# eliminationMatrices : Index

• bezoutianMatrix -- returns a matrix associated to generalized resultants
• bezoutianMatrix(List,Matrix) -- returns a matrix associated to generalized resultants
• byResolution -- Strategy for eliminationMatrix.
• ciResDeg -- compute a regularity index and partial degrees of the residual resultant over a complete intersection
• ciResDegGH -- compute a regularity index used for the residual resultant over a complete intersection
• ciResidual -- Strategy for eliminationMatrix.
• CM2Residual -- Strategy for eliminationMatrix.
• degHomPolMap -- given a subset of variables 'var' of the polynomial ring R, it returns the base of monomials on these variables, and the matrix of coefficients of a morphism of free modules f:R(d1)+...+R(dn)->R_d with respect to these variables
• degHomPolMap(Matrix,List,List,ZZ) -- given a subset of variables 'var' of the polynomial ring R, it returns the base of monomials on these variables, and the matrix of coefficients of a morphism of free modules f:R(d1)+...+R(dn)->R_d with respect to these variables
• degHomPolMap(Matrix,List,ZZ) -- given a subset of variables 'var' of the polynomial ring R, it returns the base of monomials on these variables, and the matrix of coefficients of a morphism of free modules f:R(d1)+...+R(dn)->R_d with respect to these variables
• detComplex -- This function calculates the determinant of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree.
• detComplex(..., Strategy => ...) -- choose between Exact and Numeric algorithms
• detComplex(ZZ,List,ChainComplex) -- This function calculates the determinant of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree.
• determinantal -- Strategy for eliminationMatrix.
• detResDeg -- compute a regularity index and partial degrees of the determinantal resultant
• eliminationMatrices -- A package for computing resultants.
• eliminationMatrix -- returns a matrix that represents the image of the map
• eliminationMatrix(..., Strategy => ...) -- returns a matrix that represents the image of the map
• eliminationMatrix(List,Matrix) -- returns a matrix associated to the Macaulay resultant
• eliminationMatrix(List,Matrix,Matrix) -- returns a matrix corresponding to a residual resultant
• eliminationMatrix(ZZ,List,Matrix) -- returns a matrix corresponding to the determinantal resultant, in particular the Macaulay resultant
• Exact -- Strategy for functions that uses rank computation.
• listDetComplex -- This function calculates the list with the determinants of some minors of the maps of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree.
• listDetComplex(..., Strategy => ...) -- choose between Exact and Numeric algorithms
• listDetComplex(ZZ,List,ChainComplex) -- This function calculates the list with the determinants of some minors of the maps of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree.
• Macaulay -- Strategy for eliminationMatrix.
• macaulayFormula -- returns two matrices such that the ratio of their determinants is the Macaulay resultant
• macaulayFormula(List,Matrix) -- returns two matrices such that the ratio of their determinants is the Macaulay resultant
• mapsComplex -- This function calculates the maps of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree.
• mapsComplex(ZZ,List,ChainComplex) -- This function calculates the maps of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree.
• maxCol -- Returns a submatrix form by a maximal set of linear independent columns.
• maxCol(..., Strategy => ...) -- choose between Exact and Numeric algorithms
• maxCol(Matrix) -- Returns a submatrix form by a maximal set of linear independent columns.
• maxMinor -- Returns a maximal minor of the matrix of full rank.
• maxMinor(..., Strategy => ...) -- choose between Exact and Numeric algorithms
• maxMinor(Matrix) -- Returns a maximal minor of the matrix of full rank.
• minorsComplex -- This function calculates some minors of the maps of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree. The choice of the minors is according to the construction of the determinant of a complex
• minorsComplex(..., Strategy => ...) -- choose between Exact and Numeric algorithms
• minorsComplex(ZZ,List,ChainComplex) -- This function calculates some minors of the maps of a graded ChainComplex with respect to a subset of the variables of the polynomial ring in a fixed degree. The choice of the minors is according to the construction of the determinant of a complex
• Numeric -- Strategy for functions that uses rank computation.
• regularityVar -- computes the Castelnuovo-Mumford regularity of homogeneous ideals in terms of Betti numbers, with respect to some of the variables of the ring
• regularityVar(List,Ideal) -- computes the Castelnuovo-Mumford regularity of homogeneous ideals in terms of Betti numbers, with respect to some of the variables of the ring
• Sylvester -- Strategy for eliminationMatrix.