Difference between revisions of "ApCoCoALib:RingF16"
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==about== | ==about== | ||
ApCoCoA will soon contain an implementation of the field <math>\mathbb{F}_{16}</math> | ApCoCoA will soon contain an implementation of the field <math>\mathbb{F}_{16}</math> | ||
− | The field is constructed via <math>\mathbb{F}_{16} = \mathbb{F}[ | + | The field is constructed via <math>\mathbb{F}_{16} = \mathbb{F}[x]/(x^4 + x^3 + 1)</math>. |
The field's elements are represented as integers between 0 and 15. The corresponding mapping is the substitution homomorphism, mapping x to 2. Therefore we have e.g. <math>x^3 + x + 1 \mapsto 2^3 + 2^1 + 2^0 = 8 + 2 + 1 = 11</math> | The field's elements are represented as integers between 0 and 15. The corresponding mapping is the substitution homomorphism, mapping x to 2. Therefore we have e.g. <math>x^3 + x + 1 \mapsto 2^3 + 2^1 + 2^0 = 8 + 2 + 1 = 11</math> | ||
Revision as of 11:43, 22 May 2007
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about
ApCoCoA will soon contain an implementation of the field The field is constructed via . The field's elements are represented as integers between 0 and 15. The corresponding mapping is the substitution homomorphism, mapping x to 2. Therefore we have e.g.
alternative representations
Instead of using , we could have also chosen another irreducible polynomial of degree 4. In total, there are three ireducible ones, namely If you have a system, which is based on one of the other irreducibly polynomials, you have to construct an isomorphism between the different representations of the field (which is unique). These isomorphisms can be constructed by mapping the irreducible polynomial's roots to the roots of x^4 + x^3 + 1, respecting the fields galois-group.
The irreducible polynomials and roots are:
[x^4 + x^3 + 1, [x^2, x, x^3 + x^2 + x, x^3 + 1]] [x^4 + x + 1, [x^2, x, x^2 + 1, x + 1]] [x^4 + x^3 + x^2 + x + 1, [x^3, x^2, x, x^3 + x^2 + x + 1]]
They were produced with the CoCoA4 code, explained here.