Efficiently Checking Separating Indeterminates

Abstract: In this paper we continue the development of a new technique for computing elimination ideals by substitution which has been called $Z$-separating re-embeddings. Given an ideal $I$ in the polynomial ring $K[x_1,\dots,x_n]$ over a field $K$, this method searches for tuples $Z=(z_1,\dots,z_s)$ of indeterminates with the property that $I$ contains polynomials of the form $f_i = z_i - h_i$ for $i=1,\dots,s$ such that no term in $h_i$ is divisible by an indeterminate in $Z$. As there are frequently many candidate tuples $Z$, the task addressed by this paper is to efficiently check whether a given tuple $Z$ has this property. We construct fast algorithms which check whether the vector space spanned by the generators of $I$ or a somewhat enlarged vector space contain the desired polynomials $f_i$. We also extend these algorithms to Boolean polynomials and apply them to cryptoanalyse round reduced versions of the AES cryptosystem faster.