============================================================
          |                                                          |
          |            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: 23:36:47 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_2.pdb"; 
 DEFINE> 
 DEFINE>{* output coordinate file *} 
 DEFINE>{===>} coordinate_outfile="1xxx_2_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 2 
 COOR>ATOM   1210    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 $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.867556
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    2.86756     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.079333
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.793333E-01 (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.604889
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.60489     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.657875
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    1.65788     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.425125
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -1.42513     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.521875
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -4.52188     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.573900
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    2.57390     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.929900
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -5.92990     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.637200
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -5.63720     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =       5.209571
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    5.20957     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.402143
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.40214     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.152571
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -7.15257     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.253364
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    6.25336     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -6.966364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -6.96636     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -9.676818
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -9.67682     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.488611
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    12.4886     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.370667
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -7.37067     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =     -10.402333
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -10.4023     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.040500
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    11.0405     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.769100
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.76910     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =     -12.824200
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -12.8242     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.544000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.5440     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.103500
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -5.10350     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =     -14.625000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -14.6250     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.511100
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.5111     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.215500
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -1.21550     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =     -16.686400
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -16.6864     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.444455
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.4445     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.093364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   0.933636E-01 (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =     -13.124273
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -13.1243     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.959625
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.9596     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.181375
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.181375     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =     -10.597250
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -10.5973     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.515600
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.5156     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.753000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -2.75300     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -7.914600
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -7.91460     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.842600
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.8426     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.870400
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.87040     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -8.888000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -8.88800     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.392600
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    13.3926     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.237800
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -1.23780     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      -8.232400
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -8.23240     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.872818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    11.8728     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.709909
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -2.70991     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.261909
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -5.26191     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      15.971333
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    15.9713     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.538600
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -2.53860     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.928867
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.92887     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.393643
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    13.3936     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.452500
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    3.45250     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.994643
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -4.99464     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      15.093375
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    15.0934     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.278750
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    6.27875     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.465750
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.46575     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.108000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    11.1080     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       7.399636
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    7.39964     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -2.342364
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -2.34236     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.080000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    13.0800     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.444000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    10.4440     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.416286
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.416286     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.183000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    16.1830     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.572000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    10.5720     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.479750
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -1.47975     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.631429
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.6314     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.037286
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    10.0373     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.767286
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -4.76729     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      18.934214
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    18.9342     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       9.574071
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    9.57407     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.203071
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -5.20307     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.690211
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    16.6902     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.131632
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    4.13163     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      -8.683579
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -8.68358     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.176278
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    20.1763     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.992944
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    2.99294     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.015111
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.01511     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      23.148636
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    23.1486     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -1.483091
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -1.48309     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -5.370909
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -5.37091     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.871200
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    20.8712     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.717200
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.71720     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.505100
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   -3.50510     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.887333
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.8873     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      -3.511333
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -3.51133     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.025222
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.252222E-01 (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.234818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    21.2348     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -4.561545
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to   -4.56155     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.829091
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    1.82909     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      23.371800
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    23.3718     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.847700
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.847700     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.643700
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.643700     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      18.600818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    18.6008     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.251455
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    1.25145     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       0.415091
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to   0.415091     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.784091
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.7841     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      -0.938273
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to  -0.938273     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.690727
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    4.69073     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      22.252636
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    22.2526     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.169091
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    1.16909     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.875636
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    4.87564     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.266333
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    20.2663     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.401333
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    6.40133     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =       2.812533
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    2.81253     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.699444
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    16.6994     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.201611
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    4.20161     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     18 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.536667
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    4.53667     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.138500
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    21.1385     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       1.714000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    1.71400     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       9.507643
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    9.50764     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.743778
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    21.7438     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       7.869556
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    7.86956     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.194778
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    8.19478     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.020818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    21.0208     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       9.973091
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    9.97309     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.592727
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    12.5927     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.661100
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    21.6611     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.680400
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    12.6804     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       9.111100
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    9.11110     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.690867
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.6909     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.503267
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    10.5033     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     15 atoms have been selected out of   1042
 SHOW: average of selected elements =       5.229533
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    5.22953     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      15.694909
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    15.6949     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.980091
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    8.98009     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       9.494818
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    9.49482     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.274273
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.2743     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.407636
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    14.4076     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.722727
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    11.7227     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.787286
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    17.7873     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      16.264214
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    16.2642     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       5.758429
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    5.75843     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.050909
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    13.0509     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.078909
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    13.0789     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.630364
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    6.63036     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.416818
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    11.4168     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      15.290455
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    15.2905     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.477455
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    11.4775     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.529909
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.5299     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      19.194000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    19.1940     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       9.595818
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    9.59582     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.232273
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    12.2323     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      17.915727
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    17.9157     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       5.022000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    5.02200     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.306778
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    8.30678     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      18.491444
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    18.4914     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       7.611778
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    7.61178     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.418200
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    6.41820     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      22.081200
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    22.0812     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.001100
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    8.00110     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       4.858273
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    4.85827     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      20.058364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    20.0584     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.925364
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    11.9254     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =       9.164500
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    9.16450     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      21.122500
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    21.1225     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      8 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.386125
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    12.3861     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.507000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    8.50700     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      25.959105
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    25.9591     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      11.962316
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    11.9623     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.903889
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    13.9039     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      26.869000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    26.8690     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.536000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    13.5360     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.499364
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.4994     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      31.325636
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    31.3256     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      15.419364
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    15.4194     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      18.685182
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    18.6852     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      29.135727
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    29.1357     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.048636
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    12.0486     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      15.571909
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    15.5719     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      30.265364
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    30.2654     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.361273
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    8.36127     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      14.762857
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    14.7629     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      33.863714
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    33.8637     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.220143
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    10.2201     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      18.083182
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    18.0832     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      34.985545
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    34.9855     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     11 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.996182
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    12.9962     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      19.712786
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    19.7128     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =      37.628214
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    37.6282     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     14 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.894071
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    8.89407     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      22.398143
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    22.3981     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      37.100857
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    37.1009     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      13.036143
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    13.0361     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      25.861000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    25.8610     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      36.265857
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    36.2659     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      7 atoms have been selected out of   1042
 SHOW: average of selected elements =      12.444143
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    12.4441     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      27.122200
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    27.1222     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      34.197600
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    34.1976     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      10.352800
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    10.3528     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      29.666300
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    29.6663     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =      34.150600
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    34.1506     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     10 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.918300
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    6.91830     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      32.602000
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    32.6020     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =      35.634600
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    35.6346     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      5 atoms have been selected out of   1042
 SHOW: average of selected elements =       8.239000
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    8.23900     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      35.564111
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    35.5641     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      36.948000
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    36.9480     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       7.125778
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    7.12578     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      40.606211
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    40.6062     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =      34.810789
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    34.8108     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:     19 atoms have been selected out of   1042
 SHOW: average of selected elements =       3.664105
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    3.66411     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      42.450333
 CNSsolve>       evaluate ($ave_x=$result) 
 EVALUATE: symbol $AVE_X set to    42.4503     (real)
 CNSsolve>       show ave(y) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =      36.676556
 CNSsolve>       evaluate ($ave_y=$result) 
 EVALUATE: symbol $AVE_Y set to    36.6766     (real)
 CNSsolve>       show ave(z) (byres(id $id) and known) 
 SELRPN:      9 atoms have been selected out of   1042
 SHOW: average of selected elements =       6.040444
 CNSsolve>       evaluate ($ave_z=$result) 
 EVALUATE: symbol $AVE_Z set to    6.04044     (real)
 CNSsolve> 
 CNSsolve>       do (x=$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 "    -15  -LEU -CA  " and "    -15  -LEU -HD23" only  0.09 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 "    -38  -LYS -HB1 " and "    -38  -LYS -CG  " only  0.04 A apart
 %atoms "    -38  -LYS -CG  " and "    -38  -LYS -HD1 " only  0.09 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    40551 intra-atom interactions
 NBONDS: found       12 nonbonded violations
 %atoms "    -53  -SER -HA  " and "    -53  -SER -HB2 " only  0.09 A apart
 NBONDS: found    37975 intra-atom interactions
 NBONDS: found        1 nonbonded violations
 %atoms "    -2   -PRO -HB2 " and "    -2   -PRO -HD2 " only  0.05 A apart
 %atoms "    -51  -PRO -CB  " and "    -51  -PRO -HG1 " only  0.08 A apart
 NBONDS: found    35527 intra-atom interactions
 NBONDS: found        2 nonbonded violations
 NBONDS: found    33878 intra-atom interactions
 NBONDS: found    33229 intra-atom interactions
 --------------- cycle=    10 ------ stepsize=   -0.0001 -----------------------
 | Etotal =291124.642 grad(E)=650.235    E(BOND)=59646.450  E(ANGL)=137098.066 |
 | E(VDW )=94380.126                                                           |
 -------------------------------------------------------------------------------
 NBONDS: found    33526 intra-atom interactions
 NBONDS: found    33731 intra-atom interactions
 NBONDS: found    33707 intra-atom interactions
 NBONDS: found    33651 intra-atom interactions
 --------------- cycle=    20 ------ stepsize=   -0.0001 -----------------------
 | Etotal =101835.598 grad(E)=352.587    E(BOND)=17746.175  E(ANGL)=35940.322  |
 | E(VDW )=48149.101                                                           |
 -------------------------------------------------------------------------------
 NBONDS: found    33716 intra-atom interactions
 NBONDS: found    33784 intra-atom interactions
 --------------- cycle=    30 ------ stepsize=   -0.0001 -----------------------
 | Etotal =85307.404  grad(E)=316.278    E(BOND)=13062.540  E(ANGL)=27215.579  |
 | E(VDW )=45029.285                                                           |
 -------------------------------------------------------------------------------
 --------------- cycle=    40 ------ stepsize=    0.0002 -----------------------
 | Etotal =84394.738  grad(E)=314.380    E(BOND)=12700.295  E(ANGL)=26705.807  |
 | E(VDW )=44988.636                                                           |
 -------------------------------------------------------------------------------
 --------------- cycle=    50 ------ stepsize=   -0.0005 -----------------------
 | Etotal =84344.580  grad(E)=314.271    E(BOND)=12774.947  E(ANGL)=26723.635  |
 | E(VDW )=44845.998                                                           |
 -------------------------------------------------------------------------------
 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)=375911.119      E(kin)=475.307       temperature=311.439    |
 | Etotal =375435.812 grad(E)=820.723    E(BOND)=12774.947  E(ANGL)=26723.635  |
 | E(IMPR)=335937.231                                                          |
 -------------------------------------------------------------------------------
 -------------------- final step=    50 at      0.02500 ps ---------------------
 | E(kin)+E(total)=240595.909      E(kin)=39603.668     temperature=25949.834  |
 | Etotal =200992.240 grad(E)=490.841    E(BOND)=27279.067  E(ANGL)=79557.459  |
 | E(IMPR)=94155.714                                                           |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     17.01064     11.34029      2.69961
         velocity [A/ps]       :     -0.45081      1.68460     -1.02140
         ang. mom. [amu A/ps]  :  61680.57707-152143.72897-133100.06147
         kin. ener. [Kcal/mol] :     49.98081
 CNSsolve> 
 CNSsolve>     flags include vdw end 
 CNSsolve> 
 CNSsolve>     minimize powell nstep=50 nprint=10 end 
 POWELL: number of degrees of freedom=  1536
 NBONDS: found    33178 intra-atom interactions
 NBONDS: found    33428 intra-atom interactions
 NBONDS: found    33355 intra-atom interactions
 NBONDS: found    33328 intra-atom interactions
 NBONDS: found    33464 intra-atom interactions
 --------------- cycle=    10 ------ stepsize=    0.0003 -----------------------
 | Etotal =166336.669 grad(E)=421.348    E(BOND)=28885.601  E(ANGL)=45724.727  |
 | E(IMPR)=66926.636  E(VDW )=24799.703                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33500 intra-atom interactions
 NBONDS: found    33651 intra-atom interactions
 NBONDS: found    33619 intra-atom interactions
 NBONDS: found    33569 intra-atom interactions
 --------------- cycle=    20 ------ stepsize=    0.0005 -----------------------
 | Etotal =106714.507 grad(E)=283.296    E(BOND)=12027.769  E(ANGL)=17346.946  |
 | E(IMPR)=50631.676  E(VDW )=26708.116                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33602 intra-atom interactions
 NBONDS: found    33619 intra-atom interactions
 NBONDS: found    33599 intra-atom interactions
 --------------- cycle=    30 ------ stepsize=    0.0005 -----------------------
 | Etotal =95159.898  grad(E)=281.393    E(BOND)=12956.202  E(ANGL)=17053.418  |
 | E(IMPR)=39216.548  E(VDW )=25933.730                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33599 intra-atom interactions
 NBONDS: found    33603 intra-atom interactions
 NBONDS: found    33599 intra-atom interactions
 --------------- cycle=    40 ------ stepsize=    0.0005 -----------------------
 | Etotal =76178.451  grad(E)=280.172    E(BOND)=11212.213  E(ANGL)=12573.455  |
 | E(IMPR)=27401.709  E(VDW )=24991.073                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33599 intra-atom interactions
 NBONDS: found    33630 intra-atom interactions
 --------------- cycle=    50 ------ stepsize=    0.0003 -----------------------
 | Etotal =66948.880  grad(E)=275.234    E(BOND)=11379.594  E(ANGL)=9031.184   |
 | E(IMPR)=22278.019  E(VDW )=24260.083                                        |
 -------------------------------------------------------------------------------
 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)=67428.434       E(kin)=479.554       temperature=314.222    |
 | Etotal =66948.880  grad(E)=275.234    E(BOND)=11379.594  E(ANGL)=9031.184   |
 | E(IMPR)=22278.019  E(VDW )=24260.083                                        |
 -------------------------------------------------------------------------------
 NBONDS: found    33640 intra-atom interactions
 NBONDS: found    33616 intra-atom interactions
 -------------------- final step=    50 at      0.02500 ps ---------------------
 | E(kin)+E(total)=65409.343       E(kin)=872.792       temperature=571.886    |
 | Etotal =64536.551  grad(E)=274.591    E(BOND)=11156.373  E(ANGL)=8072.884   |
 | E(IMPR)=21466.449  E(VDW )=23840.845                                        |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     17.02650     11.34180      2.70216
         velocity [A/ps]       :      0.07361     -0.06983     -0.22283
         ang. mom. [amu A/ps]  :   2039.54280   3305.82481   8157.36079
         kin. ener. [Kcal/mol] :      0.73361
 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    32436 intra-atom interactions
 NBONDS: found    32879 intra-atom interactions
 NBONDS: found    32856 intra-atom interactions
 NBONDS: found    32844 intra-atom interactions
 --------------- cycle=    25 ------ stepsize=    0.0000 -----------------------
 | Etotal =20240.302  grad(E)=114.228    E(BOND)=1156.628   E(ANGL)=8633.541   |
 | E(IMPR)=10447.992  E(VDW )=2.141                                            |
 -------------------------------------------------------------------------------
 --------------- cycle=    50 ------ stepsize=    0.0000 -----------------------
 | Etotal =20181.539  grad(E)=174.731    E(BOND)=1547.303   E(ANGL)=7788.846   |
 | E(IMPR)=10841.564  E(VDW )=3.825                                            |
 -------------------------------------------------------------------------------
 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)=19990.365       E(kin)=469.612       temperature=307.708    |
 | Etotal =19520.753  grad(E)=110.013    E(BOND)=1547.303   E(ANGL)=7788.848   |
 | E(IMPR)=10180.777  E(VDW )=3.825                                            |
 -------------------------------------------------------------------------------
 NBONDS: found    32813 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32851 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32841 intra-atom interactions
 NBONDS: found    32849 intra-atom interactions
 NBONDS: found    32807 intra-atom interactions
 NBONDS: found    32849 intra-atom interactions
 NBONDS: found    32876 intra-atom interactions
 NBONDS: found    32873 intra-atom interactions
 NBONDS: found    32905 intra-atom interactions
 NBONDS: found    32935 intra-atom interactions
 NBONDS: found    32947 intra-atom interactions
 NBONDS: found    32915 intra-atom interactions
 NBONDS: found    32895 intra-atom interactions
 NBONDS: found    32844 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32835 intra-atom interactions
 NBONDS: found    32850 intra-atom interactions
 NBONDS: found    32861 intra-atom interactions
 NBONDS: found    32870 intra-atom interactions
 NBONDS: found    32867 intra-atom interactions
 NBONDS: found    32860 intra-atom interactions
 NBONDS: found    32873 intra-atom interactions
 NBONDS: found    32875 intra-atom interactions
 NBONDS: found    32864 intra-atom interactions
 NBONDS: found    32849 intra-atom interactions
 NBONDS: found    32849 intra-atom interactions
 NBONDS: found    32853 intra-atom interactions
 NBONDS: found    32841 intra-atom interactions
 NBONDS: found    32836 intra-atom interactions
 NBONDS: found    32843 intra-atom interactions
 NBONDS: found    32838 intra-atom interactions
 NBONDS: found    32840 intra-atom interactions
 NBONDS: found    32876 intra-atom interactions
 NBONDS: found    32894 intra-atom interactions
 NBONDS: found    32881 intra-atom interactions
 NBONDS: found    32883 intra-atom interactions
 NBONDS: found    32857 intra-atom interactions
 NBONDS: found    32861 intra-atom interactions
 NBONDS: found    32872 intra-atom interactions
 -------------------- final step=   500 at      0.25000 ps ---------------------
 | E(kin)+E(total)=9140.178        E(kin)=2551.229      temperature=1671.662   |
 | Etotal =6588.949   grad(E)=127.230    E(BOND)=1787.397   E(ANGL)=2350.341   |
 | E(IMPR)=2443.342   E(VDW )=7.868                                            |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     17.02793     11.34963      2.69652
         velocity [A/ps]       :      0.57336      0.02783      0.35328
         ang. mom. [amu A/ps]  :  37447.14855  15034.69144  58440.24615
         kin. ener. [Kcal/mol] :      5.55962
 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    32875 intra-atom interactions
 NBONDS: found    32860 intra-atom interactions
 --------------- cycle=    50 ------ stepsize=    0.0000 -----------------------
 | Etotal =3977.877   grad(E)=84.410     E(BOND)=21.790     E(ANGL)=1531.188   |
 | E(DIHE)=37.386     E(IMPR)=2340.825   E(VDW )=46.689                        |
 -------------------------------------------------------------------------------
 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)=4421.102        E(kin)=443.225       temperature=290.418    |
 | Etotal =3977.877   grad(E)=84.410     E(BOND)=21.790     E(ANGL)=1531.188   |
 | E(DIHE)=37.386     E(IMPR)=2340.825   E(VDW )=46.689                        |
 -------------------------------------------------------------------------------
 NBONDS: found    32869 intra-atom interactions
 NBONDS: found    32872 intra-atom interactions
 NBONDS: found    32879 intra-atom interactions
 NBONDS: found    32839 intra-atom interactions
 NBONDS: found    32816 intra-atom interactions
 NBONDS: found    32804 intra-atom interactions
 NBONDS: found    32789 intra-atom interactions
 NBONDS: found    32796 intra-atom interactions
 NBONDS: found    32819 intra-atom interactions
 NBONDS: found    32857 intra-atom interactions
 NBONDS: found    32874 intra-atom interactions
 NBONDS: found    32896 intra-atom interactions
 NBONDS: found    32899 intra-atom interactions
 NBONDS: found    32870 intra-atom interactions
 NBONDS: found    32848 intra-atom interactions
 NBONDS: found    32840 intra-atom interactions
 NBONDS: found    32830 intra-atom interactions
 NBONDS: found    32817 intra-atom interactions
 NBONDS: found    32815 intra-atom interactions
 NBONDS: found    32817 intra-atom interactions
 NBONDS: found    32813 intra-atom interactions
 NBONDS: found    32837 intra-atom interactions
 NBONDS: found    32848 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32803 intra-atom interactions
 NBONDS: found    32814 intra-atom interactions
 NBONDS: found    32810 intra-atom interactions
 NBONDS: found    32806 intra-atom interactions
 NBONDS: found    32791 intra-atom interactions
 NBONDS: found    32781 intra-atom interactions
 NBONDS: found    32786 intra-atom interactions
 NBONDS: found    32790 intra-atom interactions
 NBONDS: found    32808 intra-atom interactions
 NBONDS: found    32821 intra-atom interactions
 NBONDS: found    32844 intra-atom interactions
 NBONDS: found    32866 intra-atom interactions
 NBONDS: found    32880 intra-atom interactions
 NBONDS: found    32930 intra-atom interactions
 NBONDS: found    32924 intra-atom interactions
 NBONDS: found    32912 intra-atom interactions
 NBONDS: found    32895 intra-atom interactions
 NBONDS: found    32880 intra-atom interactions
 NBONDS: found    32838 intra-atom interactions
 NBONDS: found    32801 intra-atom interactions
 NBONDS: found    32775 intra-atom interactions
 NBONDS: found    32756 intra-atom interactions
 NBONDS: found    32765 intra-atom interactions
 NBONDS: found    32763 intra-atom interactions
 NBONDS: found    32785 intra-atom interactions
 NBONDS: found    32807 intra-atom interactions
 NBONDS: found    32852 intra-atom interactions
 NBONDS: found    32890 intra-atom interactions
 NBONDS: found    32935 intra-atom interactions
 NBONDS: found    32967 intra-atom interactions
 NBONDS: found    32984 intra-atom interactions
 NBONDS: found    32973 intra-atom interactions
 NBONDS: found    32945 intra-atom interactions
 NBONDS: found    32878 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32781 intra-atom interactions
 NBONDS: found    32744 intra-atom interactions
 NBONDS: found    32738 intra-atom interactions
 NBONDS: found    32751 intra-atom interactions
 NBONDS: found    32783 intra-atom interactions
 NBONDS: found    32832 intra-atom interactions
 NBONDS: found    32883 intra-atom interactions
 NBONDS: found    32916 intra-atom interactions
 NBONDS: found    32930 intra-atom interactions
 NBONDS: found    32937 intra-atom interactions
 NBONDS: found    32921 intra-atom interactions
 NBONDS: found    32881 intra-atom interactions
 NBONDS: found    32839 intra-atom interactions
 NBONDS: found    32794 intra-atom interactions
 NBONDS: found    32760 intra-atom interactions
 NBONDS: found    32758 intra-atom interactions
 NBONDS: found    32740 intra-atom interactions
 NBONDS: found    32767 intra-atom interactions
 NBONDS: found    32798 intra-atom interactions
 NBONDS: found    32856 intra-atom interactions
 NBONDS: found    32910 intra-atom interactions
 NBONDS: found    32937 intra-atom interactions
 NBONDS: found    32953 intra-atom interactions
 NBONDS: found    32963 intra-atom interactions
 NBONDS: found    32933 intra-atom interactions
 NBONDS: found    32897 intra-atom interactions
 NBONDS: found    32862 intra-atom interactions
 NBONDS: found    32813 intra-atom interactions
 NBONDS: found    32789 intra-atom interactions
 NBONDS: found    32758 intra-atom interactions
 NBONDS: found    32763 intra-atom interactions
 NBONDS: found    32793 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32874 intra-atom interactions
 NBONDS: found    32902 intra-atom interactions
 NBONDS: found    32913 intra-atom interactions
 NBONDS: found    32907 intra-atom interactions
 NBONDS: found    32871 intra-atom interactions
 NBONDS: found    32845 intra-atom interactions
 NBONDS: found    32810 intra-atom interactions
 NBONDS: found    32796 intra-atom interactions
 NBONDS: found    32799 intra-atom interactions
 NBONDS: found    32797 intra-atom interactions
 NBONDS: found    32833 intra-atom interactions
 NBONDS: found    32875 intra-atom interactions
 NBONDS: found    32913 intra-atom interactions
 NBONDS: found    32918 intra-atom interactions
 NBONDS: found    32902 intra-atom interactions
 NBONDS: found    32872 intra-atom interactions
 NBONDS: found    32829 intra-atom interactions
 NBONDS: found    32798 intra-atom interactions
 NBONDS: found    32777 intra-atom interactions
 NBONDS: found    32758 intra-atom interactions
 NBONDS: found    32761 intra-atom interactions
 NBONDS: found    32769 intra-atom interactions
 NBONDS: found    32793 intra-atom interactions
 NBONDS: found    32833 intra-atom interactions
 NBONDS: found    32875 intra-atom interactions
 NBONDS: found    32908 intra-atom interactions
 NBONDS: found    32924 intra-atom interactions
 NBONDS: found    32923 intra-atom interactions
 NBONDS: found    32911 intra-atom interactions
 NBONDS: found    32893 intra-atom interactions
 NBONDS: found    32869 intra-atom interactions
 NBONDS: found    32830 intra-atom interactions
 NBONDS: found    32798 intra-atom interactions
 NBONDS: found    32788 intra-atom interactions
 NBONDS: found    32788 intra-atom interactions
 NBONDS: found    32794 intra-atom interactions
 NBONDS: found    32796 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32858 intra-atom interactions
 NBONDS: found    32887 intra-atom interactions
 NBONDS: found    32915 intra-atom interactions
 NBONDS: found    32924 intra-atom interactions
 NBONDS: found    32911 intra-atom interactions
 NBONDS: found    32891 intra-atom interactions
 NBONDS: found    32861 intra-atom interactions
 NBONDS: found    32835 intra-atom interactions
 NBONDS: found    32810 intra-atom interactions
 NBONDS: found    32786 intra-atom interactions
 NBONDS: found    32769 intra-atom interactions
 NBONDS: found    32758 intra-atom interactions
 NBONDS: found    32773 intra-atom interactions
 NBONDS: found    32787 intra-atom interactions
 NBONDS: found    32812 intra-atom interactions
 NBONDS: found    32838 intra-atom interactions
 NBONDS: found    32864 intra-atom interactions
 NBONDS: found    32881 intra-atom interactions
 NBONDS: found    32879 intra-atom interactions
 NBONDS: found    32838 intra-atom interactions
 NBONDS: found    32813 intra-atom interactions
 NBONDS: found    32799 intra-atom interactions
 NBONDS: found    32808 intra-atom interactions
 NBONDS: found    32831 intra-atom interactions
 NBONDS: found    32847 intra-atom interactions
 NBONDS: found    32850 intra-atom interactions
 NBONDS: found    32859 intra-atom interactions
 NBONDS: found    32859 intra-atom interactions
 NBONDS: found    32846 intra-atom interactions
 NBONDS: found    32830 intra-atom interactions
 NBONDS: found    32828 intra-atom interactions
 NBONDS: found    32825 intra-atom interactions
 NBONDS: found    32829 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32829 intra-atom interactions
 NBONDS: found    32870 intra-atom interactions
 NBONDS: found    32885 intra-atom interactions
 NBONDS: found    32893 intra-atom interactions
 NBONDS: found    32910 intra-atom interactions
 NBONDS: found    32898 intra-atom interactions
 NBONDS: found    32863 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32787 intra-atom interactions
 NBONDS: found    32771 intra-atom interactions
 NBONDS: found    32758 intra-atom interactions
 NBONDS: found    32774 intra-atom interactions
 NBONDS: found    32785 intra-atom interactions
 NBONDS: found    32807 intra-atom interactions
 NBONDS: found    32868 intra-atom interactions
 NBONDS: found    32902 intra-atom interactions
 NBONDS: found    32911 intra-atom interactions
 NBONDS: found    32893 intra-atom interactions
 NBONDS: found    32885 intra-atom interactions
 NBONDS: found    32858 intra-atom interactions
 NBONDS: found    32821 intra-atom interactions
 NBONDS: found    32813 intra-atom interactions
 NBONDS: found    32808 intra-atom interactions
 NBONDS: found    32804 intra-atom interactions
 NBONDS: found    32805 intra-atom interactions
 NBONDS: found    32821 intra-atom interactions
 NBONDS: found    32833 intra-atom interactions
 NBONDS: found    32856 intra-atom interactions
 NBONDS: found    32872 intra-atom interactions
 NBONDS: found    32877 intra-atom interactions
 NBONDS: found    32862 intra-atom interactions
 NBONDS: found    32831 intra-atom interactions
 NBONDS: found    32819 intra-atom interactions
 NBONDS: found    32812 intra-atom interactions
 NBONDS: found    32855 intra-atom interactions
 NBONDS: found    32915 intra-atom interactions
 NBONDS: found    32898 intra-atom interactions
 NBONDS: found    32841 intra-atom interactions
 NBONDS: found    32820 intra-atom interactions
 NBONDS: found    32809 intra-atom interactions
 NBONDS: found    32806 intra-atom interactions
 NBONDS: found    32819 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32829 intra-atom interactions
 NBONDS: found    32832 intra-atom interactions
 NBONDS: found    32860 intra-atom interactions
 NBONDS: found    32871 intra-atom interactions
 NBONDS: found    32866 intra-atom interactions
 NBONDS: found    32846 intra-atom interactions
 NBONDS: found    32844 intra-atom interactions
 NBONDS: found    32821 intra-atom interactions
 NBONDS: found    32816 intra-atom interactions
 NBONDS: found    32806 intra-atom interactions
 NBONDS: found    32802 intra-atom interactions
 NBONDS: found    32813 intra-atom interactions
 NBONDS: found    32836 intra-atom interactions
 NBONDS: found    32845 intra-atom interactions
 NBONDS: found    32861 intra-atom interactions
 NBONDS: found    32857 intra-atom interactions
 NBONDS: found    32878 intra-atom interactions
 NBONDS: found    32864 intra-atom interactions
 NBONDS: found    32858 intra-atom interactions
 NBONDS: found    32855 intra-atom interactions
 NBONDS: found    32832 intra-atom interactions
 NBONDS: found    32826 intra-atom interactions
 NBONDS: found    32821 intra-atom interactions
 NBONDS: found    32829 intra-atom interactions
 NBONDS: found    32847 intra-atom interactions
 NBONDS: found    32852 intra-atom interactions
 NBONDS: found    32828 intra-atom interactions
 NBONDS: found    32814 intra-atom interactions
 NBONDS: found    32801 intra-atom interactions
 NBONDS: found    32778 intra-atom interactions
 NBONDS: found    32791 intra-atom interactions
 NBONDS: found    32811 intra-atom interactions
 NBONDS: found    32833 intra-atom interactions
 NBONDS: found    32852 intra-atom interactions
 NBONDS: found    32869 intra-atom interactions
 NBONDS: found    32893 intra-atom interactions
 NBONDS: found    32908 intra-atom interactions
 NBONDS: found    32897 intra-atom interactions
 NBONDS: found    32844 intra-atom interactions
 NBONDS: found    32811 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32849 intra-atom interactions
 NBONDS: found    32865 intra-atom interactions
 NBONDS: found    32874 intra-atom interactions
 NBONDS: found    32881 intra-atom interactions
 NBONDS: found    32873 intra-atom interactions
 NBONDS: found    32874 intra-atom interactions
 NBONDS: found    32870 intra-atom interactions
 NBONDS: found    32855 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32831 intra-atom interactions
 NBONDS: found    32833 intra-atom interactions
 NBONDS: found    32843 intra-atom interactions
 NBONDS: found    32859 intra-atom interactions
 NBONDS: found    32866 intra-atom interactions
 NBONDS: found    32855 intra-atom interactions
 NBONDS: found    32860 intra-atom interactions
 NBONDS: found    32865 intra-atom interactions
 NBONDS: found    32863 intra-atom interactions
 NBONDS: found    32845 intra-atom interactions
 NBONDS: found    32832 intra-atom interactions
 NBONDS: found    32815 intra-atom interactions
 NBONDS: found    32820 intra-atom interactions
 NBONDS: found    32822 intra-atom interactions
 NBONDS: found    32832 intra-atom interactions
 NBONDS: found    32830 intra-atom interactions
 NBONDS: found    32814 intra-atom interactions
 NBONDS: found    32792 intra-atom interactions
 NBONDS: found    32798 intra-atom interactions
 NBONDS: found    32818 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32855 intra-atom interactions
 NBONDS: found    32869 intra-atom interactions
 NBONDS: found    32875 intra-atom interactions
 NBONDS: found    32870 intra-atom interactions
 NBONDS: found    32870 intra-atom interactions
 NBONDS: found    32866 intra-atom interactions
 NBONDS: found    32851 intra-atom interactions
 NBONDS: found    32830 intra-atom interactions
 NBONDS: found    32831 intra-atom interactions
 NBONDS: found    32834 intra-atom interactions
 NBONDS: found    32852 intra-atom interactions
 NBONDS: found    32853 intra-atom interactions
 NBONDS: found    32843 intra-atom interactions
 NBONDS: found    32845 intra-atom interactions
 NBONDS: found    32843 intra-atom interactions
 NBONDS: found    32840 intra-atom interactions
 NBONDS: found    32821 intra-atom interactions
 NBONDS: found    32814 intra-atom interactions
 NBONDS: found    32820 intra-atom interactions
 NBONDS: found    32820 intra-atom interactions
 NBONDS: found    32798 intra-atom interactions
 NBONDS: found    32790 intra-atom interactions
 NBONDS: found    32811 intra-atom interactions
 NBONDS: found    32826 intra-atom interactions
 NBONDS: found    32831 intra-atom interactions
 NBONDS: found    32840 intra-atom interactions
 NBONDS: found    32865 intra-atom interactions
 NBONDS: found    32867 intra-atom interactions
 NBONDS: found    32842 intra-atom interactions
 NBONDS: found    32797 intra-atom interactions
 NBONDS: found    32787 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32850 intra-atom interactions
 NBONDS: found    32897 intra-atom interactions
 NBONDS: found    32918 intra-atom interactions
 NBONDS: found    32906 intra-atom interactions
 NBONDS: found    32889 intra-atom interactions
 NBONDS: found    32878 intra-atom interactions
 NBONDS: found    32861 intra-atom interactions
 NBONDS: found    32821 intra-atom interactions
 NBONDS: found    32802 intra-atom interactions
 NBONDS: found    32798 intra-atom interactions
 NBONDS: found    32796 intra-atom interactions
 NBONDS: found    32794 intra-atom interactions
 NBONDS: found    32801 intra-atom interactions
 NBONDS: found    32807 intra-atom interactions
 NBONDS: found    32812 intra-atom interactions
 NBONDS: found    32820 intra-atom interactions
 NBONDS: found    32824 intra-atom interactions
 NBONDS: found    32828 intra-atom interactions
 NBONDS: found    32830 intra-atom interactions
 NBONDS: found    32824 intra-atom interactions
 NBONDS: found    32827 intra-atom interactions
 NBONDS: found    32831 intra-atom interactions
 NBONDS: found    32838 intra-atom interactions
 NBONDS: found    32849 intra-atom interactions
 NBONDS: found    32867 intra-atom interactions
 NBONDS: found    32857 intra-atom interactions
 NBONDS: found    32828 intra-atom interactions
 NBONDS: found    32800 intra-atom interactions
 NBONDS: found    32801 intra-atom interactions
 NBONDS: found    32812 intra-atom interactions
 NBONDS: found    32824 intra-atom interactions
 NBONDS: found    32823 intra-atom interactions
 NBONDS: found    32824 intra-atom interactions
 NBONDS: found    32830 intra-atom interactions
 NBONDS: found    32841 intra-atom interactions
 NBONDS: found    32835 intra-atom interactions
 NBONDS: found    32835 intra-atom interactions
 NBONDS: found    32840 intra-atom interactions
 NBONDS: found    32854 intra-atom interactions
 -------------------- final step=   500 at      0.25000 ps ---------------------
 | E(kin)+E(total)=12764.845       E(kin)=2330.372      temperature=1526.949   |
 | Etotal =10434.472  grad(E)=188.066    E(BOND)=3476.214   E(ANGL)=2291.962   |
 | E(DIHE)=1.061      E(IMPR)=4584.147   E(VDW )=81.088                        |
 -------------------------------------------------------------------------------
 CENMAS: Information about center of free masses
         position [A]          :     18.36674     12.84526      2.96161
         velocity [A/ps]       :     -1.70452      0.29991     -1.01720
         ang. mom. [amu A/ps]  :   9179.40317   4439.79225  20832.64264
         kin. ener. [Kcal/mol] :      2.62992
 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    32848 intra-atom interactions
 NBONDS: found    32877 intra-atom interactions
 --------------- cycle=    50 ------ stepsize=    0.0000 -----------------------
 | Etotal =5476.075   grad(E)=226.554    E(BOND)=145.318    E(ANGL)=1600.621   |
 | E(DIHE)=1.061      E(IMPR)=3686.159   E(VDW )=42.917                        |
 -------------------------------------------------------------------------------
 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  )    0.887    0.980   -0.093    8.740 1000.000
 (     23   NE  |     23   HE  )    1.106    0.980    0.126   15.862 1000.000
 (     36   NE  |     36   HE  )    1.031    0.980    0.051    2.618 1000.000
 (     43   NE  |     43   HE  )    1.321    0.980    0.341  116.099 1000.000
 (     59   NE  |     59   HE  )    0.945    0.980   -0.035    1.244 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  )   78.634  118.099  -39.465  237.217  500.000
 (     17   HE  |     17   NE  |     17   CZ  )  135.870  119.249   16.621   42.076  500.000
 (     23   CD  |     23   NE  |     23   HE  )   87.566  118.099  -30.533  141.992  500.000
 (     23   HE  |     23   NE  |     23   CZ  )  146.482  119.249   27.233  112.961  500.000
 (     36   CD  |     36   NE  |     36   HE  )   68.608  118.099  -49.491  373.062  500.000
 (     36   HE  |     36   NE  |     36   CZ  )  139.905  119.249   20.656   64.985  500.000
 (     43   CD  |     43   NE  |     43   HE  )   77.624  118.099  -40.474  249.509  500.000
 (     43   HE  |     43   NE  |     43   CZ  )  131.906  119.249   12.658   24.402  500.000
 (     59   CD  |     59   NE  |     59   HE  )   74.137  118.099  -43.961  294.354  500.000
 (     59   HE  |     59   NE  |     59   CZ  )  126.488  119.249    7.239    7.982  500.000
 Number of violations greater    5.000:    10
 RMS deviation=   2.997
 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_2_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: 23:36:47 on 23-Mar-05  
           Program stopped at: 23:36:57 on 23-Mar-05
           CPU time used:       9.8200 seconds
          ============================================================