<div>Dear all,</div>
<div> </div>
<div>I used to calculate the structure and the energy of  Pt dimers (two Pt atoms) in a large supercell. I have tested various structure in triplet, which is most stable state for single Pt atom.</div>
<div>But the code report errors after a few bfgs steps like this: </div>
<div> %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%<br>     task #         0<br>     from bfgs : error #         1<br>     bfgs history already reset at previous step<br> %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%<br>
</div>
<div>I wondering how to deal with this situation.</div>
<div> </div>
<div>my input files is shown as follows,</div>
<div> &CONTROL                                                                                                                        <br>                 calculation = 'relax' ,                                                  <br>
                restart_mode = 'from_scratch' ,                                           <br>                      outdir = '/tmp/' ,   <br>                      wfcdir = '/tmp/' ,                                                  <br>
                  pseudo_dir = '/home/vega/espresso/pseudo/' ,                                         <br>                     disk_io = 'none' ,                                                   <br>                       nstep = 1000 ,                                                     <br>
 /                                                                                        <br> &SYSTEM                                                                                  <br>                       ibrav = 8,                                                         <br>
                   celldm(1) =24.8624,<br>                   celldm(2) = 0.8520,<br>                   celldm(3) = 1.6964,<br>                         nat = 2,                                                       <br>                        ntyp = 1,                                                         <br>
                       nosym = .true. ,                                                   <br>                   ecutwfc   =   30,<br>                   ecutrho   =  300,<br>                 occupations = 'smearing',<br>
                     degauss = 0.007,<br>                        nspin = 2,<br>                   multiplicity = 3,<br> /                                                                                        <br> &ELECTRONS                                                                               <br>
                 mixing_mode ='local-TF',<br>                 mixing_beta = 0.4,                                                                    <br>                       <br> /                                                                                        <br>
 &IONS                                                                                    <br>                ion_dynamics = 'bfgs' ,                                                   <br> /                                                                                        <br>
ATOMIC_SPECIES                                                                            <br>    Pt  195.08     Pt.pw91-n-van.UPF                                                      <br>ATOMIC_POSITIONS crystal  <br>Pt       0.540794031   0.322983976   0.495002098<br>
Pt       0.500777594   0.548429786   0.493029885<br>K_POINTS gamma</div>
<div> </div>
<div>the input parameters might not very suitable for the calculation of Pt dimers itself. But the parameters should be consistent with the previous calculation, which is composed of two Pt atoms on certain surface slab model.</div>

<div> </div>
<div>So could any one give me some suggestions? </div>
<div> </div>
<div>Thank you for reading</div>
<div> </div>
<div>vega<br clear="all"><br>-- <br>==================================================================================<br>Vega Lew ( weijia liu)<br>Graduate student<br>State Key Laboratory of Materials-oriented Chemical Engineering<br>
College of Chemistry and Chemical Engineering<br>Nanjing University of Technology, 210009, Nanjing, Jiangsu, China<br>******************************************************************************************************************<br>
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