I work on a scientific software project implementing maximum likelihood of phylogenetic trees, and consistently run into issues regarding numerical precision. Often the descepency is ...

- between competing applications with the same values in the model,
- when calculating the MLE scores by hand,
- in the order of the operations in the computation.

It really all comes down to number three, and even in your case. Mulitplication of small and very large numbers can cause weird results when their exponents are scaled during computation. There is a lot about this in the (in)famous "What Every Computer Scientist Should Know About Floating-Point Arithmetic". But, what I've mentioned is the short of it if that's all you are interested in.

Over all, the issue you are seeing are strictly numerical issues in the representation of floating point / double precision numbers and operations when computing the function. I'm not too familiar with MATLAB, but they may have an arbitrary-precision type that would give you better results.

Aside from that, keep them symbolic as long as possible and if you have any intuition about the variables size (as in `a`

is always very large compared to `x`

), then make sure you are choosing the order of parenthesis wisely.

The first equation should be better since it is dealing with adding `log`

s, and should be much more stable then the second --although `x^a`

makes me a bit weary as it would dominate the equation, but it would in practice anyways.