 0 0 0 0 0 0                     : input for Nickle in fcc structure
 5.0000  20.0000   1   1   1     : GMAX, GMAXP, NTYP, NATM, NATM2
 221  2                          : number of space group, type of bravis lattice
 6.7000  6.7000  6.7000  90.0  90.0 90.0 : a,b,c,alpha,beta,gamma
 12  12  12  1  1   1                    : knx,kny,knz, k-point shift
    0   0                                : NCORD, NINV
 0.00000000  0.00000000  0.00000000  1  1  1 : atomic_position iwei(1or2), imdtyp(1=move), ityp
  28  0.1500   58.710    1  1  0.20d0        : IATOMN, ALFA, AMION, ILOC(6=exp.),IVAN(1=US), zeta(init_spin)
 0 0 0 0 0                                   : icond(0-MD, 1-CONT.MD, 2-WAVE FN., 3-WAVE FN CONT.), inipos, inivel, ininos,iniacc
    0   1                           : IPRE, IPRI
    200   010     0    3600.00  0   : NMD1, NMD2, iter_last, CPUMAX,ifstop
    3   1                           : Simple=1,Broyd2=3,Blugel=6,    1:charge, 2:potential mix.
    0   20  0.8                         : starting mixing, kbxmix,alpha
   0.60  0.50  0.60  0.70  1.00         : DTIM1, DTIM2, DTIM3, DTIM4, dtim_last
  30.00     2     1    0.10D-08  1.d-06 : DTIO ,IMDALG, IEXPL, EDELTA
  -0.0020  0.10D+02    0                : WIDTH,FORCCR,ISTRESS
ggapbe          2                       : XCTYPE, nspin
   1.00     3                           : destm, n_stm
 100                                    : NBZTYP 0-SF, 1-BK, 2-SC, 3-BCC, 4-FCC, 5-DIA, 6-HEX, 100-LT, 101-LTC(knx>18), 102-LTC
    0   0   0                           : NKX, NKY, NKZ  (dummy)
    0   0   0                           : NKX2,NKY2,NKZ2 (dummy)
   12                                   : NEG
        0                               : NEXTST(MB)
        0                            : 0; random numbers, 1; matrix diagon
        1      0      0      0(MB)   : imsd, i_2lm, i_sd2another, wksz for phase
        0                                                     : evaluation of eko difference.0 = no ,1 = yes
        0                      : npdosao(0=no pdos)
        0    0.0               : SM_N, DOPPING(for empirical f-satte correction)
