On Mon, Oct 30, 2023 at 5:04 PM John H Palmieri <jhpalmier...@gmail.com> wrote:
>
> Are endomorphisms better to work with? I might be able to extend my map to an
> endomorphism of the larger ring, if that would make the computation easier.
> Probably just send xi1 -> xi1, xi2 -> xi2, etc.
these are "already there", as if phi is an endomorphism then ker(phi)
is generated by a-phi(a) - so
whenever phi(a)=a this reduces to 0.
>
> On Monday, October 30, 2023 at 7:14:16 AM UTC-7 Dima Pasechnik wrote:
>>
>> On Mon, Oct 30, 2023 at 12:54 PM Kwankyu <ekwa...@gmail.com> wrote:
>> >
>> > Isn't this what you want?
>> >
>> > sage: R.<x,y> = QQ[]
>> > sage: phi = R.hom([x,x])
>> > sage: phi
>> > Ring endomorphism of Multivariate Polynomial Ring in x, y over Rational
>> > Field
>> > Defn: x |--> x
>> > y |--> x
>> > sage: phi.kernel()
>> > Ideal (x - y) of Multivariate Polynomial Ring in x, y over Rational Field
>>
>> that's the kernel of the endomorphism phi of R.
>> John's question is a bit different, and it will require
>> finding the intersection of such an ideal with the domain of his map.
>> His R=F_2[h20,...,h50,xi1,...,xi5] and phi induces an endomorphism of
>> R with the kernel <h_ij-phi(h_ij) I i,j in [(2,0),..,(5,0)]>.
>> Then phi is injective iff the intersection of this ideal with
>> F_2[h20,...,h50]={0}.
>> And this needs a Grobner basis computation.
>>
>> By the way, using
>> h30 |--> h20*xi1^4 + h21*xi1 + h30
>> h31 |--> h21*xi1^8 + h31
>>
>> one can split the problem into cases
>> 1) xi1=0
>> 2) h21=h20=0
>> (but perhaps it's only specific to this particular example)
>>
>> >
>> > On Monday, October 30, 2023 at 6:08:16 PM UTC+9 Dima Pasechnik wrote:
>> >>
>> >>
>> >>
>> >> On Mon, 30 Oct 2023, 05:57 John H Palmieri, <jhpalm...@gmail.com> wrote:
>> >>>
>> >>> Does anyone have any tips for how to compute the kernel of a map between
>> >>> polynomial algebras, or for checking whether the map is injective? I
>> >>> have families of such maps involving algebras with many generators. I'm
>> >>> working over GF(2), if that matters. In one example I defined the map
>> >>> phi: R -> S where R has 12 generators, S has 19 generators, and did
>> >>>
>> >>> sage: phi.is_injective()
>> >>>
>> >>> After about 30 hours, Sage quit on me, perhaps running out of memory
>> >>> ("Killed: 9"). An example of the sort of map I'm interested in:
>> >>>
>> >>> sage: phi
>> >>> Ring morphism:
>> >>> From: Multivariate Polynomial Ring in h20, h21, h30, h31, h40, h41, h50
>> >>> over Finite Field of size 2
>> >>> To: Multivariate Polynomial Ring in h20, h21, h30, h31, h40, h41, h50,
>> >>> xi1, xi2, xi3, xi4, xi5 over Finite Field of size 2
>> >>> Defn: h20 |--> h20
>> >>> h21 |--> h21
>> >>> h30 |--> h20*xi1^4 + h21*xi1 + h30
>> >>> h31 |--> h21*xi1^8 + h31
>> >>> h40 |--> h21*xi1^9 + h30*xi1^8 + h20*xi2^4 + h31*xi1
>> >>> h41 |--> h31*xi1^16 + h21*xi2^8
>> >>> h50 |--> h31*xi1^17 + h21*xi1*xi2^8 + h30*xi2^8 + h20*xi3^4
>> >>>
>> >>> Any suggestions?
>> >>
>> >>
>> >> The standard way to find the kernel of a map
>> >> phi: A->B is to take the
>> >> ring R generated by the gens of A and B and compute the Gröbner basis of
>> >> the ideal I generated by {a-phi(a)|a in gens(A)}, and then
>> >> take the intersection of I with A.
>> >> (for the latter you have to take R with an appropriate order)
>> >>
>> >> The Gröbner basis would be done by Singular.
>> >> Better Gröbner basis routines are available in the msolve spkg.
>> >>
>> >> I'd try using msolve. There are also options such as computing I w.r.t.
>> >> to an "easier" order and then chaniging the order (so-called Gröbner
>> >> walk), they might work better here (it's all more of art than science
>> >> here)
>> >>
>> >>
>> >>
>> >> HTH
>> >> Dima
>> >>
>> >>>
>> >>> --
>> >>> John
>> >>>
>> >>>
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