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ReesAlgebra : Table of Contents
ReesAlgebra
-- Compute Rees algebras and their invariants
analyticSpread
-- Compute the analytic spread of a module or ideal
associatedGradedRing
-- The normal cone of a subscheme
distinguished
-- Compute the distinguished subvarieties of a pullback, intersection or cone
expectedReesIdeal
-- symmetric algebra ideal plus jacobian dual
intersectInP
-- Compute distinguished varieties for an intersection in A^n or P^n
intersectInP(...,BasisElementLimit=>...)
-- Option for intersectInP
isLinearType
-- Determine whether module has linear type
isReduction
-- Determine whether an ideal is a reduction
jacobianDual
-- Computes the 'jacobian dual', part of a method of finding generators for Rees Algebra ideals
minimalReduction
-- Find a minimal reduction of an ideal
minimalReduction(...,BasisElementLimit=>...)
-- Bound the number of Groebner basis elements to compute in the saturation step
minimalReduction(...,Tries=>...)
-- Set the number of random tries to compute a minimal reduction
multiplicity
-- Compute the Hilbert-Samuel multiplicity of an ideal
PlaneCurveSingularities
-- Using the Rees Algebra to resolve plane curve singularities
reductionNumber
-- Reduction number of one ideal with respect to another
reesAlgebra
-- Compute the defining ideal of the Rees Algebra
reesIdeal
-- Compute the defining ideal of the Rees Algebra
reesIdeal(...,DegreeLimit=>...)
-- Bound the degrees considered in the saturation step. Defaults to infinity
reesIdeal(...,MinimalGenerators=>...)
-- Whether the saturation step returns minimal generators
reesIdeal(...,PairLimit=>...)
-- Bound the number of s-pairs considered in the saturation step
reesIdeal(...,Strategy=>...)
-- Choose a strategy for the saturation step
specialFiber
-- Special fiber of a blowup
specialFiberIdeal
-- Special fiber of a blowup
symmetricAlgebraIdeal
-- Ideal of the symmetric algebra of an ideal or module
symmetricKernel
-- Compute the Rees ring of the image of a matrix
symmetricKernel(...,Variable=>...)
-- Choose name for variables in the created ring
Trim
-- Choose whether to trim (or find minimal generators) for the ideal or module.
versalEmbedding
-- Compute a versal embedding
whichGm
-- Largest Gm satisfied by an ideal