$p$-adic algorithm for bivariate Gr\"obner bases
Résumé
We present a $p$-adic algorithm to recover the lexicographic Gr\"obner
basis $\mathcal G$ of an ideal in $\mathbb Q[x,y]$ with a generating set in
$\mathbb Z[x,y]$, with a complexity that is less than cubic in terms of the dimension of
$\mathbb Q[x,y]/\langle \mathcal G \rangle$ and softly linear in the height
of its coefficients.
We observe that previous results of Lazard's that use Hermite normal
forms to compute Gr\"obner bases for ideals with two generators can be
generalized to a set of $t\in \mathbb N^+$ generators. We use this result to obtain a
bound on the height of the coefficients of $\mathcal G$, and to
control the probability of choosing a \textit{good} prime $p$ to build
the $p$-adic expansion of $\mathcal G$.
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