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VersalDeformations : Index

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

CacheName -- determines hash table in which to cache solutions to the deformation equation
checkComparisonTheorem -- checks if the Piene-Schlessinger or Di Dennaro comparison theorem holds
checkComparisonTheorem(Ideal) -- checks if the Piene-Schlessinger or Di Dennaro comparison theorem holds
checkComparisonTheorem(Matrix) -- checks if the Piene-Schlessinger or Di Dennaro comparison theorem holds
checkTangentSpace -- checks if dimension of space of sections of the normal bundle agrees with that calculated using normalMatrix
checkTangentSpace(Ideal) -- checks if dimension of space of sections of the normal bundle agrees with that calculated using normalMatrix
checkTangentSpace(Ideal,Matrix) -- checks if dimension of space of sections of the normal bundle agrees with that calculated using normalMatrix
checkTangentSpace(Matrix) -- checks if dimension of space of sections of the normal bundle agrees with that calculated using normalMatrix
checkTangentSpace(Matrix,Matrix) -- checks if dimension of space of sections of the normal bundle agrees with that calculated using normalMatrix
correctDeformation -- correct lifting to avoid obstructions at next order
correctDeformation(...,SanityCheck=>...) -- correct lifting to avoid obstructions at next order
correctDeformation(...,Verbose=>...) -- control the verbosity of output
correctDeformation(List,List,List,List) -- correct lifting to avoid obstructions at next order
correctDeformation(Sequence,Matrix,List) -- correct lifting to avoid obstructions at next order
CorrectionMatrix -- determines the first order deformations used in correcting liftings
correctionMatrix -- calculate how first order deformations perturb obstruction vector
correctionMatrix(Matrix,Matrix) -- calculate how first order deformations perturb obstruction vector
cotangentCohomology1 -- calculate first cotangent cohomology
cotangentCohomology1(...,ModuleDeformation=>...) -- calculate first cotangent cohomology
cotangentCohomology1(...,SourceRing=>...) -- calculate first cotangent cohomology
cotangentCohomology1(Ideal) -- calculate first cotangent cohomology
cotangentCohomology1(InfiniteNumber,ZZ,Ideal) -- calculate first cotangent cohomology
cotangentCohomology1(InfiniteNumber,ZZ,Matrix) -- calculate first cotangent cohomology
cotangentCohomology1(List,Ideal) -- calculate first cotangent cohomology
cotangentCohomology1(List,Matrix) -- calculate first cotangent cohomology
cotangentCohomology1(Matrix) -- calculate first cotangent cohomology
cotangentCohomology1(ZZ,Ideal) -- calculate first cotangent cohomology
cotangentCohomology1(ZZ,InfiniteNumber,Ideal) -- calculate first cotangent cohomology
cotangentCohomology1(ZZ,InfiniteNumber,Matrix) -- calculate first cotangent cohomology
cotangentCohomology1(ZZ,Matrix) -- calculate first cotangent cohomology
cotangentCohomology1(ZZ,ZZ,Ideal) -- calculate first cotangent cohomology
cotangentCohomology1(ZZ,ZZ,Matrix) -- calculate first cotangent cohomology
cotangentCohomology2 -- calculate second cotangent cohomology
cotangentCohomology2(...,SourceRing=>...) -- calculate second cotangent cohomology
cotangentCohomology2(Ideal) -- calculate second cotangent cohomology
cotangentCohomology2(InfiniteNumber,ZZ,Ideal) -- calculate second cotangent cohomology
cotangentCohomology2(InfiniteNumber,ZZ,Matrix) -- calculate second cotangent cohomology
cotangentCohomology2(List,Ideal) -- calculate second cotangent cohomology
cotangentCohomology2(List,Matrix) -- calculate second cotangent cohomology
cotangentCohomology2(Matrix) -- calculate second cotangent cohomology
cotangentCohomology2(ZZ,Ideal) -- calculate second cotangent cohomology
cotangentCohomology2(ZZ,InfiniteNumber,Ideal) -- calculate second cotangent cohomology
cotangentCohomology2(ZZ,InfiniteNumber,Matrix) -- calculate second cotangent cohomology
cotangentCohomology2(ZZ,Matrix) -- calculate second cotangent cohomology
cotangentCohomology2(ZZ,ZZ,Ideal) -- calculate second cotangent cohomology
cotangentCohomology2(ZZ,ZZ,Matrix) -- calculate second cotangent cohomology
CT -- cotangent cohomology
DefParam -- deformation parameter
DegreeBound -- determines the degree limit used to compute the tangent cone of obstruction equations
extMatrix -- calculate obstruction space for modules
extMatrix(...,SourceRing=>...) -- calculate obstruction space for modules
extMatrix(InfiniteNumber,ZZ,Matrix) -- calculate obstruction space for modules
extMatrix(List,Matrix) -- calculate obstruction space for modules
extMatrix(Matrix) -- calculate obstruction space for modules
extMatrix(ZZ,InfiniteNumber,Matrix) -- calculate obstruction space for modules
extMatrix(ZZ,Matrix) -- calculate obstruction space for modules
extMatrix(ZZ,ZZ,Matrix) -- calculate obstruction space for modules
firstOrderDeformations -- use tangent space to create first order perturbations and find relations
firstOrderDeformations(...,DefParam=>...) -- use tangent space to create first order perturbations and find relations
firstOrderDeformations(...,SanityCheck=>...) -- use tangent space to create first order perturbations and find relations
firstOrderDeformations(Matrix,Matrix,Matrix) -- use tangent space to create first order perturbations and find relations
HighestOrder -- sets the order to which we compute
liftDeformation -- lift a solution of the deformation equation to the next order
liftDeformation(...,DegreeBound=>...) -- determines the degree limit used to compute the tangent cone of obstruction equations
liftDeformation(...,SanityCheck=>...) -- lift a solution of the deformation equation to the next order
liftDeformation(...,Verbose=>...) -- control the verbosity of output
liftDeformation(List,List,List,List) -- lift a solution of the deformation equation to the next order
localHilbertScheme -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,CacheName=>...) -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,CorrectionMatrix=>...) -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,DefParam=>...) -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,DegreeBound=>...) -- determines the degree limit used to compute the tangent cone of obstruction equations
localHilbertScheme(...,HighestOrder=>...) -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,PolynomialCheck=>...) -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,SanityCheck=>...) -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,SmartLift=>...) -- computes a power series representation of the local Hilbert scheme
localHilbertScheme(...,Verbose=>...) -- control the verbosity of output
localHilbertScheme(Matrix) -- computes a power series representation of the local Hilbert scheme
ModuleDeformation -- calculate first cotangent cohomology
normalMatrix -- calculate normal module
normalMatrix(...,SourceRing=>...) -- calculate normal module
normalMatrix(Ideal) -- calculate normal module
normalMatrix(InfiniteNumber,ZZ,Ideal) -- calculate normal module
normalMatrix(InfiniteNumber,ZZ,Matrix) -- calculate normal module
normalMatrix(List,Ideal) -- calculate normal module
normalMatrix(List,Matrix) -- calculate normal module
normalMatrix(Matrix) -- calculate normal module
normalMatrix(ZZ,Ideal) -- calculate normal module
normalMatrix(ZZ,InfiniteNumber,Ideal) -- calculate normal module
normalMatrix(ZZ,InfiniteNumber,Matrix) -- calculate normal module
normalMatrix(ZZ,Matrix) -- calculate normal module
normalMatrix(ZZ,ZZ,Ideal) -- calculate normal module
normalMatrix(ZZ,ZZ,Matrix) -- calculate normal module
PolynomialCheck -- checks if power series solution terminates
SanityCheck -- checks if lifting solves deformation equation
SmartLift -- chooses lifting to avoid obstructions at next order
versalDeformation -- computes a power series representation of a versal deformation
versalDeformation(...,CacheName=>...) -- computes a power series representation of a versal deformation
versalDeformation(...,CorrectionMatrix=>...) -- computes a power series representation of a versal deformation
versalDeformation(...,DefParam=>...) -- computes a power series representation of a versal deformation
versalDeformation(...,DegreeBound=>...) -- determines the degree limit used to compute the tangent cone of obstruction equations
versalDeformation(...,HighestOrder=>...) -- computes a power series representation of a versal deformation
versalDeformation(...,PolynomialCheck=>...) -- computes a power series representation of a versal deformation
versalDeformation(...,SanityCheck=>...) -- computes a power series representation of a versal deformation
versalDeformation(...,SmartLift=>...) -- computes a power series representation of a versal deformation
versalDeformation(...,Verbose=>...) -- control the verbosity of output
versalDeformation(List,List,List,List) -- continues calculation of a versal deformation
versalDeformation(Matrix) -- computes a power series representation of a versal deformation
versalDeformation(Matrix,Matrix,Matrix) -- computes a power series representation of a versal deformation
VersalDeformationResults -- hash table key for cached solutions to the deformation equation
VersalDeformations -- calculating versal deformations and local Hilbert schemes