============================================================ | | | 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: 23:04:32 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_19.pdb"; DEFINE> DEFINE>{* output coordinate file *} DEFINE>{===>} coordinate_outfile="1xxx_19_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 19 COOR>ATOM 2176 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 $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 2.629889 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 2.62989 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 0.485556 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 0.485556 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = -1.693778 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -1.69378 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 3.479500 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 3.47950 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = -2.618000 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -2.61800 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = -3.290500 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -3.29050 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 7.872000 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 7.87200 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = -3.541600 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -3.54160 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = -3.249900 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -3.24990 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 7.684571 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 7.68457 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = -1.438143 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -1.43814 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 0.152143 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 0.152143 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 9.206091 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 9.20609 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -3.491273 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -3.49127 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 3.524364 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 3.52436 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 8.609278 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 8.60928 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 0.834389 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 0.834389 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 4.419056 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 4.41906 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 9.298600 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 9.29860 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = -1.021100 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -1.02110 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 10.508200 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 10.5082 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 6.560250 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 6.56025 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 1.761375 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 1.76138 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 12.024000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 12.0240 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 7.743700 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 7.74370 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 0.330600 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 0.330600 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 15.902300 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 15.9023 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 11.588364 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 11.5884 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 1.243273 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 1.24327 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 14.808727 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 14.8087 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 12.763750 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 12.7638 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 5.153625 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 5.15363 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 13.503000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 13.5030 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 12.947000 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 12.9470 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 4.986000 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 4.98600 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 9.654800 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 9.65480 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 11.857600 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 11.8576 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 2.341600 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 2.34160 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 8.893400 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 8.89340 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 14.263000 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 14.2630 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 0.715000 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 0.715000 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 9.788200 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 9.78820 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 15.108636 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 15.1086 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 0.262636 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 0.262636 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 6.206000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 6.20600 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 17.008333 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 17.0083 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 3.859733 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 3.85973 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 6.340067 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 6.34007 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 19.322071 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 19.3221 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 0.355714 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 0.355714 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 10.321357 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 10.3214 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 24.284750 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 24.2848 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 2.893375 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 2.89338 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 11.760625 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 11.7606 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 25.440000 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 25.4400 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -1.413364 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -1.41336 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 12.915818 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 12.9158 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 28.646429 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 28.6464 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 1.387286 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 1.38729 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 13.620571 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 13.6206 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 26.617375 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 26.6174 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 3.731000 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 3.73100 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 15.524375 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 15.5244 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 24.059857 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 24.0599 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 1.332714 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 1.33271 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 16.545000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 16.5450 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 20.731214 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 20.7312 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 4.374571 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 4.37457 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 17.492214 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 17.4922 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = 16.997579 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 16.9976 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = 2.452842 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 2.45284 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = 14.750316 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 14.7503 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 19.739111 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 19.7391 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 7.602667 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 7.60267 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 11.540056 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 11.5401 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 14.644636 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 14.6446 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 10.080818 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 10.0808 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 9.959727 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 9.95973 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 15.441700 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 15.4417 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 8.861500 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 8.86150 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 6.283900 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 6.28390 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 18.885556 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 18.8856 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 7.400333 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 7.40033 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 3.948333 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 3.94833 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 19.374182 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 19.3742 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 11.176182 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 11.1762 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 3.126636 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 3.12664 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 19.857500 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 19.8575 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 12.127900 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 12.1279 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 7.453300 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 7.45330 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 22.210545 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 22.2105 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 7.488182 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 7.48818 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 7.711091 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 7.71109 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 24.745091 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 24.7451 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 8.746727 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 8.74673 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 3.272909 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 3.27291 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 24.646818 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 24.6468 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 12.740727 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 12.7407 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 6.249000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 6.24900 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 26.238400 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 26.2384 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 9.362600 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 9.36260 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 10.918800 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 10.9188 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 27.326389 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 27.3264 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 6.698667 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 6.69867 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 18 atoms have been selected out of 1042 SHOW: average of selected elements = 7.401667 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 7.40167 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 30.255929 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 30.2559 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 12.967643 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 12.9676 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 4.675000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 4.67500 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 31.512222 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 31.5122 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 11.876778 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 11.8768 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 10.365889 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 10.3659 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 36.395364 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 36.3954 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 12.370636 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 12.3706 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 8.316636 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 8.31664 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 35.847700 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 35.8477 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 11.226700 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 11.2267 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 13.370600 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 13.3706 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 31.722400 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 31.7224 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 7.016200 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 7.01620 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 15 atoms have been selected out of 1042 SHOW: average of selected elements = 12.157000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 12.1570 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 34.519727 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 34.5197 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 7.670455 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 7.67045 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 8.049364 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 8.04936 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 38.809455 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 38.8095 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 8.080909 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 8.08091 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 11.557364 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 11.5574 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 36.529571 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 36.5296 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 6.191214 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 6.19121 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 16.180643 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 16.1806 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 34.506091 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 34.5061 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 2.858273 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 2.85827 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 11.253000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 11.2530 (real) CNSsolve> CNSsolve> do (x=$ave_x) (byres(id $id) and store1) SELRPN: 11 atoms have been selected out of 1042 CNSsolve> do (y=$ave_y) (byres(id $id) and store1) SELRPN: 11 atoms have been selected out of 1042 CNSsolve> do (z=$ave_z) (byres(id $id) and store1) SELRPN: 11 atoms have been selected out of 1042 CNSsolve> CNSsolve> end loop avco CNSsolve> for $id in id (tag and byres(store1)) loop avco FOR ID LOOP: symbol ID set to 700.000 (real) CNSsolve> CNSsolve> show ave(x) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 39.890545 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 39.8905 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 2.084636 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 2.08464 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 10.369364 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 10.3694 (real) CNSsolve> CNSsolve> do (x=$ave_x) (byres(id $id) and store1) SELRPN: 13 atoms have been selected out of 1042 CNSsolve> do (y=$ave_y) (byres(id $id) and store1) SELRPN: 13 atoms have been selected out of 1042 CNSsolve> do (z=$ave_z) (byres(id $id) and store1) SELRPN: 13 atoms have been selected out of 1042 CNSsolve> CNSsolve> end loop avco CNSsolve> for $id in id (tag and byres(store1)) loop avco FOR ID LOOP: symbol ID set to 722.000 (real) CNSsolve> CNSsolve> show ave(x) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 40.087000 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 40.0870 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 2.050000 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to 2.05000 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 15.609455 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 15.6095 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 35.600909 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 35.6009 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -0.383455 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -0.383455 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 15.641182 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 15.6412 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 38.038889 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 38.0389 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = -3.195222 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -3.19522 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 12.803444 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 12.8034 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 34.859500 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 34.8595 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = -3.556400 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -3.55640 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 9.843800 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 9.84380 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 37.192182 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 37.1922 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -7.355818 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -7.35582 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 8.479636 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 8.47964 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 36.556375 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 36.5564 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = -7.421250 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -7.42125 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 8 atoms have been selected out of 1042 SHOW: average of selected elements = 4.828625 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 4.82863 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = 34.180737 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 34.1807 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = -10.431842 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -10.4318 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = 0.883105 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 0.883105 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 35.842222 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 35.8422 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = -13.724333 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -13.7243 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 2.727889 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 2.72789 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 33.885727 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 33.8857 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -16.803636 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -16.8036 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -0.494636 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -0.494636 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 31.500636 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 31.5006 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -18.756364 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -18.7564 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 2.042182 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 2.04218 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 28.564455 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 28.5645 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -14.888636 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -14.8886 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 0.987091 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to 0.987091 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 30.013000 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 30.0130 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = -15.122571 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -15.1226 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = -3.175571 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -3.17557 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = 31.813909 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 31.8139 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -17.714545 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -17.7145 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 11 atoms have been selected out of 1042 SHOW: average of selected elements = -6.049273 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -6.04927 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = 33.605643 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 33.6056 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = -12.769000 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -12.7690 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 14 atoms have been selected out of 1042 SHOW: average of selected elements = -9.536286 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -9.53629 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 35.278714 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 35.2787 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = -15.482143 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -15.4821 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = -11.911857 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -11.9119 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = 34.943429 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 34.9434 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = -13.191286 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -13.1913 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 7 atoms have been selected out of 1042 SHOW: average of selected elements = -14.536286 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -14.5363 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 33.599600 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 33.5996 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = -13.454600 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -13.4546 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = -17.534000 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -17.5340 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = 33.616600 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 33.6166 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = -15.178000 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -15.1780 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 10 atoms have been selected out of 1042 SHOW: average of selected elements = -21.077500 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -21.0775 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = 32.501000 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 32.5010 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = -13.324600 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -13.3246 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 5 atoms have been selected out of 1042 SHOW: average of selected elements = -24.260600 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -24.2606 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 33.632556 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 33.6326 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = -11.373222 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -11.3732 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = -26.686889 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -26.6869 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = 33.940105 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 33.9401 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = -9.957368 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -9.95737 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 19 atoms have been selected out of 1042 SHOW: average of selected elements = -31.120421 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -31.1204 (real) CNSsolve> CNSsolve> do (x=$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 $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = 31.024333 CNSsolve> evaluate ($ave_x=$result) EVALUATE: symbol $AVE_X set to 31.0243 (real) CNSsolve> show ave(y) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = -13.898111 CNSsolve> evaluate ($ave_y=$result) EVALUATE: symbol $AVE_Y set to -13.8981 (real) CNSsolve> show ave(z) (byres(id $id) and known) SELRPN: 9 atoms have been selected out of 1042 SHOW: average of selected elements = -33.178667 CNSsolve> evaluate ($ave_z=$result) EVALUATE: symbol $AVE_Z set to -33.1787 (real) CNSsolve> CNSsolve> do (x=$ave_x) (byres(id $id) and store1) SELRPN: 11 atoms have been selected out of 1042 CNSsolve> do (y=$ave_y) (byres(id $id) and store1) SELRPN: 11 atoms have been selected out of 1042 CNSsolve> do (z=$ave_z) (byres(id $id) and store1) SELRPN: 11 atoms have been selected out of 1042 CNSsolve> CNSsolve> end loop avco CNSsolve> for $id in id (tag and byres(store1)) loop avco CNSsolve> CNSsolve> show ave(x) (byres(id $id) and known) CNSsolve> evaluate ($ave_x=$result) CNSsolve> show ave(y) (byres(id $id) and known) CNSsolve> evaluate ($ave_y=$result) CNSsolve> show ave(z) (byres(id $id) and known) CNSsolve> evaluate ($ave_z=$result) CNSsolve> CNSsolve> do (x=$ave_x) (byres(id $id) and store1) CNSsolve> do (y=$ave_y) (byres(id $id) and store1) CNSsolve> do (z=$ave_z) (byres(id $id) and store1) CNSsolve> CNSsolve> end loop avco CNSsolve> CNSsolve> do (x=x+random(2.0)) (store1) SELRPN: 512 atoms have been selected out of 1042 CNSsolve> do (y=y+random(2.0)) (store1) SELRPN: 512 atoms have been selected out of 1042 CNSsolve> do (z=z+random(2.0)) (store1) SELRPN: 512 atoms have been selected out of 1042 CNSsolve> CNSsolve> {- start parameter for the side chain building -} CNSsolve> parameter PARRDR> nbonds NBDSET> rcon=20. nbxmod=-2 repel=0.9 wmin=0.1 tolerance=1. NBDSET> rexp=2 irexp=2 inhibit=0.25 NBDSET> end PARRDR> end CNSsolve> CNSsolve> {- Friction coefficient, in 1/ps. -} CNSsolve> do (fbeta=100) (store1) SELRPN: 512 atoms have been selected out of 1042 CNSsolve> CNSsolve> evaluate ($bath=300.0) EVALUATE: symbol $BATH set to 300.000 (real) CNSsolve> evaluate ($nstep=500) EVALUATE: symbol $NSTEP set to 500.000 (real) CNSsolve> evaluate ($timestep=0.0005) EVALUATE: symbol $TIMESTEP set to 0.500000E-03 (real) CNSsolve> CNSsolve> do (refy=mass) (store1) SELRPN: 512 atoms have been selected out of 1042 CNSsolve> CNSsolve> do (mass=20) (store1) SELRPN: 512 atoms have been selected out of 1042 CNSsolve> CNSsolve> igroup interaction SELRPN> (store1) (store1 or known) SELRPN: 512 atoms have been selected out of 1042 SELRPN: 1042 atoms have been selected out of 1042 IGROup> end CNSsolve> CNSsolve> {- turn on initial energy terms -} CNSsolve> flags exclude * include bond angle vdw end CNSsolve> CNSsolve> minimize powell nstep=50 nprint=10 end POWELL: number of degrees of freedom= 1536 NBONDS: generating intra-molecular exclusion list with mode=-2 MAKINB: mode -2 found 512 exclusions and 0 interactions(1-4) %atoms " -10 -LEU -HD11" and " -10 -LEU -HD21" only 0.07 A apart %atoms " -19 -LEU -HB2 " and " -19 -LEU -HD11" only 0.05 A apart %atoms " -31 -LEU -HD11" and " -31 -LEU -HD22" only 0.09 A apart %atoms " -33 -THR -HB " and " -33 -THR -HG23" only 0.09 A apart %atoms " -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 39510 intra-atom interactions NBONDS: found 9 nonbonded violations NBONDS: found 36845 intra-atom interactions %atoms " -25 -PHE -HE2 " and " -25 -PHE -HZ " only 0.09 A apart NBONDS: found 34679 intra-atom interactions NBONDS: found 1 nonbonded violations NBONDS: found 33041 intra-atom interactions NBONDS: found 32592 intra-atom interactions --------------- cycle= 10 ------ stepsize= 0.0000 ----------------------- | Etotal =285703.577 grad(E)=621.046 E(BOND)=59944.326 E(ANGL)=133920.941 | | E(VDW )=91838.310 | ------------------------------------------------------------------------------- NBONDS: found 32920 intra-atom interactions NBONDS: found 33063 intra-atom interactions NBONDS: found 32880 intra-atom interactions --------------- cycle= 20 ------ stepsize= 0.0000 ----------------------- | Etotal =88726.920 grad(E)=333.599 E(BOND)=13288.031 E(ANGL)=30112.183 | | E(VDW )=45326.706 | ------------------------------------------------------------------------------- NBONDS: found 32914 intra-atom interactions NBONDS: found 32842 intra-atom interactions NBONDS: found 32856 intra-atom interactions --------------- cycle= 30 ------ stepsize= -0.0001 ----------------------- | Etotal =71872.629 grad(E)=299.073 E(BOND)=12404.935 E(ANGL)=20478.866 | | E(VDW )=38988.828 | ------------------------------------------------------------------------------- --------------- cycle= 40 ------ stepsize= -0.0003 ----------------------- | Etotal =71365.139 grad(E)=297.310 E(BOND)=12290.484 E(ANGL)=20282.297 | | E(VDW )=38792.359 | ------------------------------------------------------------------------------- --------------- cycle= 50 ------ stepsize= -0.0001 ----------------------- | Etotal =71252.011 grad(E)=297.394 E(BOND)=12323.366 E(ANGL)=20289.573 | | E(VDW )=38639.072 | ------------------------------------------------------------------------------- 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)=287074.460 E(kin)=475.307 temperature=311.439 | | Etotal =286599.153 grad(E)=769.935 E(BOND)=12323.366 E(ANGL)=20289.573 | | E(IMPR)=253986.214 | ------------------------------------------------------------------------------- -------------------- final step= 50 at 0.02500 ps --------------------- | E(kin)+E(total)=178956.096 E(kin)=32705.468 temperature=21429.870 | | Etotal =146250.628 grad(E)=401.299 E(BOND)=19735.461 E(ANGL)=54349.780 | | E(IMPR)=72165.386 | ------------------------------------------------------------------------------- CENMAS: Information about center of free masses position [A] : 25.96635 0.50672 4.61047 velocity [A/ps] : 1.97104 -0.90183 0.65871 ang. mom. [amu A/ps] : 82522.26189-155211.94803 153168.48220 kin. ener. [Kcal/mol] : 62.80311 CNSsolve> CNSsolve> flags include vdw end CNSsolve> CNSsolve> minimize powell nstep=50 nprint=10 end POWELL: number of degrees of freedom= 1536 NBONDS: found 32670 intra-atom interactions NBONDS: found 32515 intra-atom interactions NBONDS: found 32644 intra-atom interactions NBONDS: found 32618 intra-atom interactions --------------- cycle= 10 ------ stepsize= 0.0000 ----------------------- | Etotal =160847.568 grad(E)=502.445 E(BOND)=16168.177 E(ANGL)=43803.557 | | E(IMPR)=65638.082 E(VDW )=35237.752 | ------------------------------------------------------------------------------- --------------- cycle= 20 ------ stepsize= 0.0000 ----------------------- | Etotal =156677.744 grad(E)=348.299 E(BOND)=16123.427 E(ANGL)=43887.150 | | E(IMPR)=61254.654 E(VDW )=35412.514 | ------------------------------------------------------------------------------- --------------- cycle= 30 ------ stepsize= 0.0000 ----------------------- | Etotal =161038.122 grad(E)=507.582 E(BOND)=16124.684 E(ANGL)=43884.728 | | E(IMPR)=65621.216 E(VDW )=35407.495 | ------------------------------------------------------------------------------- --------------- cycle= 40 ------ stepsize= 0.0000 ----------------------- | Etotal =156671.580 grad(E)=348.305 E(BOND)=16124.680 E(ANGL)=43884.735 | | E(IMPR)=61254.654 E(VDW )=35407.511 | ------------------------------------------------------------------------------- --------------- cycle= 50 ------ stepsize= 0.0000 ----------------------- | Etotal =156671.578 grad(E)=348.305 E(BOND)=16124.680 E(ANGL)=43884.735 | | E(IMPR)=61254.654 E(VDW )=35407.510 | ------------------------------------------------------------------------------- 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)=157151.132 E(kin)=479.554 temperature=314.222 | | Etotal =156671.578 grad(E)=348.305 E(BOND)=16124.680 E(ANGL)=43884.735 | | E(IMPR)=61254.654 E(VDW )=35407.510 | ------------------------------------------------------------------------------- NBONDS: found 32651 intra-atom interactions NBONDS: found 32633 intra-atom interactions NBONDS: found 32669 intra-atom interactions NBONDS: found 32687 intra-atom interactions NBONDS: found 32712 intra-atom interactions -------------------- final step= 50 at 0.02500 ps --------------------- | E(kin)+E(total)=126929.655 E(kin)=12974.688 temperature=8501.510 | | Etotal =113954.968 grad(E)=332.379 E(BOND)=18203.932 E(ANGL)=19838.847 | | E(IMPR)=48954.901 E(VDW )=26957.288 | ------------------------------------------------------------------------------- CENMAS: Information about center of free masses position [A] : 25.96053 0.51678 4.61429 velocity [A/ps] : 0.41502 -0.09347 -0.43707 ang. mom. [amu A/ps] : -88017.81578 -13753.84932 -18295.28284 kin. ener. [Kcal/mol] : 4.55225 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 31576 intra-atom interactions NBONDS: found 31928 intra-atom interactions NBONDS: found 31939 intra-atom interactions NBONDS: found 31824 intra-atom interactions NBONDS: found 31899 intra-atom interactions --------------- cycle= 25 ------ stepsize= 0.0000 ----------------------- | Etotal =43949.754 grad(E)=149.875 E(BOND)=3151.984 E(ANGL)=16328.627 | | E(IMPR)=24454.637 E(VDW )=14.507 | ------------------------------------------------------------------------------- --------------- cycle= 50 ------ stepsize= 0.0000 ----------------------- | Etotal =43706.733 grad(E)=145.851 E(BOND)=3114.327 E(ANGL)=16266.171 | | E(IMPR)=24312.007 E(VDW )=14.228 | ------------------------------------------------------------------------------- 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)=44176.329 E(kin)=469.612 temperature=307.708 | | Etotal =43706.716 grad(E)=145.851 E(BOND)=3114.322 E(ANGL)=16266.163 | | E(IMPR)=24312.003 E(VDW )=14.228 | ------------------------------------------------------------------------------- NBONDS: found 31871 intra-atom interactions NBONDS: found 31879 intra-atom interactions NBONDS: found 31884 intra-atom interactions NBONDS: found 31879 intra-atom interactions NBONDS: found 31895 intra-atom interactions NBONDS: found 31881 intra-atom interactions NBONDS: found 31922 intra-atom interactions NBONDS: found 31932 intra-atom interactions NBONDS: found 31911 intra-atom interactions NBONDS: found 31883 intra-atom interactions NBONDS: found 31905 intra-atom interactions NBONDS: found 31928 intra-atom interactions NBONDS: found 31946 intra-atom interactions NBONDS: found 31966 intra-atom interactions NBONDS: found 31968 intra-atom interactions NBONDS: found 31987 intra-atom interactions NBONDS: found 31978 intra-atom interactions NBONDS: found 31992 intra-atom interactions NBONDS: found 32003 intra-atom interactions NBONDS: found 32016 intra-atom interactions NBONDS: found 31990 intra-atom interactions NBONDS: found 31999 intra-atom interactions NBONDS: found 31993 intra-atom interactions NBONDS: found 31997 intra-atom interactions NBONDS: found 32015 intra-atom interactions NBONDS: found 32015 intra-atom interactions NBONDS: found 31997 intra-atom interactions NBONDS: found 31968 intra-atom interactions NBONDS: found 31983 intra-atom interactions NBONDS: found 31985 intra-atom interactions NBONDS: found 31981 intra-atom interactions NBONDS: found 31982 intra-atom interactions NBONDS: found 31963 intra-atom interactions NBONDS: found 31952 intra-atom interactions NBONDS: found 31946 intra-atom interactions NBONDS: found 31952 intra-atom interactions NBONDS: found 31976 intra-atom interactions NBONDS: found 31965 intra-atom interactions NBONDS: found 31983 intra-atom interactions NBONDS: found 32002 intra-atom interactions NBONDS: found 31988 intra-atom interactions NBONDS: found 31973 intra-atom interactions NBONDS: found 31933 intra-atom interactions NBONDS: found 31924 intra-atom interactions NBONDS: found 31924 intra-atom interactions NBONDS: found 31945 intra-atom interactions NBONDS: found 31973 intra-atom interactions NBONDS: found 31997 intra-atom interactions NBONDS: found 32019 intra-atom interactions NBONDS: found 32000 intra-atom interactions -------------------- final step= 500 at 0.25000 ps --------------------- | E(kin)+E(total)=14188.843 E(kin)=3346.202 temperature=2192.559 | | Etotal =10842.641 grad(E)=438.680 E(BOND)=1327.596 E(ANGL)=1492.584 | | E(IMPR)=8022.376 E(VDW )=0.086 | ------------------------------------------------------------------------------- CENMAS: Information about center of free masses position [A] : 25.95426 0.51324 4.61730 velocity [A/ps] : 0.18343 0.53769 0.53310 ang. mom. [amu A/ps] : 45808.09872 -1473.63322 64998.95951 kin. ener. [Kcal/mol] : 7.42743 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 31947 intra-atom interactions NBONDS: found 31967 intra-atom interactions --------------- cycle= 50 ------ stepsize= 0.0000 ----------------------- | Etotal =4089.121 grad(E)=79.864 E(BOND)=98.376 E(ANGL)=1734.404 | | E(DIHE)=34.923 E(IMPR)=2169.874 E(VDW )=51.545 | ------------------------------------------------------------------------------- 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)=4532.346 E(kin)=443.225 temperature=290.418 | | Etotal =4089.121 grad(E)=79.864 E(BOND)=98.376 E(ANGL)=1734.404 | | E(DIHE)=34.923 E(IMPR)=2169.874 E(VDW )=51.545 | ------------------------------------------------------------------------------- NBONDS: found 31959 intra-atom interactions NBONDS: found 31927 intra-atom interactions NBONDS: found 31955 intra-atom interactions NBONDS: found 31946 intra-atom interactions NBONDS: found 31946 intra-atom interactions NBONDS: found 31948 intra-atom interactions NBONDS: found 31935 intra-atom interactions NBONDS: found 31922 intra-atom interactions NBONDS: found 31897 intra-atom interactions NBONDS: found 31892 intra-atom interactions NBONDS: found 31890 intra-atom interactions NBONDS: found 31916 intra-atom interactions NBONDS: found 31940 intra-atom interactions NBONDS: found 31965 intra-atom interactions NBONDS: found 31966 intra-atom interactions NBONDS: found 31945 intra-atom interactions NBONDS: found 31913 intra-atom interactions NBONDS: found 31903 intra-atom interactions NBONDS: found 31934 intra-atom interactions NBONDS: found 31974 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 31977 intra-atom interactions NBONDS: found 31973 intra-atom interactions NBONDS: found 31937 intra-atom interactions NBONDS: found 31903 intra-atom interactions NBONDS: found 31878 intra-atom interactions NBONDS: found 31883 intra-atom interactions NBONDS: found 31913 intra-atom interactions NBONDS: found 31932 intra-atom interactions NBONDS: found 31948 intra-atom interactions NBONDS: found 31977 intra-atom interactions NBONDS: found 31985 intra-atom interactions NBONDS: found 31999 intra-atom interactions NBONDS: found 31968 intra-atom interactions NBONDS: found 31950 intra-atom interactions NBONDS: found 31926 intra-atom interactions NBONDS: found 31917 intra-atom interactions NBONDS: found 31940 intra-atom interactions NBONDS: found 31974 intra-atom interactions NBONDS: found 31994 intra-atom interactions NBONDS: found 32001 intra-atom interactions NBONDS: found 32003 intra-atom interactions NBONDS: found 31999 intra-atom interactions NBONDS: found 32003 intra-atom interactions NBONDS: found 32006 intra-atom interactions NBONDS: found 31994 intra-atom interactions NBONDS: found 31986 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 31941 intra-atom interactions NBONDS: found 31920 intra-atom interactions NBONDS: found 31921 intra-atom interactions NBONDS: found 31960 intra-atom interactions NBONDS: found 31984 intra-atom interactions NBONDS: found 32006 intra-atom interactions NBONDS: found 32005 intra-atom interactions NBONDS: found 32011 intra-atom interactions NBONDS: found 32008 intra-atom interactions NBONDS: found 32002 intra-atom interactions NBONDS: found 31979 intra-atom interactions NBONDS: found 31947 intra-atom interactions NBONDS: found 31966 intra-atom interactions NBONDS: found 31983 intra-atom interactions NBONDS: found 31988 intra-atom interactions NBONDS: found 32003 intra-atom interactions NBONDS: found 31987 intra-atom interactions NBONDS: found 31967 intra-atom interactions NBONDS: found 31948 intra-atom interactions NBONDS: found 31937 intra-atom interactions NBONDS: found 31947 intra-atom interactions NBONDS: found 31942 intra-atom interactions NBONDS: found 31959 intra-atom interactions NBONDS: found 31952 intra-atom interactions NBONDS: found 31959 intra-atom interactions NBONDS: found 31945 intra-atom interactions NBONDS: found 31944 intra-atom interactions NBONDS: found 31937 intra-atom interactions NBONDS: found 31956 intra-atom interactions NBONDS: found 31976 intra-atom interactions NBONDS: found 31997 intra-atom interactions NBONDS: found 31984 intra-atom interactions NBONDS: found 31955 intra-atom interactions NBONDS: found 31954 intra-atom interactions NBONDS: found 31964 intra-atom interactions NBONDS: found 31960 intra-atom interactions NBONDS: found 31961 intra-atom interactions NBONDS: found 31982 intra-atom interactions NBONDS: found 31997 intra-atom interactions NBONDS: found 31974 intra-atom interactions NBONDS: found 31942 intra-atom interactions NBONDS: found 31931 intra-atom interactions NBONDS: found 31922 intra-atom interactions NBONDS: found 31908 intra-atom interactions NBONDS: found 31915 intra-atom interactions NBONDS: found 31939 intra-atom interactions NBONDS: found 31954 intra-atom interactions NBONDS: found 31976 intra-atom interactions NBONDS: found 31998 intra-atom interactions NBONDS: found 32017 intra-atom interactions NBONDS: found 31998 intra-atom interactions NBONDS: found 31988 intra-atom interactions NBONDS: found 31970 intra-atom interactions NBONDS: found 31956 intra-atom interactions NBONDS: found 31930 intra-atom interactions NBONDS: found 31918 intra-atom interactions NBONDS: found 31913 intra-atom interactions NBONDS: found 31939 intra-atom interactions NBONDS: found 31949 intra-atom interactions NBONDS: found 31955 intra-atom interactions NBONDS: found 31957 intra-atom interactions NBONDS: found 31946 intra-atom interactions NBONDS: found 31954 intra-atom interactions NBONDS: found 31986 intra-atom interactions NBONDS: found 31999 intra-atom interactions NBONDS: found 31982 intra-atom interactions NBONDS: found 31976 intra-atom interactions NBONDS: found 31962 intra-atom interactions NBONDS: found 31929 intra-atom interactions NBONDS: found 31919 intra-atom interactions NBONDS: found 31923 intra-atom interactions NBONDS: found 31941 intra-atom interactions NBONDS: found 31947 intra-atom interactions NBONDS: found 31947 intra-atom interactions NBONDS: found 31910 intra-atom interactions NBONDS: found 31900 intra-atom interactions NBONDS: found 31901 intra-atom interactions NBONDS: found 31936 intra-atom interactions NBONDS: found 31961 intra-atom interactions NBONDS: found 31990 intra-atom interactions NBONDS: found 31993 intra-atom interactions NBONDS: found 31992 intra-atom interactions NBONDS: found 31979 intra-atom interactions NBONDS: found 31946 intra-atom interactions NBONDS: found 31932 intra-atom interactions NBONDS: found 31927 intra-atom interactions NBONDS: found 31913 intra-atom interactions NBONDS: found 31924 intra-atom interactions NBONDS: found 31946 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 32013 intra-atom interactions NBONDS: found 32004 intra-atom interactions NBONDS: found 31990 intra-atom interactions NBONDS: found 31971 intra-atom interactions NBONDS: found 31959 intra-atom interactions NBONDS: found 31943 intra-atom interactions NBONDS: found 31943 intra-atom interactions NBONDS: found 31957 intra-atom interactions NBONDS: found 31948 intra-atom interactions NBONDS: found 31928 intra-atom interactions NBONDS: found 31914 intra-atom interactions NBONDS: found 31919 intra-atom interactions NBONDS: found 31923 intra-atom interactions NBONDS: found 31932 intra-atom interactions NBONDS: found 31958 intra-atom interactions NBONDS: found 31955 intra-atom interactions NBONDS: found 31939 intra-atom interactions NBONDS: found 31917 intra-atom interactions NBONDS: found 31918 intra-atom interactions NBONDS: found 31933 intra-atom interactions NBONDS: found 31948 intra-atom interactions NBONDS: found 31964 intra-atom interactions NBONDS: found 31980 intra-atom interactions NBONDS: found 31981 intra-atom interactions NBONDS: found 31982 intra-atom interactions NBONDS: found 32010 intra-atom interactions NBONDS: found 32016 intra-atom interactions NBONDS: found 31987 intra-atom interactions NBONDS: found 31963 intra-atom interactions NBONDS: found 31931 intra-atom interactions NBONDS: found 31905 intra-atom interactions NBONDS: found 31913 intra-atom interactions NBONDS: found 31910 intra-atom interactions NBONDS: found 31918 intra-atom interactions NBONDS: found 31939 intra-atom interactions NBONDS: found 31964 intra-atom interactions NBONDS: found 31966 intra-atom interactions NBONDS: found 31985 intra-atom interactions NBONDS: found 31986 intra-atom interactions NBONDS: found 31972 intra-atom interactions NBONDS: found 31944 intra-atom interactions NBONDS: found 31904 intra-atom interactions NBONDS: found 31888 intra-atom interactions NBONDS: found 31889 intra-atom interactions NBONDS: found 31916 intra-atom interactions NBONDS: found 31935 intra-atom interactions NBONDS: found 31974 intra-atom interactions NBONDS: found 31994 intra-atom interactions NBONDS: found 31993 intra-atom interactions NBONDS: found 31980 intra-atom interactions NBONDS: found 31956 intra-atom interactions NBONDS: found 31979 intra-atom interactions NBONDS: found 31982 intra-atom interactions NBONDS: found 31959 intra-atom interactions NBONDS: found 31949 intra-atom interactions NBONDS: found 31955 intra-atom interactions NBONDS: found 31973 intra-atom interactions NBONDS: found 31980 intra-atom interactions NBONDS: found 31985 intra-atom interactions NBONDS: found 31987 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 31935 intra-atom interactions NBONDS: found 31917 intra-atom interactions NBONDS: found 31910 intra-atom interactions NBONDS: found 31917 intra-atom interactions NBONDS: found 31914 intra-atom interactions NBONDS: found 31921 intra-atom interactions NBONDS: found 31917 intra-atom interactions NBONDS: found 31918 intra-atom interactions NBONDS: found 31926 intra-atom interactions NBONDS: found 31954 intra-atom interactions NBONDS: found 32010 intra-atom interactions NBONDS: found 32052 intra-atom interactions NBONDS: found 32092 intra-atom interactions NBONDS: found 32083 intra-atom interactions NBONDS: found 32058 intra-atom interactions NBONDS: found 32021 intra-atom interactions NBONDS: found 31969 intra-atom interactions NBONDS: found 31939 intra-atom interactions NBONDS: found 31912 intra-atom interactions NBONDS: found 31891 intra-atom interactions NBONDS: found 31896 intra-atom interactions NBONDS: found 31908 intra-atom interactions NBONDS: found 31950 intra-atom interactions NBONDS: found 31988 intra-atom interactions NBONDS: found 32032 intra-atom interactions NBONDS: found 32078 intra-atom interactions NBONDS: found 32077 intra-atom interactions NBONDS: found 32062 intra-atom interactions NBONDS: found 32033 intra-atom interactions NBONDS: found 31999 intra-atom interactions NBONDS: found 31967 intra-atom interactions NBONDS: found 31937 intra-atom interactions NBONDS: found 31908 intra-atom interactions NBONDS: found 31891 intra-atom interactions NBONDS: found 31894 intra-atom interactions NBONDS: found 31902 intra-atom interactions NBONDS: found 31955 intra-atom interactions NBONDS: found 32004 intra-atom interactions NBONDS: found 32019 intra-atom interactions NBONDS: found 32042 intra-atom interactions NBONDS: found 32027 intra-atom interactions NBONDS: found 31997 intra-atom interactions NBONDS: found 31967 intra-atom interactions NBONDS: found 31927 intra-atom interactions NBONDS: found 31907 intra-atom interactions NBONDS: found 31883 intra-atom interactions NBONDS: found 31889 intra-atom interactions NBONDS: found 31906 intra-atom interactions NBONDS: found 31929 intra-atom interactions NBONDS: found 31954 intra-atom interactions NBONDS: found 31995 intra-atom interactions NBONDS: found 32036 intra-atom interactions NBONDS: found 32053 intra-atom interactions NBONDS: found 32058 intra-atom interactions NBONDS: found 32055 intra-atom interactions NBONDS: found 32022 intra-atom interactions NBONDS: found 31999 intra-atom interactions NBONDS: found 31979 intra-atom interactions NBONDS: found 31957 intra-atom interactions NBONDS: found 31931 intra-atom interactions NBONDS: found 31908 intra-atom interactions NBONDS: found 31893 intra-atom interactions NBONDS: found 31904 intra-atom interactions NBONDS: found 31925 intra-atom interactions NBONDS: found 31943 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 32005 intra-atom interactions NBONDS: found 32021 intra-atom interactions NBONDS: found 32016 intra-atom interactions NBONDS: found 32000 intra-atom interactions NBONDS: found 31977 intra-atom interactions NBONDS: found 31954 intra-atom interactions NBONDS: found 31943 intra-atom interactions NBONDS: found 31933 intra-atom interactions NBONDS: found 31933 intra-atom interactions NBONDS: found 31927 intra-atom interactions NBONDS: found 31924 intra-atom interactions NBONDS: found 31930 intra-atom interactions NBONDS: found 31940 intra-atom interactions NBONDS: found 31963 intra-atom interactions NBONDS: found 31994 intra-atom interactions NBONDS: found 32028 intra-atom interactions NBONDS: found 32051 intra-atom interactions NBONDS: found 32026 intra-atom interactions NBONDS: found 32009 intra-atom interactions NBONDS: found 31991 intra-atom interactions NBONDS: found 31976 intra-atom interactions NBONDS: found 31963 intra-atom interactions NBONDS: found 31938 intra-atom interactions NBONDS: found 31942 intra-atom interactions NBONDS: found 31943 intra-atom interactions NBONDS: found 31964 intra-atom interactions NBONDS: found 31985 intra-atom interactions NBONDS: found 31998 intra-atom interactions NBONDS: found 32002 intra-atom interactions NBONDS: found 31996 intra-atom interactions NBONDS: found 31982 intra-atom interactions NBONDS: found 31978 intra-atom interactions NBONDS: found 31973 intra-atom interactions NBONDS: found 31973 intra-atom interactions NBONDS: found 31976 intra-atom interactions NBONDS: found 31964 intra-atom interactions NBONDS: found 31966 intra-atom interactions NBONDS: found 31971 intra-atom interactions NBONDS: found 31990 intra-atom interactions NBONDS: found 32007 intra-atom interactions NBONDS: found 31990 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 31965 intra-atom interactions NBONDS: found 31963 intra-atom interactions NBONDS: found 31960 intra-atom interactions NBONDS: found 31969 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 31975 intra-atom interactions NBONDS: found 31984 intra-atom interactions NBONDS: found 31977 intra-atom interactions NBONDS: found 31980 intra-atom interactions NBONDS: found 31979 intra-atom interactions NBONDS: found 31961 intra-atom interactions NBONDS: found 31944 intra-atom interactions NBONDS: found 31941 intra-atom interactions NBONDS: found 31947 intra-atom interactions NBONDS: found 31950 intra-atom interactions NBONDS: found 31978 intra-atom interactions -------------------- final step= 500 at 0.25000 ps --------------------- | E(kin)+E(total)=30381.248 E(kin)=6031.476 temperature=3952.053 | | Etotal =24349.772 grad(E)=274.121 E(BOND)=18244.700 E(ANGL)=2883.673 | | E(DIHE)=3.016 E(IMPR)=3143.456 E(VDW )=74.927 | ------------------------------------------------------------------------------- CENMAS: Information about center of free masses position [A] : 26.38185 -0.29133 2.56168 velocity [A/ps] : 0.33349 -1.64143 -2.93814 ang. mom. [amu A/ps] : -21636.23259 -7246.49927 -4190.16068 kin. ener. [Kcal/mol] : 7.46433 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 31981 intra-atom interactions NBONDS: found 31984 intra-atom interactions NBONDS: found 31996 intra-atom interactions NBONDS: found 31985 intra-atom interactions --------------- cycle= 50 ------ stepsize= 0.0000 ----------------------- | Etotal =5311.758 grad(E)=285.261 E(BOND)=130.991 E(ANGL)=1431.162 | | E(DIHE)=3.016 E(IMPR)=3698.340 E(VDW )=48.250 | ------------------------------------------------------------------------------- POWELL: Line search terminated POWELL: Current coordinates set to last minimum CNSsolve> CNSsolve> print thres=0.02 bonds (atom-i |atom-j ) dist. equil. delta energy const. ( 17 NE | 17 HE ) 1.106 0.980 0.126 15.809 1000.000 ( 23 NE | 23 HE ) 1.190 0.980 0.210 44.290 1000.000 ( 36 NE | 36 HE ) 0.938 0.980 -0.042 1.804 1000.000 ( 43 NE | 43 HE ) 1.108 0.980 0.128 16.504 1000.000 ( 59 NE | 59 HE ) 1.208 0.980 0.228 51.892 1000.000 Number of violations greater 0.020: 5 RMS deviation= 0.016 CNSsolve> print thres=5. angles (atom-i |atom-j |atom-k ) angle equil. delta energy const. ( 17 CD | 17 NE | 17 HE ) 91.705 118.099 -26.394 106.104 500.000 ( 17 HE | 17 NE | 17 CZ ) 144.211 119.249 24.962 94.902 500.000 ( 23 CD | 23 NE | 23 HE ) 70.958 118.099 -47.141 338.465 500.000 ( 23 HE | 23 NE | 23 CZ ) 135.395 119.249 16.146 39.704 500.000 ( 36 CD | 36 NE | 36 HE ) 73.019 118.099 -45.079 309.514 500.000 ( 36 HE | 36 NE | 36 CZ ) 137.117 119.249 17.868 48.626 500.000 ( 43 CD | 43 NE | 43 HE ) 91.424 118.099 -26.674 108.371 500.000 ( 43 HE | 43 NE | 43 CZ ) 143.074 119.249 23.825 86.458 500.000 ( 59 CD | 59 NE | 59 HE ) 77.828 118.099 -40.271 247.002 500.000 Number of violations greater 5.000: 9 RMS deviation= 2.834 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_19_cns.pdb opened. CNSsolve> CNSsolve>stop HEAP: maximum use = 667548 current use = 0 bytes HEAP: maximum overhead = 744 current overhead = 64 bytes ============================================================ Maximum dynamic memory allocation: 667548 bytes Maximum dynamic memory overhead: 744 bytes Program started at: 23:04:32 on 23-Mar-05 Program stopped at: 23:04:41 on 23-Mar-05 CPU time used: 9.4700 seconds ============================================================