC-ERR: atom      46   GLN  QB   not found in molecular structure
 %READC-ERR: atom      46   GLN  2HG  not found in molecular structure
 %READC-ERR: atom      46   GLN  3HG  not found in molecular structure
 %READC-ERR: atom      46   GLN  QG   not found in molecular structure
 %READC-ERR: atom      46   GLN  1HE2 not found in molecular structure
 %READC-ERR: atom      46   GLN  2HE2 not found in molecular structure
 %READC-ERR: atom      46   GLN  QE2  not found in molecular structure
 %READC-ERR: atom      47   LEU  2HB  not found in molecular structure
 %READC-ERR: atom      47   LEU  3HB  not found in molecular structure
 %READC-ERR: atom      47   LEU  QB   not found in molecular structure
 %READC-ERR: atom      47   LEU  QD1  not found in molecular structure
 %READC-ERR: atom      47   LEU  QD2  not found in molecular structure
 %READC-ERR: atom      47   LEU  1HD1 not found in molecular structure
 %READC-ERR: atom      47   LEU  2HD1 not found in molecular structure
 %READC-ERR: atom      47   LEU  3HD1 not found in molecular structure
 %READC-ERR: atom      47   LEU  1HD2 not found in molecular structure
 %READC-ERR: atom      47   LEU  2HD2 not found in molecular structure
 %READC-ERR: atom      47   LEU  3HD2 not found in molecular structure
 %READC-ERR: atom      47   LEU  QQD  not found in molecular structure
 %READC-ERR: atom      48   SER  2HB  not found in molecular structure
 %READC-ERR: atom      48   SER  3HB  not found in molecular structure
 %READC-ERR: atom      48   SER  QB   not found in molecular structure
 %READC-ERR: atom      49   VAL  QG1  not found in molecular structure
 %READC-ERR: atom      49   VAL  QG2  not found in molecular structure
 %READC-ERR: atom      49   VAL  1HG1 not found in molecular structure
 %READC-ERR: atom      49   VAL  2HG1 not found in molecular structure
 %READC-ERR: atom      49   VAL  3HG1 not found in molecular structure
 %READC-ERR: atom      49   VAL  1HG2 not found in molecular structure
 %READC-ERR: atom      49   VAL  2HG2 not found in molecular structure
 %READC-ERR: atom      49   VAL  3HG2 not found in molecular structure
 %READC-ERR: atom      49   VAL  QQG  not found in molecular structure
 %READC-ERR: atom      50   GLU  2HB  not found in molecular structure
 %READC-ERR: atom      50   GLU  3HB  not found in molecular structure
 %READC-ERR: atom      50   GLU  QB   not found in molecular structure
 %READC-ERR: atom      50   GLU  2HG  not found in molecular structure
 %READC-ERR: atom      50   GLU  3HG  not found in molecular structure
 %READC-ERR: atom      50   GLU  QG   not found in molecular structure
 %READC-ERR: atom      51   PRO  2HB  not found in molecular structure
 %READC-ERR: atom      51   PRO  3HB  not found in molecular structure
 %READC-ERR: atom      51   PRO  QB   not found in molecular structure
 %READC-ERR: atom      51   PRO  2HG  not found in molecular structure
 %READC-ERR: atom      51   PRO  3HG  not found in molecular structure
 %READC-ERR: atom      51   PRO  QG   not found in molecular structure
 %READC-ERR: atom      51   PRO  2HD  not found in molecular structure
 %READC-ERR: atom      51   PRO  3HD  not found in molecular structure
 %READC-ERR: atom      51   PRO  QD   not found in molecular structure
 %READC-ERR: atom      52   TYR  2HB  not found in molecular structure
 %READC-ERR: atom      52   TYR  3HB  not found in molecular structure
 %READC-ERR: atom      52   TYR  QB   not found in molecular structure
 %READC-ERR: atom      52   TYR  QD   not found in molecular structure
 %READC-ERR: atom      52   TYR  QE   not found in molecular structure
 %READC-ERR: atom      52   TYR  QR   not found in molecular structure
 %READC-ERR: atom      53   SER  2HB  not found in molecular structure
 %READC-ERR: atom      53   SER  3HB  not found in molecular structure
 %READC-ERR: atom      53   SER  QB   not found in molecular structure
 %READC-ERR: atom      54   GLN  2HB  not found in molecular structure
 %READC-ERR: atom      54   GLN  3HB  not found in molecular structure
 %READC-ERR: atom      54   GLN  QB   not found in molecular structure
 %READC-ERR: atom      54   GLN  2HG  not found in molecular structure
 %READC-ERR: atom      54   GLN  3HG  not found in molecular structure
 %READC-ERR: atom      54   GLN  QG   not found in molecular structure
 %READC-ERR: atom      54   GLN  1HE2 not found in molecular structure
 %READC-ERR: atom      54   GLN  2HE2 not found in molecular structure
 %READC-ERR: atom      54   GLN  QE2  not found in molecular structure
 %READC-ERR: atom      55   GLU  2HB  not found in molecular structure
 %READC-ERR: atom      55   GLU  3HB  not found in molecular structure
 %READC-ERR: atom      55   GLU  QB   not found in molecular structure
 %READC-ERR: atom      55   GLU  2HG  not found in molecular structure
 %READC-ERR: atom      55   GLU  3HG  not found in molecular structure
 %READC-ERR: atom      55   GLU  QG   not found in molecular structure
 %READC-ERR: atom      56   GLU  2HB  not found in molecular structure
 %READC-ERR: atom      56   GLU  3HB  not found in molecular structure
 %READC-ERR: atom      56   GLU  QB   not found in molecular structure
 %READC-ERR: atom      56   GLU  2HG  not found in molecular structure
 %READC-ERR: atom      56   GLU  3HG  not found in molecular structure
 %READC-ERR: atom      56   GLU  QG   not found in molecular structure
 %READC-ERR: atom      57   ALA  QB   not found in molecular structure
 %READC-ERR: atom      57   ALA  1HB  not found in molecular structure
 %READC-ERR: atom      57   ALA  2HB  not found in molecular structure
 %READC-ERR: atom      57   ALA  3HB  not found in molecular structure
 %READC-ERR: atom      58   GLU  2HB  not found in molecular structure
 %READC-ERR: atom      58   GLU  3HB  not found in molecular structure
 %READC-ERR: atom      58   GLU  QB   not found in molecular structure
 %READC-ERR: atom      58   GLU  2HG  not found in molecular structure
 %READC-ERR: atom      58   GLU  3HG  not found in molecular structure
 %READC-ERR: atom      58   GLU  QG   not found in molecular structure
 %READC-ERR: atom      59   ARG  2HB  not found in molecular structure
 %READC-ERR: atom      59   ARG  3HB  not found in molecular structure
 %READC-ERR: atom      59   ARG  QB   not found in molecular structure
 %READC-ERR: atom      59   ARG  2HG  not found in molecular structure
 %READC-ERR: atom      59   ARG  3HG  not found in molecular structure
 %READC-ERR: atom      59   ARG  QG   not found in molecular structure
 %READC-ERR: atom      59   ARG  2HD  not found in molecular structure
 %READC-ERR: atom      59   ARG  3HD  not found in molecular structure
 %READC-ERR: atom      59   ARG  QD   not found in molecular structure
 %READC-ERR: atom      59   ARG  1HH1 not found in molecular structure
 %READC-ERR: atom      59   ARG  2HH1 not found in molecular structure
 %READC-ERR: atom      59   ARG  QH1  not found in molecular structure
 %READC-ERR: atom      59   ARG  1HH2 not found in molecular structure
 %READC-ERR: atom      59   ARG  2HH2 not found in molecular structure
 %READC-ERR: atom      59   ARG  QH2  not found in molecular structure
 %READC-ERR: atom      60   ALA  QB   not found in molecular structure
 %READC-ERR: atom      60   ALA  1HB  not found in molecular structure
 %READC-ERR: atom      60   ALA  2HB  not found in molecular structure
 %READC-ERR: atom      60   ALA  3HB  not found in molecular structure
 %READC-ERR: atom      61   ALA  QB   not found in molecular structure
 %READC-ERR: atom      61   ALA  1HB  not found in molecular structure
 %READC-ERR: atom      61   ALA  2HB  not found in molecular structure
 %READC-ERR: atom      61   ALA  3HB  not found in molecular structure
 %READC-ERR: atom      62   GLY  1HA  not found in molecular structure
 %READC-ERR: atom      62   GLY  2HA  not found in molecular structure
 %READC-ERR: atom      62   GLY  QA   not found in molecular structure
 %READC-ERR: atom      63   MET  2HB  not found in molecular structure
 %READC-ERR: atom      63   MET  3HB  not found in molecular structure
 %READC-ERR: atom      63   MET  QB   not found in molecular structure
 %READC-ERR: atom      63   MET  2HG  not found in molecular structure
 %READC-ERR: atom      63   MET  3HG  not found in molecular structure
 %READC-ERR: atom      63   MET  QG   not found in molecular structure
 %READC-ERR: atom      63   MET  QE   not found in molecular structure
 %READC-ERR: atom      63   MET  1HE  not found in molecular structure
 %READC-ERR: atom      63   MET  2HE  not found in molecular structure
 %READC-ERR: atom      63   MET  3HE  not found in molecular structure
 %READC-ERR: atom      64   GLY  1HA  not found in molecular structure
 %READC-ERR: atom      64   GLY  2HA  not found in molecular structure
 %READC-ERR: atom      64   GLY  QA   not found in molecular structure
 %READC-ERR: atom      65   SER  2HB  not found in molecular structure
 %READC-ERR: atom      65   SER  3HB  not found in molecular structure
 %READC-ERR: atom      65   SER  QB   not found in molecular structure
 %READC-ERR: atom      66   TYR  2HB  not found in molecular structure
 %READC-ERR: atom      66   TYR  3HB  not found in molecular structure
 %READC-ERR: atom      66   TYR  QB   not found in molecular structure
 %READC-ERR: atom      66   TYR  QD   not found in molecular structure
 %READC-ERR: atom      66   TYR  QE   not found in molecular structure
 %READC-ERR: atom      66   TYR  QR   not found in molecular structure
 %READC-ERR: atom      67   VAL  QG1  not found in molecular structure
 %READC-ERR: atom      67   VAL  QG2  not found in molecular structure
 %READC-ERR: atom      67   VAL  1HG1 not found in molecular structure
 %READC-ERR: atom      67   VAL  2HG1 not found in molecular structure
 %READC-ERR: atom      67   VAL  3HG1 not found in molecular structure
 %READC-ERR: atom      67   VAL  1HG2 not found in molecular structure
 %READC-ERR: atom      67   VAL  2HG2 not found in molecular structure
 %READC-ERR: atom      67   VAL  3HG2 not found in molecular structure
 %READC-ERR: atom      67   VAL  QQG  not found in molecular structure
 %READC-ERR: atom      67   VAL  O    not found in molecular structure
 COOR>END 
 CNSsolve>parameter @TOPPAR:parallhdg5.3.pro end 
 PARRDR>! JFD adds FES complex parameters from Milo Westler's calculations 
 PARRDR>! and standard topology. 
 PARRDR> 
 PARRDR>remark file protein-allhdg-ucl.param version UCL date 07-JUL-01 
 PARRDR>remark for file protein-allhdg-ucl.top version UCL date 14-MAR-00 
 PARRDR>remark for file protein-allhdg-dih-ucl.top version UCL date 07-JUL-01 
 PARRDR>remark Geometric energy function parameters for distance geometry and 
 PARRDR>remark simulated annealing. 
 PARRDR>remark Original author: Michael Nilges, EMBL Heidelberg 
 PARRDR>remark Modifications: Mark A. Williams, UCL London 
 PARRDR> 
 PARRDR>set echo off message off end 
 SHOW: sum over selected elements =       2.000000
 CNSsolve> 
 CNSsolve> if ( $log_level = verbose ) then 
 CNSsolve>   set message=normal echo=on end 
 CNSsolve> else 
 CNSsolve>   set message=off echo=off end 
 CNSsolve> end if 
 CNSsolve> 
 CNSsolve> 
 CNSsolve> identity (store1) (none) 
 SELRPN:      0 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve> identity (store1) (&atom_build) 
 SELRPN:    326 atoms have been selected out of   1042
 CNSsolve> identity (store1) (store1 or hydrogen) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve> show sum(1) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 SHOW: sum over selected elements =     512.000000
 CNSsolve> evaluate ($tobuild=$result) 
 EVALUATE: symbol $TOBUILD set to    512.000     (real)
 CNSsolve> 
 CNSsolve> !evaluate ($tobuild=0) 
 CNSsolve> 
 CNSsolve> if ( $tobuild > 0 ) then 
 NEXTCD: condition evaluated as true
 CNSsolve> 
 CNSsolve>   fix selection=(not(store1)) end 
 SELRPN:    530 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>   show sum(1) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 SHOW: sum over selected elements =     512.000000
 CNSsolve>   evaluate ($moving=$result) 
 EVALUATE: symbol $MOVING set to    512.000     (real)
 CNSsolve> 
 CNSsolve>   if ( $moving > 0 ) then 
 NEXTCD: condition evaluated as true
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 SELRPN:     67 atoms have been selected out of   1042
 FOR ID LOOP: symbol ID set to    1.00000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.028222
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    3.02822     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.256556
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.256556     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.682333
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.68233     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    15.0000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.728500
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to   0.728500     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.082625
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -2.08263     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.852750
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.85275     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    29.0000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.318200
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    3.31820     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.356100
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -4.35610     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -6.726100
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -6.72610     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    43.0000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.030000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    6.03000     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.125143
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -4.12514     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.798714
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.79871     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    53.0000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.258364
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    8.25836     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.901909
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.90191     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.986909
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -2.98691     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    68.0000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.009333
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    10.0093     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.002056
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.00206     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.245056
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.24506     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    88.0000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.167000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    10.1670     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.423000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.42300     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.259800
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    2.25980     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    100.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.332375
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    10.3324     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.562875
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   0.562875     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.558625
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    2.55863     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    114.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.801400
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    10.8014     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.028900
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   0.289000E-01 (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.760900
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    6.76090     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    126.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.335000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.3350     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.181273
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -2.18127     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       5.778273
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    5.77827     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    145.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.358125
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.3581     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.538500
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.538500     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.436500
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    3.43650     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    159.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.139600
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.1396     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.692200
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -1.69220     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.093600
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to  -0.936000E-01 (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    166.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.888000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.8880     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.667000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.66700     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.393000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.393000     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    173.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.660200
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    16.6602     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.844800
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -5.84480     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.565200
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    1.56520     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    180.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.450818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    16.4508     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.567364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.56736     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.689364
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.68936     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    199.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      19.559267
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    19.5593     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.341400
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -5.34140     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.137133
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.13713     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    217.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.445929
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    21.4459     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.733786
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.73379     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.752429
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    1.75243     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    241.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      27.121500
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    27.1215     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.504250
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.50425     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.541125
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    1.54113     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    251.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      26.436636
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    26.4366     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -11.261273
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -11.2613     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.240818
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    3.24082     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    270.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      30.873714
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    30.8737     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =     -10.415429
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -10.4154     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.320429
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    3.32043     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    280.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      30.484750
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    30.4848     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.066250
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.06625     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.701125
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    4.70113     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    290.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      27.379143
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    27.3791     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.759857
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.75986     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.509000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    6.50900     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    300.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      27.676357
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    27.6764     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.667357
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.66736     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       5.597643
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    5.59764     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    324.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.771053
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    20.7711     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.279842
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -4.27984     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.965684
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    4.96568     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    345.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      24.633667
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    24.6337     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.743389
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -1.74339     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.370444
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.370444     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    365.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.495455
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    20.4955     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.073818
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    2.07382     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.462545
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.46255     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    384.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.043100
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    20.0431     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.255800
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.255800     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.569100
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -4.56910     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    396.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      22.296889
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    22.2969     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.707889
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.70789     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -6.468778
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -6.46878     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    407.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      23.740273
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    23.7403     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.547182
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.547182     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -8.533000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -8.53300     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    421.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      25.441100
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    25.4411     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.065800
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    1.06580     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.809500
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -4.80950     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    435.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      25.993545
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    25.9935     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.899364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.89936     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.394273
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.39427     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    454.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      27.376636
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    27.3766     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.295273
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -5.29527     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.485000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -7.48500     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    476.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      29.715273
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    29.7153     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.516364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.516364     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -6.671364
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -6.67136     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    490.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      30.980600
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    30.9806     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.845733
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -2.84573     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.424533
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.42453     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    507.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      30.454944
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    30.4549     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      -6.249500
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -6.24950     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.180722
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -4.18072     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    527.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      34.178143
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    34.1781     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.245786
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -1.24579     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.902429
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -7.90243     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    551.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      36.469889
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    36.4699     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.407778
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.40778     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.011111
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.01111     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    562.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      40.680818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    40.6808     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.463818
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -5.46382     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.974636
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -5.97464     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    584.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      41.171400
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    41.1714     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -6.187700
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -6.18770     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.643600
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to  -0.643600     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      4 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    596.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      35.381733
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    35.3817     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.420200
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.42020     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.043067
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to  -0.430667E-01 (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    613.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      36.193727
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    36.1937     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -9.355727
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -9.35573     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.733273
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -4.73327     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    635.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      41.440273
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    41.4403     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -11.187273
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -11.1873     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.467455
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -2.46745     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    657.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      38.338714
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    38.3387     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =     -11.354643
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -11.3546     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.151571
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    3.15157     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    681.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      35.316182
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    35.3162     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -12.875091
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -12.8751     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.494000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to  -0.494000     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    700.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      39.112364
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    39.1124     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -15.371273
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -15.3713     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.768091
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.76809     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    722.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      40.481909
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    40.4819     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -15.633364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -15.6334     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.272818
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    1.27282     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    739.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      36.401455
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    36.4015     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -16.533636
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -16.5336     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.778818
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    2.77882     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    758.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      36.366111
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    36.3661     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =     -19.877222
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -19.8772     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.339000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to  -0.339000     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    769.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      32.896200
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    32.8962     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =     -20.076000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -20.0760     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.834200
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -2.83420     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    785.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      31.200818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    31.2008     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -21.833909
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -21.8339     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.157000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    1.15700     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    800.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      28.726125
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    28.7261     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =     -24.457375
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -24.4574     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.156875
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.156875     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      7 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    814.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      25.602211
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    25.6022     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =     -19.752579
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -19.7526     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.491316
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.491316     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    835.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.438000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    21.4380     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =     -23.228111
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -23.2281     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.134222
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    1.13422     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    846.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.838727
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    16.8387     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -22.043909
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -22.0439     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.616455
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.616455     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      8 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    863.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      19.765000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    19.7650     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -18.973455
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -18.9735     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.739273
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    2.73927     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    878.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.294818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    20.2948     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -16.134818
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -16.1348     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.624364
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.62436     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    893.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.715714
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    16.7157     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =     -17.832714
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -17.8327     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.311714
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.31171     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    903.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.630455
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    12.6305     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -17.614636
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -17.6146     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.781727
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.78173     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      6 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    918.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.289143
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    13.2891     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =     -22.168214
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -22.1682     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      -6.935429
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -6.93543     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     13 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    942.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.689286
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    8.68929     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =     -21.132000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -21.1320     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.875429
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -7.87543     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    952.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =       7.187857
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    7.18786     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =     -18.242429
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -18.2424     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -9.636857
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -9.63686     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    962.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.486200
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    4.48620     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =     -19.646200
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -19.6462     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =     -10.164800
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -10.1648     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    969.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.683100
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    3.68310     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =     -17.957400
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -17.9574     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =     -13.539800
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -13.5398     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    986.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.170400
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to  -0.170400     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =     -20.412400
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -20.4124     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =     -13.953000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -13.9530     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      3 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    993.000     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.210000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to   -3.21000     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =     -19.682667
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -19.6827     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =     -14.771444
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -14.7714     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      5 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    1004.00     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.401789
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to   -7.40179     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =     -19.362526
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -19.3625     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =     -18.939526
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -18.9395     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:      9 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 FOR ID LOOP: symbol ID set to    1025.00     (real)
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.694333
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to   -5.69433     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =     -21.670444
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -21.6704     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =     -21.123333
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -21.1233     (real)
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 SELRPN:     11 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve>     for $id in id (tag and byres(store1)) loop avco 
 CNSsolve> 
 CNSsolve>       show ave(x) (byres(id $id) and known) 
 CNSsolve>       evaluate ($ave_x=$result) 
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 CNSsolve>       evaluate ($ave_y=$result) 
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 CNSsolve>       evaluate ($ave_z=$result) 
 CNSsolve> 
 CNSsolve>       do (x=$ave_x) (byres(id $id) and store1) 
 CNSsolve>       do (y=$ave_y) (byres(id $id) and store1) 
 CNSsolve>       do (z=$ave_z) (byres(id $id) and store1) 
 CNSsolve> 
 CNSsolve>     end loop avco 
 CNSsolve> 
 CNSsolve>     do (x=x+random(2.0)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (y=y+random(2.0)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (z=z+random(2.0)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     {- start parameter for the side chain building -} 
 CNSsolve>     parameter 
 PARRDR>       nbonds 
 NBDSET>         rcon=20. nbxmod=-2 repel=0.9  wmin=0.1 tolerance=1. 
 NBDSET>         rexp=2 irexp=2 inhibit=0.25 
 NBDSET>       end 
 PARRDR>     end 
 CNSsolve> 
 CNSsolve>     {- Friction coefficient, in 1/ps. -} 
 CNSsolve>     do (fbeta=100) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     evaluate ($bath=300.0) 
 EVALUATE: symbol $BATH set to    300.000     (real)
 CNSsolve>     evaluate ($nstep=500) 
 EVALUATE: symbol $NSTEP set to    500.000     (real)
 CNSsolve>     evaluate ($timestep=0.0005) 
 EVALUATE: symbol $TIMESTEP set to   0.500000E-03 (real)
 CNSsolve> 
 CNSsolve>     do (refy=mass) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     do (mass=20) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     igroup interaction 
 SELRPN>       (store1) (store1 or known) 
 SELRPN:    512 atoms have been selected out of   1042
 SELRPN:   1042 atoms have been selected out of   1042
 IGROup>     end 
 CNSsolve> 
 CNSsolve>     {- turn on initial energy terms -} 
 CNSsolve>     flags exclude * include bond angle vdw end 
 CNSsolve> 
 CNSsolve>     minimize powell nstep=50  nprint=10 end 
 POWELL: number of degrees of freedom=  1536
 NBONDS: generating intra-molecular exclusion list with mode=-2
 MAKINB: mode  -2 found    512 exclusions and      0 interactions(1-4)
 %atoms "    -10  -LEU -HD11" and "    -10  -LEU -HD21" only  0.07 A apart
 %atoms "    -19  -LEU -HB2 " and "    -19  -LEU -HD11" only  0.05 A apart
 %atoms "    -31  -LEU -HD11" and "    -31  -LEU -HD22" only  0.09 A apart
 %atoms "    -33  -THR -HB  " and "    -33  -THR -HG23" only  0.09 A apart
 %atoms "    -43  -ARG -CG  " and "    -43  -ARG -HD1 " only  0.04 A apart
 %atoms "    -45  -LYS -HN  " and "    -45  -LYS -HE2 " only  0.10 A apart
 %atoms "    -49  -VAL -HG11" and "    -49  -VAL -HG22" only  0.04 A apart
 %atoms "    -49  -VAL -HG12" and "    -49  -VAL -HG13" only  0.02 A apart
 %atoms "    -53  -SER -HN  " and "    -53  -SER -HB1 " only  0.09 A apart
 %atoms "    -67  -VAL -HN  " and "    -67  -VAL -OT2 " only  0.06 A apart
 NBONDS: found    40044 intra-atom interactions
 NBONDS: found       10 nonbonded violations
 NBONDS: found    37333 intra-atom interactions
 NBONDS: found    34904 intra-atom interactions
 NBONDS: found    32938 intra-atom interactions
 NBONDS: found    32641 intra-atom interactions
 --------------- cycle=    10 ------ stepsize=   -0.0001 -----------------------
 | Etotal =286816.708 grad(E)=649.080    E(BOND)=65830.732  E(ANGL)=131017.524 |
 | E(VDW )=89968.452                                                           |
 -------------------------------------------------------------------------------
 NBONDS: found    32997 intra-atom interactions
 NBONDS: found    33374 intra-atom interactions
 NBONDS: found    33216 intra-atom interactions
 --------------- cycle=    20 ------ stepsize=    0.0000 -----------------------
 | Etotal =93472.774  grad(E)=345.933    E(BOND)=16894.182  E(ANGL)=32411.077  |
 | E(VDW )=44167.515                                                           |
 -------------------------------------------------------------------------------
 NBONDS: found    33296 intra-atom interactions
 NBONDS: found    33274 intra-atom interactions
 NBONDS: found    33242 intra-atom interactions
 --------------- cycle=    30 ------ stepsize=   -0.0002 -----------------------
 | Etotal =78211.281  grad(E)=309.173    E(BOND)=12331.056  E(ANGL)=23607.909  |
 | E(VDW )=42272.316                                                           |
 -------------------------------------------------------------------------------
 NBONDS: found    33292 intra-atom interactions
 --------------- cycle=    40 ------ stepsize=    0.0003 -----------------------
 | Etotal =76903.654  grad(E)=307.444    E(BOND)=12258.960  E(ANGL)=23017.352  |
 | E(VDW )=41627.342                                                           |
 -------------------------------------------------------------------------------
 --------------- cycle=    50 ------ stepsize=    0.0008 -----------------------
 | Etotal =76820.759  grad(E)=307.208    E(BOND)=12262.763  E(ANGL)=23013.367  |
 | E(VDW )=41544.630                                                           |
 -------------------------------------------------------------------------------
 POWELL: STEP number limit. Normal termination
 POWELL: Current coordinates set to last minimum
 CNSsolve> 
 CNSsolve>     do (vx=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vy=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vz=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     flags exclude vdw include impr end 
 CNSsolve> 
 CNSsolve>     dynamics cartesian 
 Cartesian Dynamics>       nstep=50 
 Cartesian Dynamics>       timestep=$timestep 
 Cartesian Dynamics>       tcoupling=true temperature=$bath 
 DCART: temperature coupling (TCOUpling) enabled
 Cartesian Dynamics>       nprint=$nstep 
 Cartesian Dynamics>       cmremove=false 
 Cartesian Dynamics>     end 
 -------------------------- Cartesian dynamics start ---------------------------
 | E(kin)+E(total)=312169.951      E(kin)=475.307       temperature=311.439    |
 | Etotal =311694.644 grad(E)=769.133    E(BOND)=12262.763  E(ANGL)=23013.367  |
 | E(IMPR)=276418.515                                                          |
 -------------------------------------------------------------------------------
 -------------------- final step=    50 at      0.02500 ps ---------------------
 | E(kin)+E(total)=194354.643      E(kin)=36310.905     temperature=23792.290  |
 | Etotal =158043.738 grad(E)=422.904    E(BOND)=22001.572  E(ANGL)=62064.038  |
 | E(IMPR)=73978.128                                                           |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     22.71972     -9.66262     -2.74417
         velocity [A/ps]       :      0.16514     -0.49854     -0.57535
         ang. mom. [amu A/ps]  :  97087.25601-153034.49689  14437.32836
         kin. ener. [Kcal/mol] :      7.42595
 CNSsolve> 
 CNSsolve>     flags include vdw end 
 CNSsolve> 
 CNSsolve>     minimize powell nstep=50 nprint=10 end 
 POWELL: number of degrees of freedom=  1536
 NBONDS: found    33125 intra-atom interactions
 NBONDS: found    32691 intra-atom interactions
 NBONDS: found    33095 intra-atom interactions
 NBONDS: found    32934 intra-atom interactions
 NBONDS: found    32762 intra-atom interactions
 NBONDS: found    32909 intra-atom interactions
 --------------- cycle=    10 ------ stepsize=    0.0002 -----------------------
 | Etotal =144954.223 grad(E)=408.519    E(BOND)=27488.245  E(ANGL)=44318.054  |
 | E(IMPR)=48902.681  E(VDW )=24245.243                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33077 intra-atom interactions
 NBONDS: found    33163 intra-atom interactions
 NBONDS: found    33123 intra-atom interactions
 NBONDS: found    33105 intra-atom interactions
 --------------- cycle=    20 ------ stepsize=    0.0000 -----------------------
 | Etotal =78371.856  grad(E)=269.600    E(BOND)=11218.893  E(ANGL)=11405.594  |
 | E(IMPR)=31460.443  E(VDW )=24286.925                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33147 intra-atom interactions
 NBONDS: found    33139 intra-atom interactions
 --------------- cycle=    30 ------ stepsize=    0.0003 -----------------------
 | Etotal =73111.954  grad(E)=272.096    E(BOND)=11171.518  E(ANGL)=10835.177  |
 | E(IMPR)=26849.737  E(VDW )=24255.523                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33169 intra-atom interactions
 NBONDS: found    33165 intra-atom interactions
 --------------- cycle=    40 ------ stepsize=    0.0005 -----------------------
 | Etotal =68432.014  grad(E)=272.695    E(BOND)=11207.349  E(ANGL)=9571.262   |
 | E(IMPR)=23480.961  E(VDW )=24172.441                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33168 intra-atom interactions
 NBONDS: found    33179 intra-atom interactions
 --------------- cycle=    50 ------ stepsize=    0.0001 -----------------------
 | Etotal =64965.779  grad(E)=274.970    E(BOND)=11755.039  E(ANGL)=8975.634   |
 | E(IMPR)=20518.557  E(VDW )=23716.549                                        |
 -------------------------------------------------------------------------------
 POWELL: STEP number limit. Normal termination
 POWELL: Current coordinates set to last minimum
 CNSsolve> 
 CNSsolve>     do (vx=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vy=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vz=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     dynamics cartesian 
 Cartesian Dynamics>       nstep=50 
 Cartesian Dynamics>       timestep=$timestep 
 Cartesian Dynamics>       tcoupling=true temperature=$bath 
 DCART: temperature coupling (TCOUpling) enabled
 Cartesian Dynamics>       nprint=$nstep 
 Cartesian Dynamics>       cmremove=false 
 Cartesian Dynamics>     end 
 -------------------------- Cartesian dynamics start ---------------------------
 | E(kin)+E(total)=65445.333       E(kin)=479.554       temperature=314.222    |
 | Etotal =64965.779  grad(E)=274.970    E(BOND)=11755.039  E(ANGL)=8975.634   |
 | E(IMPR)=20518.557  E(VDW )=23716.549                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33154 intra-atom interactions
 NBONDS: found    33175 intra-atom interactions
 -------------------- final step=    50 at      0.02500 ps ---------------------
 | E(kin)+E(total)=63214.713       E(kin)=993.546       temperature=651.009    |
 | Etotal =62221.167  grad(E)=271.345    E(BOND)=11416.348  E(ANGL)=7246.051   |
 | E(IMPR)=20165.114  E(VDW )=23393.655                                        |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     22.74617     -9.66387     -2.74094
         velocity [A/ps]       :      0.16274     -0.22274     -0.26785
         ang. mom. [amu A/ps]  : -32667.23332  -5559.68484 -14774.25679
         kin. ener. [Kcal/mol] :      1.80914
 CNSsolve> 
 CNSsolve>     parameter 
 PARRDR>       nbonds 
 NBDSET>         rcon=2. nbxmod=-3 repel=0.75 
 NBDSET>       end 
 PARRDR>     end 
 CNSsolve> 
 CNSsolve>     minimize powell nstep=100 nprint=25 end 
 POWELL: number of degrees of freedom=  1536
 NBONDS: generating intra-molecular exclusion list with mode=-3
 MAKINB: mode  -3 found   1682 exclusions and      0 interactions(1-4)
 NBONDS: found    32034 intra-atom interactions
 NBONDS: found    32363 intra-atom interactions
 NBONDS: found    32373 intra-atom interactions
 --------------- cycle=    25 ------ stepsize=    0.0000 -----------------------
 | Etotal =24079.694  grad(E)=107.652    E(BOND)=766.832    E(ANGL)=8182.811   |
 | E(IMPR)=15125.964  E(VDW )=4.088                                            |
 -------------------------------------------------------------------------------
 --------------- cycle=    50 ------ stepsize=    0.0000 -----------------------
 | Etotal =23931.715  grad(E)=280.156    E(BOND)=1140.957   E(ANGL)=5437.737   |
 | E(IMPR)=17350.947  E(VDW )=2.075                                            |
 -------------------------------------------------------------------------------
 --------------- cycle=    75 ------ stepsize=    0.0000 -----------------------
 | Etotal =23931.651  grad(E)=280.180    E(BOND)=1140.895   E(ANGL)=5437.861   |
 | E(IMPR)=17350.821  E(VDW )=2.075                                            |
 -------------------------------------------------------------------------------
 POWELL: Line search terminated
 POWELL: Current coordinates set to last minimum
 CNSsolve> 
 CNSsolve>     do (vx=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vy=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vz=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     dynamics cartesian 
 Cartesian Dynamics>       nstep=$nstep 
 Cartesian Dynamics>       timestep=$timestep 
 Cartesian Dynamics>       tcoupling=true temperature=$bath 
 DCART: temperature coupling (TCOUpling) enabled
 Cartesian Dynamics>       nprint=$nstep 
 Cartesian Dynamics>       cmremove=false 
 Cartesian Dynamics>     end 
 -------------------------- Cartesian dynamics start ---------------------------
 | E(kin)+E(total)=22000.422       E(kin)=469.612       temperature=307.708    |
 | Etotal =21530.810  grad(E)=66.141     E(BOND)=1140.895   E(ANGL)=5437.861   |
 | E(IMPR)=14949.979  E(VDW )=2.075                                            |
 -------------------------------------------------------------------------------
 NBONDS: found    32383 intra-atom interactions
 NBONDS: found    32425 intra-atom interactions
 NBONDS: found    32383 intra-atom interactions
 NBONDS: found    32406 intra-atom interactions
 NBONDS: found    32400 intra-atom interactions
 NBONDS: found    32410 intra-atom interactions
 NBONDS: found    32394 intra-atom interactions
 NBONDS: found    32355 intra-atom interactions
 NBONDS: found    32321 intra-atom interactions
 NBONDS: found    32375 intra-atom interactions
 NBONDS: found    32349 intra-atom interactions
 NBONDS: found    32341 intra-atom interactions
 NBONDS: found    32352 intra-atom interactions
 NBONDS: found    32358 intra-atom interactions
 NBONDS: found    32340 intra-atom interactions
 NBONDS: found    32331 intra-atom interactions
 NBONDS: found    32328 intra-atom interactions
 NBONDS: found    32336 intra-atom interactions
 NBONDS: found    32342 intra-atom interactions
 NBONDS: found    32345 intra-atom interactions
 NBONDS: found    32345 intra-atom interactions
 NBONDS: found    32325 intra-atom interactions
 NBONDS: found    32330 intra-atom interactions
 NBONDS: found    32331 intra-atom interactions
 NBONDS: found    32348 intra-atom interactions
 NBONDS: found    32359 intra-atom interactions
 NBONDS: found    32378 intra-atom interactions
 NBONDS: found    32356 intra-atom interactions
 NBONDS: found    32330 intra-atom interactions
 NBONDS: found    32315 intra-atom interactions
 NBONDS: found    32339 intra-atom interactions
 NBONDS: found    32363 intra-atom interactions
 NBONDS: found    32381 intra-atom interactions
 NBONDS: found    32363 intra-atom interactions
 NBONDS: found    32344 intra-atom interactions
 NBONDS: found    32354 intra-atom interactions
 NBONDS: found    32363 intra-atom interactions
 NBONDS: found    32344 intra-atom interactions
 NBONDS: found    32332 intra-atom interactions
 NBONDS: found    32328 intra-atom interactions
 NBONDS: found    32337 intra-atom interactions
 -------------------- final step=   500 at      0.25000 ps ---------------------
 | E(kin)+E(total)=8395.871        E(kin)=2650.710      temperature=1736.846   |
 | Etotal =5745.161   grad(E)=131.938    E(BOND)=679.143    E(ANGL)=2046.539   |
 | E(IMPR)=3018.417   E(VDW )=1.062                                            |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     22.75184     -9.66779     -2.73673
         velocity [A/ps]       :     -0.35649      0.49321     -0.07477
         ang. mom. [amu A/ps]  : -39346.24729  14461.20581  35047.57755
         kin. ener. [Kcal/mol] :      4.60034
 CNSsolve> 
 CNSsolve>     {- turn on all energy terms -} 
 CNSsolve>     flags include dihe ? end 
 EFLAGS: the following energy flags are set
 EFLAGS: BOND ANGL DIHE IMPR VDW 
 CNSsolve> 
 CNSsolve>     {- set repel to ~vdw radii -} 
 CNSsolve>     parameter 
 PARRDR>       nbonds 
 NBDSET>         repel=0.89 
 NBDSET>       end 
 PARRDR>     end 
 CNSsolve> 
 CNSsolve>     minimize powell nstep=500 nprint=50 end 
 POWELL: number of degrees of freedom=  1536
 NBONDS: generating intra-molecular exclusion list with mode=-3
 MAKINB: mode  -3 found   1682 exclusions and      0 interactions(1-4)
 NBONDS: found    32344 intra-atom interactions
 NBONDS: found    32338 intra-atom interactions
 --------------- cycle=    50 ------ stepsize=    0.0000 -----------------------
 | Etotal =4414.668   grad(E)=97.553     E(BOND)=118.157    E(ANGL)=2071.795   |
 | E(DIHE)=35.523     E(IMPR)=2145.186   E(VDW )=44.006                        |
 -------------------------------------------------------------------------------
 POWELL: Line search terminated
 POWELL: Current coordinates set to last minimum
 CNSsolve> 
 CNSsolve>     flags exclude * include bond angl impr dihe vdw end 
 CNSsolve> 
 CNSsolve>     {- return masses to something sensible -} 
 CNSsolve>     do (mass=refy) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     do (vx=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vy=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve>     do (vz=maxwell($bath)) (store1) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve>     dynamics cartesian 
 Cartesian Dynamics>       nstep=$nstep 
 Cartesian Dynamics>       timestep=$timestep 
 Cartesian Dynamics>       tcoupling=true temperature=$bath 
 DCART: temperature coupling (TCOUpling) enabled
 Cartesian Dynamics>       nprint=$nstep 
 Cartesian Dynamics>       cmremove=false 
 Cartesian Dynamics>     end 
 -------------------------- Cartesian dynamics start ---------------------------
 | E(kin)+E(total)=4857.893        E(kin)=443.225       temperature=290.418    |
 | Etotal =4414.668   grad(E)=97.553     E(BOND)=118.157    E(ANGL)=2071.795   |
 | E(DIHE)=35.523     E(IMPR)=2145.186   E(VDW )=44.006                        |
 -------------------------------------------------------------------------------
 NBONDS: found    32302 intra-atom interactions
 NBONDS: found    32271 intra-atom interactions
 NBONDS: found    32236 intra-atom interactions
 NBONDS: found    32256 intra-atom interactions
 NBONDS: found    32260 intra-atom interactions
 NBONDS: found    32280 intra-atom interactions
 NBONDS: found    32311 intra-atom interactions
 NBONDS: found    32325 intra-atom interactions
 NBONDS: found    32333 intra-atom interactions
 NBONDS: found    32347 intra-atom interactions
 NBONDS: found    32349 intra-atom interactions
 NBONDS: found    32339 intra-atom interactions
 NBONDS: found    32322 intra-atom interactions
 NBONDS: found    32320 intra-atom interactions
 NBONDS: found    32324 intra-atom interactions
 NBONDS: found    32315 intra-atom interactions
 NBONDS: found    32319 intra-atom interactions
 NBONDS: found    32297 intra-atom interactions
 NBONDS: found    32287 intra-atom interactions
 NBONDS: found    32282 intra-atom interactions
 NBONDS: found    32290 intra-atom interactions
 NBONDS: found    32311 intra-atom interactions
 NBONDS: found    32318 intra-atom interactions
 NBONDS: found    32335 intra-atom interactions
 NBONDS: found    32339 intra-atom interactions
 NBONDS: found    32312 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32294 intra-atom interactions
 NBONDS: found    32272 intra-atom interactions
 NBONDS: found    32278 intra-atom interactions
 NBONDS: found    32268 intra-atom interactions
 NBONDS: found    32286 intra-atom interactions
 NBONDS: found    32292 intra-atom interactions
 NBONDS: found    32311 intra-atom interactions
 NBONDS: found    32331 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32337 intra-atom interactions
 NBONDS: found    32340 intra-atom interactions
 NBONDS: found    32338 intra-atom interactions
 NBONDS: found    32328 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32314 intra-atom interactions
 NBONDS: found    32318 intra-atom interactions
 NBONDS: found    32316 intra-atom interactions
 NBONDS: found    32316 intra-atom interactions
 NBONDS: found    32294 intra-atom interactions
 NBONDS: found    32285 intra-atom interactions
 NBONDS: found    32305 intra-atom interactions
 NBONDS: found    32326 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32309 intra-atom interactions
 NBONDS: found    32294 intra-atom interactions
 NBONDS: found    32279 intra-atom interactions
 NBONDS: found    32277 intra-atom interactions
 NBONDS: found    32292 intra-atom interactions
 NBONDS: found    32308 intra-atom interactions
 NBONDS: found    32305 intra-atom interactions
 NBONDS: found    32302 intra-atom interactions
 NBONDS: found    32285 intra-atom interactions
 NBONDS: found    32323 intra-atom interactions
 NBONDS: found    32345 intra-atom interactions
 NBONDS: found    32332 intra-atom interactions
 NBONDS: found    32337 intra-atom interactions
 NBONDS: found    32340 intra-atom interactions
 NBONDS: found    32327 intra-atom interactions
 NBONDS: found    32333 intra-atom interactions
 NBONDS: found    32333 intra-atom interactions
 NBONDS: found    32332 intra-atom interactions
 NBONDS: found    32333 intra-atom interactions
 NBONDS: found    32333 intra-atom interactions
 NBONDS: found    32329 intra-atom interactions
 NBONDS: found    32340 intra-atom interactions
 NBONDS: found    32356 intra-atom interactions
 NBONDS: found    32390 intra-atom interactions
 NBONDS: found    32397 intra-atom interactions
 NBONDS: found    32384 intra-atom interactions
 NBONDS: found    32374 intra-atom interactions
 NBONDS: found    32355 intra-atom interactions
 NBONDS: found    32307 intra-atom interactions
 NBONDS: found    32286 intra-atom interactions
 NBONDS: found    32276 intra-atom interactions
 NBONDS: found    32273 intra-atom interactions
 NBONDS: found    32268 intra-atom interactions
 NBONDS: found    32283 intra-atom interactions
 NBONDS: found    32259 intra-atom interactions
 NBONDS: found    32256 intra-atom interactions
 NBONDS: found    32259 intra-atom interactions
 NBONDS: found    32270 intra-atom interactions
 NBONDS: found    32280 intra-atom interactions
 NBONDS: found    32292 intra-atom interactions
 NBONDS: found    32275 intra-atom interactions
 NBONDS: found    32268 intra-atom interactions
 NBONDS: found    32281 intra-atom interactions
 NBONDS: found    32306 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32293 intra-atom interactions
 NBONDS: found    32300 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32352 intra-atom interactions
 NBONDS: found    32355 intra-atom interactions
 NBONDS: found    32366 intra-atom interactions
 NBONDS: found    32355 intra-atom interactions
 NBONDS: found    32314 intra-atom interactions
 NBONDS: found    32312 intra-atom interactions
 NBONDS: found    32322 intra-atom interactions
 NBONDS: found    32335 intra-atom interactions
 NBONDS: found    32342 intra-atom interactions
 NBONDS: found    32320 intra-atom interactions
 NBONDS: found    32298 intra-atom interactions
 NBONDS: found    32282 intra-atom interactions
 NBONDS: found    32283 intra-atom interactions
 NBONDS: found    32290 intra-atom interactions
 NBONDS: found    32276 intra-atom interactions
 NBONDS: found    32269 intra-atom interactions
 NBONDS: found    32263 intra-atom interactions
 NBONDS: found    32250 intra-atom interactions
 NBONDS: found    32264 intra-atom interactions
 NBONDS: found    32278 intra-atom interactions
 NBONDS: found    32288 intra-atom interactions
 NBONDS: found    32286 intra-atom interactions
 NBONDS: found    32278 intra-atom interactions
 NBONDS: found    32300 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32308 intra-atom interactions
 NBONDS: found    32313 intra-atom interactions
 NBONDS: found    32307 intra-atom interactions
 NBONDS: found    32297 intra-atom interactions
 NBONDS: found    32285 intra-atom interactions
 NBONDS: found    32285 intra-atom interactions
 NBONDS: found    32284 intra-atom interactions
 NBONDS: found    32305 intra-atom interactions
 NBONDS: found    32304 intra-atom interactions
 NBONDS: found    32313 intra-atom interactions
 NBONDS: found    32310 intra-atom interactions
 NBONDS: found    32324 intra-atom interactions
 NBONDS: found    32328 intra-atom interactions
 NBONDS: found    32339 intra-atom interactions
 NBONDS: found    32349 intra-atom interactions
 NBONDS: found    32351 intra-atom interactions
 NBONDS: found    32340 intra-atom interactions
 NBONDS: found    32319 intra-atom interactions
 NBONDS: found    32292 intra-atom interactions
 NBONDS: found    32262 intra-atom interactions
 NBONDS: found    32267 intra-atom interactions
 NBONDS: found    32263 intra-atom interactions
 NBONDS: found    32263 intra-atom interactions
 NBONDS: found    32251 intra-atom interactions
 NBONDS: found    32282 intra-atom interactions
 NBONDS: found    32311 intra-atom interactions
 NBONDS: found    32325 intra-atom interactions
 NBONDS: found    32309 intra-atom interactions
 NBONDS: found    32287 intra-atom interactions
 NBONDS: found    32289 intra-atom interactions
 NBONDS: found    32278 intra-atom interactions
 NBONDS: found    32296 intra-atom interactions
 NBONDS: found    32318 intra-atom interactions
 NBONDS: found    32353 intra-atom interactions
 NBONDS: found    32381 intra-atom interactions
 NBONDS: found    32406 intra-atom interactions
 NBONDS: found    32405 intra-atom interactions
 NBONDS: found    32376 intra-atom interactions
 NBONDS: found    32354 intra-atom interactions
 NBONDS: found    32362 intra-atom interactions
 NBONDS: found    32369 intra-atom interactions
 NBONDS: found    32376 intra-atom interactions
 NBONDS: found    32381 intra-atom interactions
 NBONDS: found    32370 intra-atom interactions
 NBONDS: found    32363 intra-atom interactions
 NBONDS: found    32337 intra-atom interactions
 NBONDS: found    32307 intra-atom interactions
 NBONDS: found    32290 intra-atom interactions
 NBONDS: found    32276 intra-atom interactions
 NBONDS: found    32254 intra-atom interactions
 NBONDS: found    32236 intra-atom interactions
 NBONDS: found    32227 intra-atom interactions
 NBONDS: found    32232 intra-atom interactions
 NBONDS: found    32241 intra-atom interactions
 NBONDS: found    32248 intra-atom interactions
 NBONDS: found    32282 intra-atom interactions
 NBONDS: found    32306 intra-atom interactions
 NBONDS: found    32317 intra-atom interactions
 NBONDS: found    32317 intra-atom interactions
 NBONDS: found    32310 intra-atom interactions
 NBONDS: found    32294 intra-atom interactions
 NBONDS: found    32279 intra-atom interactions
 NBONDS: found    32282 intra-atom interactions
 NBONDS: found    32281 intra-atom interactions
 NBONDS: found    32279 intra-atom interactions
 NBONDS: found    32260 intra-atom interactions
 NBONDS: found    32260 intra-atom interactions
 NBONDS: found    32260 intra-atom interactions
 NBONDS: found    32279 intra-atom interactions
 NBONDS: found    32301 intra-atom interactions
 NBONDS: found    32327 intra-atom interactions
 NBONDS: found    32350 intra-atom interactions
 NBONDS: found    32344 intra-atom interactions
 NBONDS: found    32345 intra-atom interactions
 NBONDS: found    32319 intra-atom interactions
 NBONDS: found    32304 intra-atom interactions
 NBONDS: found    32297 intra-atom interactions
 NBONDS: found    32289 intra-atom interactions
 NBONDS: found    32268 intra-atom interactions
 NBONDS: found    32248 intra-atom interactions
 NBONDS: found    32241 intra-atom interactions
 NBONDS: found    32268 intra-atom interactions
 NBONDS: found    32295 intra-atom interactions
 NBONDS: found    32298 intra-atom interactions
 NBONDS: found    32318 intra-atom interactions
 NBONDS: found    32315 intra-atom interactions
 NBONDS: found    32302 intra-atom interactions
 NBONDS: found    32295 intra-atom interactions
 NBONDS: found    32293 intra-atom interactions
 NBONDS: found    32289 intra-atom interactions
 NBONDS: found    32289 intra-atom interactions
 NBONDS: found    32293 intra-atom interactions
 NBONDS: found    32281 intra-atom interactions
 NBONDS: found    32287 intra-atom interactions
 NBONDS: found    32280 intra-atom interactions
 NBONDS: found    32286 intra-atom interactions
 NBONDS: found    32300 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32369 intra-atom interactions
 NBONDS: found    32350 intra-atom interactions
 NBONDS: found    32325 intra-atom interactions
 NBONDS: found    32285 intra-atom interactions
 NBONDS: found    32281 intra-atom interactions
 NBONDS: found    32296 intra-atom interactions
 NBONDS: found    32306 intra-atom interactions
 NBONDS: found    32299 intra-atom interactions
 NBONDS: found    32310 intra-atom interactions
 NBONDS: found    32335 intra-atom interactions
 NBONDS: found    32337 intra-atom interactions
 NBONDS: found    32339 intra-atom interactions
 NBONDS: found    32333 intra-atom interactions
 NBONDS: found    32318 intra-atom interactions
 NBONDS: found    32322 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32323 intra-atom interactions
 NBONDS: found    32326 intra-atom interactions
 NBONDS: found    32364 intra-atom interactions
 NBONDS: found    32376 intra-atom interactions
 NBONDS: found    32360 intra-atom interactions
 NBONDS: found    32323 intra-atom interactions
 NBONDS: found    32293 intra-atom interactions
 NBONDS: found    32273 intra-atom interactions
 NBONDS: found    32286 intra-atom interactions
 NBONDS: found    32287 intra-atom interactions
 NBONDS: found    32306 intra-atom interactions
 NBONDS: found    32321 intra-atom interactions
 NBONDS: found    32323 intra-atom interactions
 NBONDS: found    32307 intra-atom interactions
 NBONDS: found    32301 intra-atom interactions
 NBONDS: found    32306 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32290 intra-atom interactions
 NBONDS: found    32281 intra-atom interactions
 NBONDS: found    32289 intra-atom interactions
 NBONDS: found    32314 intra-atom interactions
 NBONDS: found    32338 intra-atom interactions
 NBONDS: found    32337 intra-atom interactions
 NBONDS: found    32327 intra-atom interactions
 NBONDS: found    32320 intra-atom interactions
 NBONDS: found    32321 intra-atom interactions
 NBONDS: found    32293 intra-atom interactions
 NBONDS: found    32289 intra-atom interactions
 NBONDS: found    32312 intra-atom interactions
 NBONDS: found    32302 intra-atom interactions
 NBONDS: found    32299 intra-atom interactions
 NBONDS: found    32305 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32309 intra-atom interactions
 NBONDS: found    32315 intra-atom interactions
 NBONDS: found    32314 intra-atom interactions
 NBONDS: found    32320 intra-atom interactions
 NBONDS: found    32335 intra-atom interactions
 NBONDS: found    32367 intra-atom interactions
 NBONDS: found    32370 intra-atom interactions
 NBONDS: found    32363 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32303 intra-atom interactions
 NBONDS: found    32282 intra-atom interactions
 NBONDS: found    32265 intra-atom interactions
 NBONDS: found    32262 intra-atom interactions
 NBONDS: found    32263 intra-atom interactions
 NBONDS: found    32273 intra-atom interactions
 NBONDS: found    32292 intra-atom interactions
 NBONDS: found    32305 intra-atom interactions
 NBONDS: found    32300 intra-atom interactions
 NBONDS: found    32305 intra-atom interactions
 NBONDS: found    32301 intra-atom interactions
 NBONDS: found    32308 intra-atom interactions
 NBONDS: found    32313 intra-atom interactions
 NBONDS: found    32323 intra-atom interactions
 NBONDS: found    32312 intra-atom interactions
 NBONDS: found    32321 intra-atom interactions
 NBONDS: found    32323 intra-atom interactions
 NBONDS: found    32319 intra-atom interactions
 NBONDS: found    32324 intra-atom interactions
 NBONDS: found    32321 intra-atom interactions
 NBONDS: found    32315 intra-atom interactions
 NBONDS: found    32314 intra-atom interactions
 NBONDS: found    32317 intra-atom interactions
 NBONDS: found    32320 intra-atom interactions
 NBONDS: found    32314 intra-atom interactions
 NBONDS: found    32343 intra-atom interactions
 NBONDS: found    32369 intra-atom interactions
 NBONDS: found    32392 intra-atom interactions
 NBONDS: found    32400 intra-atom interactions
 NBONDS: found    32398 intra-atom interactions
 NBONDS: found    32383 intra-atom interactions
 NBONDS: found    32330 intra-atom interactions
 NBONDS: found    32304 intra-atom interactions
 NBONDS: found    32279 intra-atom interactions
 NBONDS: found    32272 intra-atom interactions
 NBONDS: found    32261 intra-atom interactions
 NBONDS: found    32254 intra-atom interactions
 NBONDS: found    32255 intra-atom interactions
 NBONDS: found    32267 intra-atom interactions
 NBONDS: found    32279 intra-atom interactions
 NBONDS: found    32308 intra-atom interactions
 NBONDS: found    32324 intra-atom interactions
 NBONDS: found    32334 intra-atom interactions
 NBONDS: found    32342 intra-atom interactions
 NBONDS: found    32331 intra-atom interactions
 NBONDS: found    32316 intra-atom interactions
 NBONDS: found    32283 intra-atom interactions
 NBONDS: found    32269 intra-atom interactions
 NBONDS: found    32260 intra-atom interactions
 NBONDS: found    32262 intra-atom interactions
 NBONDS: found    32258 intra-atom interactions
 NBONDS: found    32299 intra-atom interactions
 NBONDS: found    32327 intra-atom interactions
 NBONDS: found    32335 intra-atom interactions
 NBONDS: found    32353 intra-atom interactions
 NBONDS: found    32347 intra-atom interactions
 NBONDS: found    32361 intra-atom interactions
 NBONDS: found    32377 intra-atom interactions
 NBONDS: found    32370 intra-atom interactions
 NBONDS: found    32362 intra-atom interactions
 NBONDS: found    32339 intra-atom interactions
 NBONDS: found    32321 intra-atom interactions
 NBONDS: found    32304 intra-atom interactions
 NBONDS: found    32291 intra-atom interactions
 NBONDS: found    32294 intra-atom interactions
 NBONDS: found    32295 intra-atom interactions
 NBONDS: found    32302 intra-atom interactions
 NBONDS: found    32309 intra-atom interactions
 NBONDS: found    32326 intra-atom interactions
 NBONDS: found    32345 intra-atom interactions
 NBONDS: found    32366 intra-atom interactions
 NBONDS: found    32388 intra-atom interactions
 NBONDS: found    32388 intra-atom interactions
 NBONDS: found    32378 intra-atom interactions
 NBONDS: found    32351 intra-atom interactions
 NBONDS: found    32309 intra-atom interactions
 NBONDS: found    32273 intra-atom interactions
 NBONDS: found    32241 intra-atom interactions
 NBONDS: found    32236 intra-atom interactions
 NBONDS: found    32227 intra-atom interactions
 NBONDS: found    32233 intra-atom interactions
 NBONDS: found    32248 intra-atom interactions
 NBONDS: found    32273 intra-atom interactions
 NBONDS: found    32295 intra-atom interactions
 NBONDS: found    32323 intra-atom interactions
 NBONDS: found    32350 intra-atom interactions
 NBONDS: found    32375 intra-atom interactions
 NBONDS: found    32381 intra-atom interactions
 NBONDS: found    32364 intra-atom interactions
 NBONDS: found    32355 intra-atom interactions
 NBONDS: found    32329 intra-atom interactions
 NBONDS: found    32318 intra-atom interactions
 -------------------- final step=   500 at      0.25000 ps ---------------------
 | E(kin)+E(total)=27284.349       E(kin)=14782.250     temperature=9685.894   |
 | Etotal =12502.099  grad(E)=239.138    E(BOND)=4776.523   E(ANGL)=2179.502   |
 | E(DIHE)=3.431      E(IMPR)=5413.858   E(VDW )=128.784                       |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     21.15851    -10.20405     -3.80914
         velocity [A/ps]       :      3.26168      2.61599     -7.00450
         ang. mom. [amu A/ps]  : -14423.54959  27208.35142   -823.50445
         kin. ener. [Kcal/mol] :     43.42588
 CNSsolve> 
 CNSsolve>     {- some final minimisation -} 
 CNSsolve>     minimize powell 
 POWELL>       nstep=500 
 POWELL>       drop=40.0 
 POWELL>       nprint=50 
 POWELL>     end 
 POWELL: number of degrees of freedom=  1536
 NBONDS: found    32299 intra-atom interactions
 NBONDS: found    32322 intra-atom interactions
 --------------- cycle=    50 ------ stepsize=    0.0000 -----------------------
 | Etotal =4808.310   grad(E)=104.623    E(BOND)=155.598    E(ANGL)=1813.243   |
 | E(DIHE)=3.431      E(IMPR)=2795.052   E(VDW )=40.986                        |
 -------------------------------------------------------------------------------
 POWELL: Line search terminated
 POWELL: Current coordinates set to last minimum
 CNSsolve> 
 CNSsolve>     print thres=0.02 bonds 
 (atom-i        |atom-j        )    dist.   equil.   delta    energy   const. 

 (     17   NE  |     17   HE  )    1.087    0.980    0.107   11.435 1000.000
 (     23   NE  |     23   HE  )    0.729    0.980   -0.251   62.903 1000.000
 (     36   NE  |     36   HE  )    1.213    0.980    0.233   54.476 1000.000
 (     43   NE  |     43   HE  )    1.134    0.980    0.154   23.598 1000.000
 (     59   NE  |     59   HE  )    0.929    0.980   -0.051    2.572 1000.000
 Number of violations greater    0.020:     5
 RMS deviation=   0.017
 CNSsolve>     print thres=5. angles 
 (atom-i        |atom-j        |atom-k        )  angle    equil.     delta    energy  const. 

 (     17   CD  |     17   NE  |     17   HE  )   63.028  118.099  -55.070  461.912  500.000
 (     17   HE  |     17   NE  |     17   CZ  )  135.557  119.249   16.308   40.506  500.000
 (     23   CD  |     23   NE  |     23   HE  )   78.460  118.099  -39.639  239.313  500.000
 (     36   CD  |     36   NE  |     36   HE  )  159.789  118.099   41.690  264.723  500.000
 (     36   HE  |     36   NE  |     36   CZ  )   71.242  119.249  -48.007  351.022  500.000
 (     43   CD  |     43   NE  |     43   HE  )   81.048  118.099  -37.051  209.082  500.000
 (     43   HE  |     43   NE  |     43   CZ  )  128.134  119.249    8.886   12.025  500.000
 (     59   CD  |     59   NE  |     59   HE  )   86.377  118.099  -31.721  153.258  500.000
 (     59   HE  |     59   NE  |     59   CZ  )  133.146  119.249   13.897   29.415  500.000
 Number of violations greater    5.000:     9
 RMS deviation=   3.190
 CNSsolve> 
 CNSsolve>   end if 
 CNSsolve> 
 CNSsolve>   fix selection=( none ) end 
 SELRPN:      0 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve> end if 
 CNSsolve> 
 CNSsolve> set echo=false end 
 SELRPN:      0 atoms have been selected out of   1042
 SHOW: zero atoms selected
 NEXTCD: condition evaluated as true
 SELRPN:      0 atoms have been selected out of   1042
 CNSsolve> 
 CNSsolve> if (&set_bfactor=true) then 
 NEXTCD: condition evaluated as false
 CNSsolve>   do (b=&bfactor) ( all ) 
 CNSsolve> else 
 CNSsolve>   show ave(b) (known and not(store1)) 
 SELRPN:    530 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.000000
 CNSsolve>   do (b=$result) (store1 and (attr b < 0.01)) 
 SELRPN:    512 atoms have been selected out of   1042
 CNSsolve> end if 
 CNSsolve> 
 CNSsolve> if (&set_occupancy=true) then 
 NEXTCD: condition evaluated as false
 CNSsolve>   do (q=&occupancy) ( all ) 
 CNSsolve> end if 
 CNSsolve> 
 CNSsolve> set echo=false end 
 SELRPN:    512 atoms have been selected out of   1042
 SHOW: sum over selected elements =     512.000000
 NEXTCD: condition evaluated as false
 CNSsolve> 
 CNSsolve> set remarks=reset end 
 CNSsolve> 
 CNSsolve> buffer message 
 BUFFER>   to=remarks 
 BUFFER>   dump 
 BUFFER> end 
 CNSsolve> 
 CNSsolve>   write coordinates output=&coordinate_outfile end 
 ASSFIL: file 1xxx_4_cns.pdb opened.
 CNSsolve> 
 CNSsolve>stop 
 HEAP: maximum use      =      671720 current use      =           0 bytes
 HEAP: maximum overhead =         752 current overhead =          64 bytes
          ============================================================
           Maximum dynamic memory allocation:      671720 bytes
           Maximum dynamic memory overhead:           752 bytes
           Program started at: 23:05:24 on 23-Mar-05  
           Program stopped at: 23:05:34 on 23-Mar-05
           CPU time used:       9.9100 seconds
          ============================================================