As far as I understand, Z3, when encountering quantified linear real/rational arithmetic, applies a form of quantifier elimination described in Bjørner, IJCAR 2010 and more recent work by Bjørner and Monniaux (that's what `qe_sat_tactic.cpp`

says, at least).

I was wondering

Whether it still works if the formula is multilinear, in the sense that the "constants" are symbolic. E.g. ∀x, ax≤b ⇒ ax ≤ 0 can be dealt with by separating the cases a<0, a=0 and a>0. This is possible using Weispfenning's virtual substitution approach, but I don't know what ended up being implemented in Z3 (that is, whether it implements the general approach or the one restricted to constant coefficients).

Whether it is possible, in Z3, to output the result of elimination instead of just solving for one model. There might be a Z3 tactic to do so but I don't know how this is supposed to be requested.

Whether it is possible, in Z3, to perform elimination as described above, then use the new nonlinear solver to obtain a model. Again, a succession of tactics might do the trick, but I don't know how this is supposed to be requested.

Thanks.