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5.1.37 fglm
Syntax:fglm (ring_name,ideal_name)Type:- ideal
Purpose:- computes for the given ideal in the given ring
a reduced Groebner basis in the current ring, by applying the so-called FGLM
(Faugere, Gianni, Lazard, Mora) algorithm.
The main application is to compute a lexicographical Groebner basis from a reduced Groebner basis with respect to a degree ordering. This can be much faster than computing a lexicographical Groebner basis directly. Assume:- The ideal must be zero-dimensional and given as a reduced Groebner basis in the given ring. The monomial ordering must be global.
Note:- The only permissible differences between the given ring and the current ring are the monomial ordering and a permutation of the variables, resp. parameters.
Example:ring r=0,(x,y,z),dp; ideal i=y3+x2, x2y+x2, x3-x2, z4-x2-y; option(redSB); // force the computation of a reduced SB i=std(i); vdim(i); ==> 28 ring s=0,(z,x,y),lp; ideal j=fglm(r,i); j; ==> j[1]=y4+y3 ==> j[2]=xy3-y3 ==> j[3]=x2+y3 ==> j[4]=z4+y3-y