***    ***
output from eigenvector calculation:
STDOUT:
CUTOFF set to default value (CUTOFF=8)
Build Tirion matrix:
Pdbmat> Computes the Hessian matrix, using an Elastic Network Model.
Pdbmat> Version 3.50, Fevrier 2004.
Pdbmat> Options to be read in pdbmat.dat file.
Pdbmat> Coordinate filename = 2403041038051524752.atom
Pdbmat> Distance cutoff = 8.00
Force constant = 10.00
Origin of mass values = CONS
Pdbmat> Levelshift = 1.0E-09
PRINTing level = 2
Pdbmat> Coordinate file 2403041038051524752.atom to be opened.
Openam> File opened: 2403041038051524752.atom
Pdbmat> Coordinate file in PDB format.
Rdatompdb> Reading pdb file.
Rdatompdb> End of file reached.
Rdatompdb> Number of I/O errors: 0
Rdatompdb> Number of residues found = 219
First residue number = 1
Last residue number = 219
Number of atoms found = 219
Mean number per residue = 1.0
Pdbmat> Coordinate statistics:
= 45.568836 +/- 13.410446 From: 19.495000 To: 73.845000
= 48.389292 +/- 13.218185 From: 19.835000 To: 73.505000
= 47.378744 +/- 8.828885 From: 26.965000 To: 66.375000
Pdbmat> Masses are all set to one.
Openam> File opened: pdbmat.xyzm
Pdbmat> Coordinates and masses considered are saved.
Openam> File opened: pdbmat.sdijb
Pdbmat> Matrix statistics:
Pdbmat> The matrix is 4.7082 % Filled.
Pdbmat> 10177 non-zero elements.
Pdbmat> 987 atom-atom interactions.
Pdbmat> Number per atom= 9.01 +/- 2.85
Maximum number = 17
Minimum number = 4
Pdbmat> Matrix trace = 19740.0
Pdbmat> Larger element = 65.5456
Pdbmat> 0 elements larger than +/- 1.0E+10
Pdbmat> Normal end.
automatic determination of NRBL (NRBL = nresidues/200 + 1)
219 non-zero elements, NRBL set to 2
Diagonalize Tirion matrix using diagrtb
Diagrtb> Diagonalizes a matrix, using the RTB/BNM approximation.
Diagrtb> Version 2.52, November 2004.
Diagrtb> Options to be read in diagrtb.dat file.
Diagrtb> Options taken into account:
MATRix filename = pdbmat.sdijb
COORdinates filename = 2403041038051524752.atom
Eigenvector OUTPut file = matrix.eigenrtb
Nb of VECTors required = 106
EigeNVALues chosen = LOWE
Type of SUBStructuring = NONE
Nb of residues per BLOck = 2
Origin of MASS values = CONS
MATRix FORMat = BINA
Temporary files cleaning = ALL
Output PRINting level = 2
Diagrtb> Memory allocation for Blocpdb.
Blocpdb> Entering in.
Openam> file on opening on unit 10:
diagrtb_work.xyzm
Blocpdb> Coordinate file 2403041038051524752.atom to be opened.
Openam> file on opening on unit 11:
2403041038051524752.atom
Blocpdb> Coordinate file in PDB format.
Blocpdb> 219 atoms picked in pdb file.
Blocpdb> All masses set to unity.
Blocpdb> Coordinate file is rewritten.
Blocpdb> Substructuring:
Blocpdb> 2 residue(s) per block.
Blocpdb> 219 residues.
%Blocpdb-Wn> 2 atoms in block 1 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 2th, in residue A 2
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 1
Block first atom: 1
%Blocpdb-Wn> 2 atoms in block 2 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 6th, in residue A 6
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 2
Block first atom: 5
%Blocpdb-Wn> 2 atoms in block 3 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 10th, in residue A 10
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 3
Block first atom: 9
%Blocpdb-Wn> 2 atoms in block 4 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 14th, in residue A 14
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 4
Block first atom: 13
%Blocpdb-Wn> 2 atoms in block 5 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 18th, in residue A 18
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 5
Block first atom: 17
%Blocpdb-Wn> 2 atoms in block 6 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 22th, in residue A 22
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 6
Block first atom: 21
%Blocpdb-Wn> 2 atoms in block 7 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 26th, in residue A 26
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 7
Block first atom: 25
%Blocpdb-Wn> 2 atoms in block 8 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 30th, in residue A 30
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 8
Block first atom: 29
%Blocpdb-Wn> 2 atoms in block 9 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 34th, in residue A 34
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 9
Block first atom: 33
%Blocpdb-Wn> 2 atoms in block 10 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 38th, in residue A 38
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 10
Block first atom: 37
%Blocpdb-Wn> 2 atoms in block 11 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 42th, in residue A 42
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 11
Block first atom: 41
%Blocpdb-Wn> 2 atoms in block 12 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 46th, in residue A 46
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 12
Block first atom: 45
%Blocpdb-Wn> 2 atoms in block 13 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 50th, in residue A 50
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 13
Block first atom: 49
%Blocpdb-Wn> 2 atoms in block 14 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 54th, in residue A 54
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 14
Block first atom: 53
%Blocpdb-Wn> 2 atoms in block 15 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 58th, in residue A 58
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 15
Block first atom: 57
%Blocpdb-Wn> 2 atoms in block 16 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 62th, in residue A 62
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 16
Block first atom: 61
%Blocpdb-Wn> 2 atoms in block 17 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 66th, in residue A 66
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 17
Block first atom: 65
%Blocpdb-Wn> 2 atoms in block 18 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 70th, in residue A 70
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 18
Block first atom: 69
%Blocpdb-Wn> 2 atoms in block 19 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 74th, in residue A 74
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 19
Block first atom: 73
%Blocpdb-Wn> 2 atoms in block 20 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 78th, in residue A 78
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 20
Block first atom: 77
%Blocpdb-Wn> 2 atoms in block 21 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 82th, in residue A 82
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 21
Block first atom: 81
%Blocpdb-Wn> 2 atoms in block 22 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 86th, in residue A 86
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 22
Block first atom: 85
%Blocpdb-Wn> 2 atoms in block 23 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 90th, in residue A 90
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 23
Block first atom: 89
%Blocpdb-Wn> 2 atoms in block 24 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 94th, in residue A 94
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 24
Block first atom: 93
%Blocpdb-Wn> 2 atoms in block 25 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 98th, in residue A 98
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 25
Block first atom: 97
%Blocpdb-Wn> 2 atoms in block 26 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 102th, in residue A 102
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 26
Block first atom: 101
%Blocpdb-Wn> 2 atoms in block 27 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 106th, in residue A 106
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 27
Block first atom: 105
%Blocpdb-Wn> 2 atoms in block 28 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 110th, in residue A 110
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 28
Block first atom: 109
%Blocpdb-Wn> 2 atoms in block 29 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 114th, in residue A 114
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 29
Block first atom: 113
%Blocpdb-Wn> 2 atoms in block 30 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 118th, in residue A 118
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 30
Block first atom: 117
%Blocpdb-Wn> 2 atoms in block 31 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 122th, in residue A 122
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 31
Block first atom: 121
%Blocpdb-Wn> 2 atoms in block 32 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 126th, in residue A 126
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 32
Block first atom: 125
%Blocpdb-Wn> 2 atoms in block 33 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 130th, in residue A 130
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 33
Block first atom: 129
%Blocpdb-Wn> 2 atoms in block 34 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 134th, in residue A 134
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 34
Block first atom: 133
%Blocpdb-Wn> 2 atoms in block 35 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 138th, in residue A 138
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 35
Block first atom: 137
%Blocpdb-Wn> 2 atoms in block 36 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 142th, in residue A 142
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 36
Block first atom: 141
%Blocpdb-Wn> 2 atoms in block 37 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 146th, in residue A 146
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 37
Block first atom: 145
%Blocpdb-Wn> 2 atoms in block 38 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 150th, in residue A 150
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 38
Block first atom: 149
%Blocpdb-Wn> 2 atoms in block 39 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 154th, in residue A 154
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 39
Block first atom: 153
%Blocpdb-Wn> 2 atoms in block 40 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 158th, in residue A 158
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 40
Block first atom: 157
%Blocpdb-Wn> 2 atoms in block 41 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 162th, in residue A 162
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 41
Block first atom: 161
%Blocpdb-Wn> 2 atoms in block 42 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 166th, in residue A 166
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 42
Block first atom: 165
%Blocpdb-Wn> 2 atoms in block 43 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 170th, in residue A 170
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 43
Block first atom: 169
%Blocpdb-Wn> 2 atoms in block 44 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 174th, in residue A 174
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 44
Block first atom: 173
%Blocpdb-Wn> 2 atoms in block 45 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 178th, in residue A 178
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 45
Block first atom: 177
%Blocpdb-Wn> 2 atoms in block 46 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 182th, in residue A 182
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 46
Block first atom: 181
%Blocpdb-Wn> 2 atoms in block 47 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 186th, in residue A 186
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 47
Block first atom: 185
%Blocpdb-Wn> 2 atoms in block 48 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 190th, in residue A 190
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 48
Block first atom: 189
%Blocpdb-Wn> 2 atoms in block 49 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 194th, in residue A 194
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 49
Block first atom: 193
%Blocpdb-Wn> 2 atoms in block 50 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 198th, in residue A 198
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 50
Block first atom: 197
%Blocpdb-Wn> 2 atoms in block 51 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 202th, in residue A 202
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 51
Block first atom: 201
%Blocpdb-Wn> 2 atoms in block 52 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 206th, in residue A 206
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 52
Block first atom: 205
%Blocpdb-Wn> 2 atoms in block 53 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 210th, in residue A 210
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 53
Block first atom: 209
%Blocpdb-Wn> 2 atoms in block 54 i.e., less than what is required for a rigid body.
%Blocpdb-Wn> Last atom in this block is the 214th, in residue A 214
%Blocpdb-Wn> It will be merged with next block.
Blocpdb> 4 atoms in block 54
Block first atom: 213
Blocpdb> 3 atoms in block 55
Block first atom: 216
Blocpdb> 55 blocks.
Blocpdb> At most, 4 atoms in each of them.
Blocpdb> At least, 3 atoms in each of them.
Blocpdb> Normal end of Blocpdb.
Diagrtb> Memory allocation for Prepmat.
Diagrtb> Memory allocation for RTB.
Diagrtb> Memory allocation for Diagstd.
Diagrtb> Memory allocation for RTB_to_modes.
Prepmat> Entering in.
Prepmat> Rewriting of the matrix begins.
Prepmat> 10232 matrix lines read.
Prepmat> Matrix order = 657
Prepmat> Matrix trace = 19740.0000
Prepmat> Last element read: 657 657 29.4627
Prepmat> 1541 lines saved.
Prepmat> 1334 empty lines.
Prepmat> Number of lines on output is as expected.
Prepmat> Normal end of Prepmat.
RTB> Entering in.
RTB> Number of atoms found in temporary coordinate file: 219
RTB> Total mass = 219.0000
RTB> Number of atoms found in matrix: 219
RTB> Number of blocks = 55
RTB> Projection begins.
RTB> Projected matrix is being saved.
RTB> Projected matrix trace = 7361.1657
RTB> 6591 non-zero elements.
RTB> Normal end of RTB.
Diagstd> Entering in.
Openam> file on opening on unit 10:
diagrtb_work.sdijb
Diagstd> Projected matrix to be read from file: diagrtb_work.sdijb
Diagstd> CERFACS matrix format.
Diagstd> Projected matrix order = 330
Diagstd> Nb of non-zero elements: 6591
Diagstd> Projected matrix trace = 7361.1657
Openam> file on opening on unit 11:
diagrtb_work.eigenfacs
Diagstd> Diagonalization.
Diagstd> 330 eigenvectors are computed.
Diagstd> 106 of them to be saved.
Diagstd> Sum of eigenvalues = 7361.1657
Diagstd> Best zero-eigenvalue found : 0.000000
Diagstd> 6 zero-eigenvalues, that is, below or equal to: 0.0000000
Diagstd> Selected eigenvalues:
0.0000000 0.0000000 0.0000000 0.0000000 0.0000000
0.0000000 0.0058317 0.0122850 0.0170348 0.0202816
0.0274106 0.0414918 0.0699601 0.0946631 0.1203288
0.1336890 0.1696403 0.1915657 0.2471324 0.2852180
0.3229254 0.3756190 0.4124668 0.4301160 0.4619104
0.5465236 0.6164117 0.6464905 0.6636524 0.7088443
0.8046628 0.9047283 0.9750752 1.0464574 1.0916154
1.1172666 1.1848027 1.2055365 1.3244346 1.3328851
1.5064965 1.5351462 1.6507969 1.6879469 1.7796071
1.7950536 1.8056423 2.0374099 2.2673510 2.3244327
2.3929593 2.5045398 2.5791060 2.7458955 2.8519633
2.9178661 3.0310503 3.0973693 3.1471785 3.2326571
3.3441370 3.3491975 3.5761008 3.7224145 3.8665998
3.9556733 4.0838620 4.1737895 4.2976026 4.4078971
4.4607399 4.5621429 4.6438267 4.7895144 5.0344829
5.0755699 5.2012488 5.3256251 5.3994035 5.4432585
5.5480157 5.6512102 5.8529703 6.1196603 6.1292332
6.3150792 6.3424293 6.5311869 6.6042010 6.6471258
6.9781065 7.0750252 7.1914440 7.3114627 7.3630495
7.4762869 7.6175105 7.7682777 7.9645178 8.1093201
8.2431921 8.2982874 8.5711394 8.7900218 8.8841643
9.0511185
Diagstd> Frequencies (cm-1, if the input matrix is a hessian in CHARMM units):
0.0034339 0.0034339 0.0034340 0.0034340 0.0034340
0.0034340 8.2926735 12.0359993 14.1730497 15.4648785
17.9785597 22.1195679 28.7223901 33.4107053 37.6686542
39.7048090 44.7259780 47.5285003 53.9833846 57.9940900
61.7086950 66.5532202 69.7412594 71.2177248 73.8030224
80.2785890 85.2571282 87.3124835 88.4638074 91.4262101
97.4097064 103.2890687 107.2295119 111.0851656 113.4566883
114.7819735 118.2002234 119.2299794 124.9713737 125.3694273
133.2844049 134.5458029 139.5218093 141.0829933 144.8629568
145.4902828 145.9187623 155.0009965 163.5138915 165.5593713
167.9820735 171.8538424 174.3933312 179.9439628 183.3864521
185.4931840 189.0566032 191.1136794 192.6442127 195.2428330
198.5808249 198.7310186 205.3525771 209.5113944 213.5304875
215.9759971 219.4475872 221.8505714 225.1170595 227.9874837
229.3499920 231.9421728 234.0093890 237.6517525 243.6535348
244.6457570 247.6561374 250.5997167 252.3295843 253.3522475
255.7785505 258.1463628 262.7141360 268.6327378 268.8427643
272.8881524 273.4784425 277.5181155 279.0650316 279.9704726
286.8560906 288.8412905 291.2080205 293.6279653 294.6620050
296.9191847 299.7103992 302.6618280 306.4608657 309.2341875
311.7762228 312.8164016 317.9175912 321.9513539 323.6708378
326.6979476
Diagstd> Normal end.
Rtb_to_modes> Entering in.
Rtb_to_modes> Number of atoms in temporary block-file = 219
Rtb_to_modes> Number of blocs = 55
Openam> file on opening on unit 10:
diagrtb_work.eigenfacs
Openam> file on opening on unit 11:
matrix.eigenrtb
Rdmodfacs> Entering in.
Rdmodfacs> Old Blzpack file format detected.
Rdmodfacs> Eigenvector number: 1
Rdmodfacs> Corresponding eigenvalue: 9.9995E-10
Rdmodfacs> Eigenvector number: 2
Rdmodfacs> Corresponding eigenvalue: 9.9999E-10
Rdmodfacs> Eigenvector number: 3
Rdmodfacs> Corresponding eigenvalue: 1.0000E-09
Rdmodfacs> Eigenvector number: 4
Rdmodfacs> Corresponding eigenvalue: 1.0000E-09
Rdmodfacs> Eigenvector number: 5
Rdmodfacs> Corresponding eigenvalue: 1.0000E-09
Rdmodfacs> Eigenvector number: 6
Rdmodfacs> Corresponding eigenvalue: 1.0000E-09
Rdmodfacs> Eigenvector number: 7
Rdmodfacs> Corresponding eigenvalue: 5.8317E-03
Rdmodfacs> Eigenvector number: 8
Rdmodfacs> Corresponding eigenvalue: 1.2285E-02
Rdmodfacs> Eigenvector number: 9
Rdmodfacs> Corresponding eigenvalue: 1.7035E-02
Rdmodfacs> Eigenvector number: 10
Rdmodfacs> Corresponding eigenvalue: 2.0282E-02
Rdmodfacs> Eigenvector number: 11
Rdmodfacs> Corresponding eigenvalue: 2.7411E-02
Rdmodfacs> Eigenvector number: 12
Rdmodfacs> Corresponding eigenvalue: 4.1492E-02
Rdmodfacs> Eigenvector number: 13
Rdmodfacs> Corresponding eigenvalue: 6.9960E-02
Rdmodfacs> Eigenvector number: 14
Rdmodfacs> Corresponding eigenvalue: 9.4663E-02
Rdmodfacs> Eigenvector number: 15
Rdmodfacs> Corresponding eigenvalue: 0.1203
Rdmodfacs> Eigenvector number: 16
Rdmodfacs> Corresponding eigenvalue: 0.1337
Rdmodfacs> Eigenvector number: 17
Rdmodfacs> Corresponding eigenvalue: 0.1696
Rdmodfacs> Eigenvector number: 18
Rdmodfacs> Corresponding eigenvalue: 0.1916
Rdmodfacs> Eigenvector number: 19
Rdmodfacs> Corresponding eigenvalue: 0.2471
Rdmodfacs> Eigenvector number: 20
Rdmodfacs> Corresponding eigenvalue: 0.2852
Rdmodfacs> Eigenvector number: 21
Rdmodfacs> Corresponding eigenvalue: 0.3229
Rdmodfacs> Eigenvector number: 22
Rdmodfacs> Corresponding eigenvalue: 0.3756
Rdmodfacs> Eigenvector number: 23
Rdmodfacs> Corresponding eigenvalue: 0.4125
Rdmodfacs> Eigenvector number: 24
Rdmodfacs> Corresponding eigenvalue: 0.4301
Rdmodfacs> Eigenvector number: 25
Rdmodfacs> Corresponding eigenvalue: 0.4619
Rdmodfacs> Eigenvector number: 26
Rdmodfacs> Corresponding eigenvalue: 0.5465
Rdmodfacs> Eigenvector number: 27
Rdmodfacs> Corresponding eigenvalue: 0.6164
Rdmodfacs> Eigenvector number: 28
Rdmodfacs> Corresponding eigenvalue: 0.6465
Rdmodfacs> Eigenvector number: 29
Rdmodfacs> Corresponding eigenvalue: 0.6637
Rdmodfacs> Eigenvector number: 30
Rdmodfacs> Corresponding eigenvalue: 0.7088
Rdmodfacs> Eigenvector number: 31
Rdmodfacs> Corresponding eigenvalue: 0.8047
Rdmodfacs> Eigenvector number: 32
Rdmodfacs> Corresponding eigenvalue: 0.9047
Rdmodfacs> Eigenvector number: 33
Rdmodfacs> Corresponding eigenvalue: 0.9751
Rdmodfacs> Eigenvector number: 34
Rdmodfacs> Corresponding eigenvalue: 1.046
Rdmodfacs> Eigenvector number: 35
Rdmodfacs> Corresponding eigenvalue: 1.092
Rdmodfacs> Eigenvector number: 36
Rdmodfacs> Corresponding eigenvalue: 1.117
Rdmodfacs> Eigenvector number: 37
Rdmodfacs> Corresponding eigenvalue: 1.185
Rdmodfacs> Eigenvector number: 38
Rdmodfacs> Corresponding eigenvalue: 1.206
Rdmodfacs> Eigenvector number: 39
Rdmodfacs> Corresponding eigenvalue: 1.324
Rdmodfacs> Eigenvector number: 40
Rdmodfacs> Corresponding eigenvalue: 1.333
Rdmodfacs> Eigenvector number: 41
Rdmodfacs> Corresponding eigenvalue: 1.506
Rdmodfacs> Eigenvector number: 42
Rdmodfacs> Corresponding eigenvalue: 1.535
Rdmodfacs> Eigenvector number: 43
Rdmodfacs> Corresponding eigenvalue: 1.651
Rdmodfacs> Eigenvector number: 44
Rdmodfacs> Corresponding eigenvalue: 1.688
Rdmodfacs> Eigenvector number: 45
Rdmodfacs> Corresponding eigenvalue: 1.780
Rdmodfacs> Eigenvector number: 46
Rdmodfacs> Corresponding eigenvalue: 1.795
Rdmodfacs> Eigenvector number: 47
Rdmodfacs> Corresponding eigenvalue: 1.806
Rdmodfacs> Eigenvector number: 48
Rdmodfacs> Corresponding eigenvalue: 2.037
Rdmodfacs> Eigenvector number: 49
Rdmodfacs> Corresponding eigenvalue: 2.267
Rdmodfacs> Eigenvector number: 50
Rdmodfacs> Corresponding eigenvalue: 2.324
Rdmodfacs> Eigenvector number: 51
Rdmodfacs> Corresponding eigenvalue: 2.393
Rdmodfacs> Eigenvector number: 52
Rdmodfacs> Corresponding eigenvalue: 2.505
Rdmodfacs> Eigenvector number: 53
Rdmodfacs> Corresponding eigenvalue: 2.579
Rdmodfacs> Eigenvector number: 54
Rdmodfacs> Corresponding eigenvalue: 2.746
Rdmodfacs> Eigenvector number: 55
Rdmodfacs> Corresponding eigenvalue: 2.852
Rdmodfacs> Eigenvector number: 56
Rdmodfacs> Corresponding eigenvalue: 2.918
Rdmodfacs> Eigenvector number: 57
Rdmodfacs> Corresponding eigenvalue: 3.031
Rdmodfacs> Eigenvector number: 58
Rdmodfacs> Corresponding eigenvalue: 3.097
Rdmodfacs> Eigenvector number: 59
Rdmodfacs> Corresponding eigenvalue: 3.147
Rdmodfacs> Eigenvector number: 60
Rdmodfacs> Corresponding eigenvalue: 3.233
Rdmodfacs> Eigenvector number: 61
Rdmodfacs> Corresponding eigenvalue: 3.344
Rdmodfacs> Eigenvector number: 62
Rdmodfacs> Corresponding eigenvalue: 3.349
Rdmodfacs> Eigenvector number: 63
Rdmodfacs> Corresponding eigenvalue: 3.576
Rdmodfacs> Eigenvector number: 64
Rdmodfacs> Corresponding eigenvalue: 3.722
Rdmodfacs> Eigenvector number: 65
Rdmodfacs> Corresponding eigenvalue: 3.867
Rdmodfacs> Eigenvector number: 66
Rdmodfacs> Corresponding eigenvalue: 3.956
Rdmodfacs> Eigenvector number: 67
Rdmodfacs> Corresponding eigenvalue: 4.084
Rdmodfacs> Eigenvector number: 68
Rdmodfacs> Corresponding eigenvalue: 4.174
Rdmodfacs> Eigenvector number: 69
Rdmodfacs> Corresponding eigenvalue: 4.298
Rdmodfacs> Eigenvector number: 70
Rdmodfacs> Corresponding eigenvalue: 4.408
Rdmodfacs> Eigenvector number: 71
Rdmodfacs> Corresponding eigenvalue: 4.461
Rdmodfacs> Eigenvector number: 72
Rdmodfacs> Corresponding eigenvalue: 4.562
Rdmodfacs> Eigenvector number: 73
Rdmodfacs> Corresponding eigenvalue: 4.644
Rdmodfacs> Eigenvector number: 74
Rdmodfacs> Corresponding eigenvalue: 4.790
Rdmodfacs> Eigenvector number: 75
Rdmodfacs> Corresponding eigenvalue: 5.034
Rdmodfacs> Eigenvector number: 76
Rdmodfacs> Corresponding eigenvalue: 5.076
Rdmodfacs> Eigenvector number: 77
Rdmodfacs> Corresponding eigenvalue: 5.201
Rdmodfacs> Eigenvector number: 78
Rdmodfacs> Corresponding eigenvalue: 5.326
Rdmodfacs> Eigenvector number: 79
Rdmodfacs> Corresponding eigenvalue: 5.399
Rdmodfacs> Eigenvector number: 80
Rdmodfacs> Corresponding eigenvalue: 5.443
Rdmodfacs> Eigenvector number: 81
Rdmodfacs> Corresponding eigenvalue: 5.548
Rdmodfacs> Eigenvector number: 82
Rdmodfacs> Corresponding eigenvalue: 5.651
Rdmodfacs> Eigenvector number: 83
Rdmodfacs> Corresponding eigenvalue: 5.853
Rdmodfacs> Eigenvector number: 84
Rdmodfacs> Corresponding eigenvalue: 6.120
Rdmodfacs> Eigenvector number: 85
Rdmodfacs> Corresponding eigenvalue: 6.129
Rdmodfacs> Eigenvector number: 86
Rdmodfacs> Corresponding eigenvalue: 6.315
Rdmodfacs> Eigenvector number: 87
Rdmodfacs> Corresponding eigenvalue: 6.342
Rdmodfacs> Eigenvector number: 88
Rdmodfacs> Corresponding eigenvalue: 6.531
Rdmodfacs> Eigenvector number: 89
Rdmodfacs> Corresponding eigenvalue: 6.604
Rdmodfacs> Eigenvector number: 90
Rdmodfacs> Corresponding eigenvalue: 6.647
Rdmodfacs> Eigenvector number: 91
Rdmodfacs> Corresponding eigenvalue: 6.978
Rdmodfacs> Eigenvector number: 92
Rdmodfacs> Corresponding eigenvalue: 7.075
Rdmodfacs> Eigenvector number: 93
Rdmodfacs> Corresponding eigenvalue: 7.191
Rdmodfacs> Eigenvector number: 94
Rdmodfacs> Corresponding eigenvalue: 7.311
Rdmodfacs> Eigenvector number: 95
Rdmodfacs> Corresponding eigenvalue: 7.363
Rdmodfacs> Eigenvector number: 96
Rdmodfacs> Corresponding eigenvalue: 7.476
Rdmodfacs> Eigenvector number: 97
Rdmodfacs> Corresponding eigenvalue: 7.618
Rdmodfacs> Eigenvector number: 98
Rdmodfacs> Corresponding eigenvalue: 7.768
Rdmodfacs> Eigenvector number: 99
Rdmodfacs> Corresponding eigenvalue: 7.965
Rdmodfacs> Eigenvector number: 100
Rdmodfacs> Corresponding eigenvalue: 8.109
Rdmodfacs> Eigenvector number: 101
Rdmodfacs> Corresponding eigenvalue: 8.243
Rdmodfacs> Eigenvector number: 102
Rdmodfacs> Corresponding eigenvalue: 8.298
Rdmodfacs> Eigenvector number: 103
Rdmodfacs> Corresponding eigenvalue: 8.571
Rdmodfacs> Eigenvector number: 104
Rdmodfacs> Corresponding eigenvalue: 8.790
Rdmodfacs> Eigenvector number: 105
Rdmodfacs> Corresponding eigenvalue: 8.884
Rdmodfacs> Eigenvector number: 106
Rdmodfacs> Corresponding eigenvalue: 9.051
Rtb_to_modes> 106 vectors, with 330 coordinates in vector file.
Norm of eigenvectors in projected coordinates (one expected):
0.99995 0.99999 1.00003 0.99998 1.00001
0.99999 1.00000 0.99998 0.99999 0.99998
0.99999 1.00002 1.00001 1.00002 1.00000
1.00004 0.99996 1.00002 1.00002 0.99998
0.99999 1.00000 0.99999 0.99997 1.00005
1.00000 0.99999 0.99999 1.00003 1.00001
1.00002 0.99998 0.99999 1.00002 0.99999
1.00002 0.99998 1.00000 1.00001 1.00000
1.00000 1.00000 0.99998 1.00003 1.00000
1.00002 1.00002 0.99999 1.00003 0.99997
0.99998 0.99999 0.99999 1.00000 1.00003
0.99997 0.99998 1.00000 1.00001 0.99999
0.99998 1.00000 0.99998 0.99997 0.99999
1.00001 1.00001 1.00001 0.99999 1.00003
1.00000 1.00000 0.99999 1.00003 1.00004
1.00001 1.00000 1.00002 1.00001 0.99997
1.00000 1.00001 0.99999 1.00004 1.00000
1.00000 1.00003 1.00004 1.00004 1.00000
1.00001 1.00003 1.00001 0.99995 1.00000
0.99999 1.00001 1.00000 0.99999 1.00003
1.00001 1.00003 0.99998 1.00002 1.00004
0.99998
Rtb_to_modes> RTB block-file is being read.
Rtb_to_modes> 3942 lines found in RTB file.
Norm of eigenvectors in cartesian coordinates (one expected):
0.99995 0.99999 1.00003 0.99998 1.00001
0.99999 1.00000 0.99998 0.99999 0.99998
0.99999 1.00002 1.00001 1.00002 1.00000
1.00004 0.99996 1.00002 1.00002 0.99998
0.99999 1.00000 0.99999 0.99997 1.00005
1.00000 0.99999 0.99999 1.00003 1.00001
1.00002 0.99998 0.99999 1.00002 0.99999
1.00002 0.99998 1.00000 1.00001 1.00000
1.00000 1.00000 0.99998 1.00003 1.00000
1.00002 1.00002 0.99999 1.00003 0.99997
0.99998 0.99999 0.99999 1.00000 1.00003
0.99997 0.99998 1.00000 1.00001 0.99999
0.99998 1.00000 0.99998 0.99997 0.99999
1.00001 1.00001 1.00001 0.99999 1.00003
1.00000 1.00000 0.99999 1.00003 1.00004
1.00001 1.00000 1.00002 1.00001 0.99997
1.00000 1.00001 0.99999 1.00004 1.00000
1.00000 1.00003 1.00004 1.00004 1.00000
1.00001 1.00003 1.00001 0.99995 1.00000
0.99999 1.00001 1.00000 0.99999 1.00003
1.00001 1.00003 0.99998 1.00002 1.00004
0.99998
Orthogonality of first eigenvectors (zero expected):
Vector 2:-0.000
Vector 3:-0.000 0.000
Vector 4: 0.000-0.000 0.000
Vector 5: 0.000-0.000 0.000-0.000
Vector 6: 0.000-0.000-0.000-0.000-0.000
Vector 7: 0.000-0.000-0.000 0.000 0.000-0.000
Vector 8: 0.000 0.000-0.000 0.000 0.000-0.000-0.000
Vector 9:-0.000 0.000-0.000-0.000 0.000 0.000-0.000 0.000
Vector 10: 0.000 0.000 0.000 0.000 0.000 0.000 0.000-0.000-0.000
Rtb_to_modes> 106 eigenvectors saved.
Rtb_to_modes> Normal end.
Diagrtb> Normal end.
B-factor analysis
Bfactors> Version 1.22, Bordeaux.
Getnam> Eigenvector filename ?
Getnam> 2403041038051524752.eigenfacs
Openam> file on opening on unit 10:
2403041038051524752.eigenfacs
Getnam> Corresponding pdb filename ?
Getnam> 2403041038051524752.atom
Openam> file on opening on unit 11:
2403041038051524752.atom
Getnum> Number of skipped eigenvectors ?
Getnum> 0
Getnum> Number of usefull eigenvectors ?
Getnum> 10000
%Getnum-Err: number larger than 106 This is not allowed. Sorry.
Rdatompdb> Reading pdb file.
Rdatompdb> End of file reached.
Rdatompdb> Number of I/O errors: 0
Rdatompdb> Number of residues found = 219
First residue number = 1
Last residue number = 219
Number of atoms found = 219
Mean number per residue = 1.0
Rdmodfacs> Old Blzpack file format detected.
Rdmodfacs> Numero du vecteur CERFACS en lecture: 1
Rdmodfacs> Valeur propre du vecteur en lecture: 9.9995E-10
Rdmodfacs> Numero du vecteur CERFACS en lecture: 2
Rdmodfacs> Valeur propre du vecteur en lecture: 9.9999E-10
Rdmodfacs> Numero du vecteur CERFACS en lecture: 3
Rdmodfacs> Valeur propre du vecteur en lecture: 1.0000E-09
Rdmodfacs> Numero du vecteur CERFACS en lecture: 4
Rdmodfacs> Valeur propre du vecteur en lecture: 1.0000E-09
Rdmodfacs> Numero du vecteur CERFACS en lecture: 5
Rdmodfacs> Valeur propre du vecteur en lecture: 1.0000E-09
Rdmodfacs> Numero du vecteur CERFACS en lecture: 6
Rdmodfacs> Valeur propre du vecteur en lecture: 1.0000E-09
Rdmodfacs> Numero du vecteur CERFACS en lecture: 7
Rdmodfacs> Valeur propre du vecteur en lecture: 5.8317E-03
Rdmodfacs> Numero du vecteur CERFACS en lecture: 8
Rdmodfacs> Valeur propre du vecteur en lecture: 1.2285E-02
Rdmodfacs> Numero du vecteur CERFACS en lecture: 9
Rdmodfacs> Valeur propre du vecteur en lecture: 1.7035E-02
Rdmodfacs> Numero du vecteur CERFACS en lecture: 10
Rdmodfacs> Valeur propre du vecteur en lecture: 2.0282E-02
Rdmodfacs> Numero du vecteur CERFACS en lecture: 11
Rdmodfacs> Valeur propre du vecteur en lecture: 2.7411E-02
Rdmodfacs> Numero du vecteur CERFACS en lecture: 12
Rdmodfacs> Valeur propre du vecteur en lecture: 4.1492E-02
Rdmodfacs> Numero du vecteur CERFACS en lecture: 13
Rdmodfacs> Valeur propre du vecteur en lecture: 6.9960E-02
Rdmodfacs> Numero du vecteur CERFACS en lecture: 14
Rdmodfacs> Valeur propre du vecteur en lecture: 9.4663E-02
Rdmodfacs> Numero du vecteur CERFACS en lecture: 15
Rdmodfacs> Valeur propre du vecteur en lecture: 0.1203
Rdmodfacs> Numero du vecteur CERFACS en lecture: 16
Rdmodfacs> Valeur propre du vecteur en lecture: 0.1337
Rdmodfacs> Numero du vecteur CERFACS en lecture: 17
Rdmodfacs> Valeur propre du vecteur en lecture: 0.1696
Rdmodfacs> Numero du vecteur CERFACS en lecture: 18
Rdmodfacs> Valeur propre du vecteur en lecture: 0.1916
Rdmodfacs> Numero du vecteur CERFACS en lecture: 19
Rdmodfacs> Valeur propre du vecteur en lecture: 0.2471
Rdmodfacs> Numero du vecteur CERFACS en lecture: 20
Rdmodfacs> Valeur propre du vecteur en lecture: 0.2852
Rdmodfacs> Numero du vecteur CERFACS en lecture: 21
Rdmodfacs> Valeur propre du vecteur en lecture: 0.3229
Rdmodfacs> Numero du vecteur CERFACS en lecture: 22
Rdmodfacs> Valeur propre du vecteur en lecture: 0.3756
Rdmodfacs> Numero du vecteur CERFACS en lecture: 23
Rdmodfacs> Valeur propre du vecteur en lecture: 0.4125
Rdmodfacs> Numero du vecteur CERFACS en lecture: 24
Rdmodfacs> Valeur propre du vecteur en lecture: 0.4301
Rdmodfacs> Numero du vecteur CERFACS en lecture: 25
Rdmodfacs> Valeur propre du vecteur en lecture: 0.4619
Rdmodfacs> Numero du vecteur CERFACS en lecture: 26
Rdmodfacs> Valeur propre du vecteur en lecture: 0.5465
Rdmodfacs> Numero du vecteur CERFACS en lecture: 27
Rdmodfacs> Valeur propre du vecteur en lecture: 0.6164
Rdmodfacs> Numero du vecteur CERFACS en lecture: 28
Rdmodfacs> Valeur propre du vecteur en lecture: 0.6465
Rdmodfacs> Numero du vecteur CERFACS en lecture: 29
Rdmodfacs> Valeur propre du vecteur en lecture: 0.6637
Rdmodfacs> Numero du vecteur CERFACS en lecture: 30
Rdmodfacs> Valeur propre du vecteur en lecture: 0.7088
Rdmodfacs> Numero du vecteur CERFACS en lecture: 31
Rdmodfacs> Valeur propre du vecteur en lecture: 0.8047
Rdmodfacs> Numero du vecteur CERFACS en lecture: 32
Rdmodfacs> Valeur propre du vecteur en lecture: 0.9047
Rdmodfacs> Numero du vecteur CERFACS en lecture: 33
Rdmodfacs> Valeur propre du vecteur en lecture: 0.9751
Rdmodfacs> Numero du vecteur CERFACS en lecture: 34
Rdmodfacs> Valeur propre du vecteur en lecture: 1.046
Rdmodfacs> Numero du vecteur CERFACS en lecture: 35
Rdmodfacs> Valeur propre du vecteur en lecture: 1.092
Rdmodfacs> Numero du vecteur CERFACS en lecture: 36
Rdmodfacs> Valeur propre du vecteur en lecture: 1.117
Rdmodfacs> Numero du vecteur CERFACS en lecture: 37
Rdmodfacs> Valeur propre du vecteur en lecture: 1.185
Rdmodfacs> Numero du vecteur CERFACS en lecture: 38
Rdmodfacs> Valeur propre du vecteur en lecture: 1.206
Rdmodfacs> Numero du vecteur CERFACS en lecture: 39
Rdmodfacs> Valeur propre du vecteur en lecture: 1.324
Rdmodfacs> Numero du vecteur CERFACS en lecture: 40
Rdmodfacs> Valeur propre du vecteur en lecture: 1.333
Rdmodfacs> Numero du vecteur CERFACS en lecture: 41
Rdmodfacs> Valeur propre du vecteur en lecture: 1.506
Rdmodfacs> Numero du vecteur CERFACS en lecture: 42
Rdmodfacs> Valeur propre du vecteur en lecture: 1.535
Rdmodfacs> Numero du vecteur CERFACS en lecture: 43
Rdmodfacs> Valeur propre du vecteur en lecture: 1.651
Rdmodfacs> Numero du vecteur CERFACS en lecture: 44
Rdmodfacs> Valeur propre du vecteur en lecture: 1.688
Rdmodfacs> Numero du vecteur CERFACS en lecture: 45
Rdmodfacs> Valeur propre du vecteur en lecture: 1.780
Rdmodfacs> Numero du vecteur CERFACS en lecture: 46
Rdmodfacs> Valeur propre du vecteur en lecture: 1.795
Rdmodfacs> Numero du vecteur CERFACS en lecture: 47
Rdmodfacs> Valeur propre du vecteur en lecture: 1.806
Rdmodfacs> Numero du vecteur CERFACS en lecture: 48
Rdmodfacs> Valeur propre du vecteur en lecture: 2.037
Rdmodfacs> Numero du vecteur CERFACS en lecture: 49
Rdmodfacs> Valeur propre du vecteur en lecture: 2.267
Rdmodfacs> Numero du vecteur CERFACS en lecture: 50
Rdmodfacs> Valeur propre du vecteur en lecture: 2.324
Rdmodfacs> Numero du vecteur CERFACS en lecture: 51
Rdmodfacs> Valeur propre du vecteur en lecture: 2.393
Rdmodfacs> Numero du vecteur CERFACS en lecture: 52
Rdmodfacs> Valeur propre du vecteur en lecture: 2.505
Rdmodfacs> Numero du vecteur CERFACS en lecture: 53
Rdmodfacs> Valeur propre du vecteur en lecture: 2.579
Rdmodfacs> Numero du vecteur CERFACS en lecture: 54
Rdmodfacs> Valeur propre du vecteur en lecture: 2.746
Rdmodfacs> Numero du vecteur CERFACS en lecture: 55
Rdmodfacs> Valeur propre du vecteur en lecture: 2.852
Rdmodfacs> Numero du vecteur CERFACS en lecture: 56
Rdmodfacs> Valeur propre du vecteur en lecture: 2.918
Rdmodfacs> Numero du vecteur CERFACS en lecture: 57
Rdmodfacs> Valeur propre du vecteur en lecture: 3.031
Rdmodfacs> Numero du vecteur CERFACS en lecture: 58
Rdmodfacs> Valeur propre du vecteur en lecture: 3.097
Rdmodfacs> Numero du vecteur CERFACS en lecture: 59
Rdmodfacs> Valeur propre du vecteur en lecture: 3.147
Rdmodfacs> Numero du vecteur CERFACS en lecture: 60
Rdmodfacs> Valeur propre du vecteur en lecture: 3.233
Rdmodfacs> Numero du vecteur CERFACS en lecture: 61
Rdmodfacs> Valeur propre du vecteur en lecture: 3.344
Rdmodfacs> Numero du vecteur CERFACS en lecture: 62
Rdmodfacs> Valeur propre du vecteur en lecture: 3.349
Rdmodfacs> Numero du vecteur CERFACS en lecture: 63
Rdmodfacs> Valeur propre du vecteur en lecture: 3.576
Rdmodfacs> Numero du vecteur CERFACS en lecture: 64
Rdmodfacs> Valeur propre du vecteur en lecture: 3.722
Rdmodfacs> Numero du vecteur CERFACS en lecture: 65
Rdmodfacs> Valeur propre du vecteur en lecture: 3.867
Rdmodfacs> Numero du vecteur CERFACS en lecture: 66
Rdmodfacs> Valeur propre du vecteur en lecture: 3.956
Rdmodfacs> Numero du vecteur CERFACS en lecture: 67
Rdmodfacs> Valeur propre du vecteur en lecture: 4.084
Rdmodfacs> Numero du vecteur CERFACS en lecture: 68
Rdmodfacs> Valeur propre du vecteur en lecture: 4.174
Rdmodfacs> Numero du vecteur CERFACS en lecture: 69
Rdmodfacs> Valeur propre du vecteur en lecture: 4.298
Rdmodfacs> Numero du vecteur CERFACS en lecture: 70
Rdmodfacs> Valeur propre du vecteur en lecture: 4.408
Rdmodfacs> Numero du vecteur CERFACS en lecture: 71
Rdmodfacs> Valeur propre du vecteur en lecture: 4.461
Rdmodfacs> Numero du vecteur CERFACS en lecture: 72
Rdmodfacs> Valeur propre du vecteur en lecture: 4.562
Rdmodfacs> Numero du vecteur CERFACS en lecture: 73
Rdmodfacs> Valeur propre du vecteur en lecture: 4.644
Rdmodfacs> Numero du vecteur CERFACS en lecture: 74
Rdmodfacs> Valeur propre du vecteur en lecture: 4.790
Rdmodfacs> Numero du vecteur CERFACS en lecture: 75
Rdmodfacs> Valeur propre du vecteur en lecture: 5.034
Rdmodfacs> Numero du vecteur CERFACS en lecture: 76
Rdmodfacs> Valeur propre du vecteur en lecture: 5.076
Rdmodfacs> Numero du vecteur CERFACS en lecture: 77
Rdmodfacs> Valeur propre du vecteur en lecture: 5.201
Rdmodfacs> Numero du vecteur CERFACS en lecture: 78
Rdmodfacs> Valeur propre du vecteur en lecture: 5.326
Rdmodfacs> Numero du vecteur CERFACS en lecture: 79
Rdmodfacs> Valeur propre du vecteur en lecture: 5.399
Rdmodfacs> Numero du vecteur CERFACS en lecture: 80
Rdmodfacs> Valeur propre du vecteur en lecture: 5.443
Rdmodfacs> Numero du vecteur CERFACS en lecture: 81
Rdmodfacs> Valeur propre du vecteur en lecture: 5.548
Rdmodfacs> Numero du vecteur CERFACS en lecture: 82
Rdmodfacs> Valeur propre du vecteur en lecture: 5.651
Rdmodfacs> Numero du vecteur CERFACS en lecture: 83
Rdmodfacs> Valeur propre du vecteur en lecture: 5.853
Rdmodfacs> Numero du vecteur CERFACS en lecture: 84
Rdmodfacs> Valeur propre du vecteur en lecture: 6.120
Rdmodfacs> Numero du vecteur CERFACS en lecture: 85
Rdmodfacs> Valeur propre du vecteur en lecture: 6.129
Rdmodfacs> Numero du vecteur CERFACS en lecture: 86
Rdmodfacs> Valeur propre du vecteur en lecture: 6.315
Rdmodfacs> Numero du vecteur CERFACS en lecture: 87
Rdmodfacs> Valeur propre du vecteur en lecture: 6.342
Rdmodfacs> Numero du vecteur CERFACS en lecture: 88
Rdmodfacs> Valeur propre du vecteur en lecture: 6.531
Rdmodfacs> Numero du vecteur CERFACS en lecture: 89
Rdmodfacs> Valeur propre du vecteur en lecture: 6.604
Rdmodfacs> Numero du vecteur CERFACS en lecture: 90
Rdmodfacs> Valeur propre du vecteur en lecture: 6.647
Rdmodfacs> Numero du vecteur CERFACS en lecture: 91
Rdmodfacs> Valeur propre du vecteur en lecture: 6.978
Rdmodfacs> Numero du vecteur CERFACS en lecture: 92
Rdmodfacs> Valeur propre du vecteur en lecture: 7.075
Rdmodfacs> Numero du vecteur CERFACS en lecture: 93
Rdmodfacs> Valeur propre du vecteur en lecture: 7.191
Rdmodfacs> Numero du vecteur CERFACS en lecture: 94
Rdmodfacs> Valeur propre du vecteur en lecture: 7.311
Rdmodfacs> Numero du vecteur CERFACS en lecture: 95
Rdmodfacs> Valeur propre du vecteur en lecture: 7.363
Rdmodfacs> Numero du vecteur CERFACS en lecture: 96
Rdmodfacs> Valeur propre du vecteur en lecture: 7.476
Rdmodfacs> Numero du vecteur CERFACS en lecture: 97
Rdmodfacs> Valeur propre du vecteur en lecture: 7.618
Rdmodfacs> Numero du vecteur CERFACS en lecture: 98
Rdmodfacs> Valeur propre du vecteur en lecture: 7.768
Rdmodfacs> Numero du vecteur CERFACS en lecture: 99
Rdmodfacs> Valeur propre du vecteur en lecture: 7.965
Rdmodfacs> Numero du vecteur CERFACS en lecture: 100
Rdmodfacs> Valeur propre du vecteur en lecture: 8.109
Rdmodfacs> Numero du vecteur CERFACS en lecture: 101
Rdmodfacs> Valeur propre du vecteur en lecture: 8.243
Rdmodfacs> Numero du vecteur CERFACS en lecture: 102
Rdmodfacs> Valeur propre du vecteur en lecture: 8.298
Rdmodfacs> Numero du vecteur CERFACS en lecture: 103
Rdmodfacs> Valeur propre du vecteur en lecture: 8.571
Rdmodfacs> Numero du vecteur CERFACS en lecture: 104
Rdmodfacs> Valeur propre du vecteur en lecture: 8.790
Rdmodfacs> Numero du vecteur CERFACS en lecture: 105
Rdmodfacs> Valeur propre du vecteur en lecture: 8.884
Rdmodfacs> Numero du vecteur CERFACS en lecture: 106
Rdmodfacs> Valeur propre du vecteur en lecture: 9.051
Bfactors> 106 vectors, 657 coordinates in file.
Openam> file on opening on unit 12:
bfactors.pred
Bfactors> Best zero-eigenvalue found : 0.000000
Bfactors> 6 eigenvalues less than : 0.000000
Bfactors> Lowest non-zero eigenvalue : 0.005832
Bfactors> 100 eigenvectors will be considered.
Bfactors> Rotation-Tranlation modes are skipped.
Bfactors> Mass-weighted B-factors are computed.
(CHARMM units assumed for eigenvalues)
%Bfactors-Wn> Experimental B-factors are nearly constant !
Bfactors> = 37.442 +/- 33.31
Bfactors> = 0.000 +/- 0.00
Bfactors> Shiftng-fct= -37.442
Bfactors> Scaling-fct= 0.000
Bfactors> Predicted, Scaled and Experimental B-factors are saved.
Bfactors> Normal end.
check_modes
getting mode 7
running: ../../bin/get_modes.sh 2403041038051524752 7 -100 100 20 on 0
normal mode computation
generate a series of perturbations for mode 7
calculating perturbed structure for DQ=-100
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=0
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=100
2403041038051524752.eigenfacs
2403041038051524752.atom
making animated gifs
11 models are in 2403041038051524752.7.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.7.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.7.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
getting mode 8
running: ../../bin/get_modes.sh 2403041038051524752 8 -100 100 20 on 0
normal mode computation
generate a series of perturbations for mode 8
calculating perturbed structure for DQ=-100
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=0
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=100
2403041038051524752.eigenfacs
2403041038051524752.atom
making animated gifs
11 models are in 2403041038051524752.8.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.8.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.8.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
getting mode 9
running: ../../bin/get_modes.sh 2403041038051524752 9 -100 100 20 on 0
normal mode computation
generate a series of perturbations for mode 9
calculating perturbed structure for DQ=-100
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=0
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=100
2403041038051524752.eigenfacs
2403041038051524752.atom
making animated gifs
11 models are in 2403041038051524752.9.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.9.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.9.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
getting mode 10
running: ../../bin/get_modes.sh 2403041038051524752 10 -100 100 20 on 0
normal mode computation
generate a series of perturbations for mode 10
calculating perturbed structure for DQ=-100
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=0
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=100
2403041038051524752.eigenfacs
2403041038051524752.atom
making animated gifs
11 models are in 2403041038051524752.10.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.10.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.10.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
getting mode 11
running: ../../bin/get_modes.sh 2403041038051524752 11 -100 100 20 on 0
normal mode computation
generate a series of perturbations for mode 11
calculating perturbed structure for DQ=-100
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=-20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=0
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=20
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=40
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=60
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=80
2403041038051524752.eigenfacs
2403041038051524752.atom
calculating perturbed structure for DQ=100
2403041038051524752.eigenfacs
2403041038051524752.atom
making animated gifs
11 models are in 2403041038051524752.11.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.11.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
11 models are in 2403041038051524752.11.pdb, 1 models will be skipped
MODEL 1 will be plotted
MODEL 3 will be plotted
MODEL 5 will be plotted
MODEL 7 will be plotted
MODEL 9 will be plotted
MODEL 11 will be plotted
making thumbnail 100x100
making small animated gif 100x100
making animated gif 300x300
2403041038051524752.10.pdb
2403041038051524752.11.pdb
2403041038051524752.7.pdb
2403041038051524752.8.pdb
2403041038051524752.9.pdb
STDERR:
Note: The following floating-point exceptions are signalling: IEEE_DENORMAL
real 0m0.610s
user 0m0.602s
sys 0m0.008s
../../bin/check_modes: error while loading shared libraries: libgfortran.so.3: cannot open shared object file: No such file or directory
mv: cannot stat 'Chkmod.res': No such file or directory
cat: 2403041038051524752.Chkmod.res: No such file or directory
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If you find results from this site helpful for your research, please cite one of our papers:
elNémo
is maintained by Yves-Henri Sanejouand.
It was developed
by Karsten Suhre.
Between 2003 and 2014, it was hosted by IGS (Marseille).
Last modification: April 25th, 2023.
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