I am trying to output a very complicated matrix (~1.3MB in plain text) from Mathematica to use in a Fortran program. When I do this (via `Splice`

) the resulting matrix is off by ~2% when numerical values are given to the variables. This is a problem since there needs to be an eigenvalue that is exactly zero, and the composition of the eigenvectors needs to be exactly correct.

I've done all the usual due diligence regarding precision, correct variables, proper diagonalization code, etc. and It came down to either Fortran itself being unable to cope with such a large matrix or Mathematica messing up the FortranForm output.

So I made Mathematica give me the CForm of the matrix and tried that. It was also ~2% off from what it should be, more astoundingly, it was the same (within machine precision) as the FortranForm matrix!

Has anyone come into contact with this kind of problem? Do you have any idea what might cause it? I dread the need to go through 25000 lines of Mathematica formatted Fortran code to figure this one out.

EDIT: The matrix in question is complicated, not large. It is only 6x6 but each element is individually algebraically very messy including trigonometric functions, logarithms, and various roots and powers.

The Plaintext of the (1,1) element of our matrix, the C code, and the Fortran code. Sane parameter values are: 0 < lambda, kappa, Y*** < 1; all others between 100 and 1000.