. nclosd,maxorb,lsdim, ncfg . l(1:nclsd),l(1:maxorb) . el(1:nwf) . lmax, nnel, skip . lsp(1:ncfg), jptr(1:ncfg) . nterm, index(1:nterm)
For each column (1 : ncfg) . n, cn(1:n), inptr(1:n) . in blocks of lsdim. Last record for a column has nij = ico(nih)
For each column (1 : ncfg) . mih, jan(1:cij) where - nih is the number of non-zero matrix elements - jan(i) is the row index of the i'th
For each column, nih,ico(i) where . nih is the number of non-zero matrix elements . ico(i) is the value of nij when the matrix element calculation has been completed.
For each column, and each type of interaction . write(iouhz) jb,m,(h(i,.),i=1,m),(jan(i,.),i=1,m) where now the matrix elements are counted with respect to type.
Global Information for the term: Label, Atomic number, Number of electrons, number of configurations (2X,A6,A,F5.1,A,I3,A,I6)' ) 2 blank lines J value, number of eigenvalues: (//A8,I4,2X,A8,I4)' .For each eigenvalue index requested: . Ssms factor, gJ_LSJ, gJ_LS Zeeman factors: (3'(A8,f15.10)' . index of dominant configuration, energy, label (i6,f16.9,2x,A) . weight coefficients(eigenvector) '(7F11.8)' The command %"head Atom.j" shows the head of the file, the first 10 lines: #### Z=9 Z = 9.0 NEL = 7 NCFG = 14482 2*J = 5 NUMBER = 1 Ssms= .0000000000 g_J= 1.2004638609 g_JLS= 1.2004638609 6225 -97.668082391 2s(2).2p(3)2D3_2D .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 .00000000 ...........
The column pointers are saved in binary format.