# Re: [isabelle] Is factorization mechanization for any kind of algebra?

Hi
as my understanding that algebra is the description of true of logic which called axioms
i search Unique Prime Factorization Theorem was mechanized by Boyer etc and code by Thomas Marthedal Rasmussen
Unique Prime Factorization Theorem is used to classify unique logic (axiom).
Then i think that is it possible that all kind of algebra includingnew created algebra can have Unique Prime Factorizationfor creating invariant like hilbert series to classify logic results in different combination of idealswhich means that for example, 4 polynomials, there are combinations, [1,2,3] ,[12,4],[2,3,4],[1,3,4]these ideals ideal [polynomial 1,polynomial  2, polynomial 3 ] ,[polynomial  1, polynomial  2, polynomial  4],[polynomial  2,polynomial 3, polynomial 4],[polynomial  1, polynomial  3, polynomial 4]have the same hilbert series.
Regards,
Martin
> Date: Wed, 17 Sep 2014 19:53:46 +0200
> From: florian.haftmann at informatik.tu-muenchen.de
> To: tesleft at hotmail.com; isabelle-users at cl.cam.ac.uk
> Subject: Re: [isabelle] Is factorization mechanization for any kind of	algebra?
>
> Hi Martin,
>
> On 17.09.2014 08:19, Lee Martin CCNP wrote:
> > http://isabelle.in.tum.de/website-Isabelle2011/dist/library/HOL/Old_Number_Theory/Factorization.html
>
> this is an odd location. The current Isabelle release is Isabelle2014. A
> suitable entrance point would be
> http://isabelle.in.tum.de/dist/library/HOL/HOL-Number_Theory/UniqueFactorization.html
>
> > is it possible to do factorization mechanization for any kind of algebra?
> > such as semigroup, lattice, operator algebra etc.
>
> According to my understanding factorization has something to do with
> divisibility and factors and makes only sense for rings. What do you
> mean by »mechanization«? Computation?
>
> Can you provide some clues what you want to achieve by giving references
> to articles or explaining in more detail?
>
> Cheers,
> 	Florian
>
>
> > is it possible to mechanize of construction of basis with this factorization for any kind of algebra?
> > Regards,
> > Martin
> >
>
> --
>
> PGP available:
> http://home.informatik.tu-muenchen.de/haftmann/pgp/florian_haftmann_at_informatik_tu_muenchen_de
>

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