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4 Presentations of Numerical Semigroups
 4.1 Presentations of Numerical Semigroups
  4.1-1 FortenTruncatedNCForNumericalSemigroups

  4.1-2 MinimalPresentationOfNumericalSemigroup

  4.1-3 GraphAssociatedToElementInNumericalSemigroup

4 Presentations of Numerical Semigroups

In this chapter we explain how to compute a minimal presentation of a numerical semigroup. There are three functions involved in this process.

4.1 Presentations of Numerical Semigroups

4.1-1 FortenTruncatedNCForNumericalSemigroups
> FortenTruncatedNCForNumericalSemigroups( L )( function )

L contains the list of coefficients of a single linear equation. This function gives a minimal generator of the affine semigroup of nonnegative solutions of this equation with the first coordinate equal to one (see [CD94]). Returns fail if no solution exists.

gap> FortenTruncatedNCForNumericalSemigroups([ -57, 3 ]);
[ 1, 19 ]
gap> FortenTruncatedNCForNumericalSemigroups([ -57, 33 ]);
fail
gap> FortenTruncatedNCForNumericalSemigroups([ -57, 19 ]);
[ 1, 3 ]

4.1-2 MinimalPresentationOfNumericalSemigroup
> MinimalPresentationOfNumericalSemigroup( S )( function )

S is a numerical semigroup. The output is a list of lists with two elements. Each list of two elements represents a relation between the minimal generators of the numerical semigroup. If { {x_1,y_1},...,{x_k,y_k}} is the output and {m_1,...,m_n} is the minimal system of generators of the numerical semigroup, then {x_i,y_i}={{a_i_1,...,a_i_n},{b_i_1,...,b_i_n}} and a_i_1m_1+cdots+a_i_nm_n= b_i_1m_1+ cdots +b_i_nm_n.

Any other relation among the minimal generators of the semigroup can be deduced from the ones given in the output.

The algorithm implemented is described in [Ros96a] (see also [RG99]).

gap> s:=NumericalSemigroup(3,5,7);
<Numerical semigroup with 3 generators>
gap> MinimalPresentationOfNumericalSemigroup(s);
[ [ [ 1, 0, 1 ], [ 0, 2, 0 ] ], [ [ 4, 0, 0 ], [ 0, 1, 1 ] ],
  [ [ 3, 1, 0 ], [ 0, 0, 2 ] ] ]

                        

The first element in the list means that 1x 3+1x 7=2x 5, and so on.

4.1-3 GraphAssociatedToElementInNumericalSemigroup
> GraphAssociatedToElementInNumericalSemigroup( n, S )( function )

S is a numerical semigroup and n is an element in S.

The output is a pair. If {m_1,...,m_n} is the set of minimal generators of S, then the first component is the set of vertices of the graph associated to n in S, that is, the set { m_i | n-m_iin S}, and the second component is the set of edges of this graph, that is, { {m_i,m_j} | n-(m_i+m_j)in S}.

This function is used to compute a minimal presentation of the numerical semigroup S, as explained in [Ros96a].

gap> s:=NumericalSemigroup(3,5,7);
<Numerical semigroup with 3 generators>
gap> GraphAssociatedToElementInNumericalSemigroup(10,s);
[ [ 3, 5, 7 ], [ [ 3, 7 ] ] ]

                        
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