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NCAlgebra : Table of Contents

NCAlgebra
- NCMatrix -- Negates NCMatrices
ambient(NCQuotientRing) -- Ambient ring of an NCQuotientRing
ambient(NCRingMap) -- Extends an NCRingMap to the ambient ring of the source.
assignDegrees -- Weights entries of a matrix to make associated map of free modules graded
baseName(NCRingElement) -- Returns the base name of a generator of an NCRing
basis(ZZ,NCIdeal) -- Returns a basis of an NCIdeal in a particular degree.
basis(ZZ,NCLeftIdeal) -- Returns a basis of an NCLeftIdeal in a particular degree.
basis(ZZ,NCRightIdeal) -- Returns a basis of an NCRightIdeal in a particular degree.
basis(ZZ,NCRing) -- Returns a basis of an NCRing in a particular degree.
centralElements -- Finds central elements in a given degree
coefficientRing(NCRing) -- Returns the base ring of an NCRing
coordinates -- Computes coordinates relative to a given basis
degree(NCRingElement) -- Returns the degree of an NCRingElement
endomorphismRing -- Methods for creating endomorphism rings of modules over a commutative ring
entries(NCMatrix) -- Returns the entries of the NCMatrix
envelopingAlgebra -- Create the enveloping algebra
fourDimSklyanin -- Defines a four-dimensional Sklyanin with given parameters
freeProduct -- Define the free product of two algebras
gbFromOutputFile -- Read in a NCGroebnerBasis from a Bergman output file.
gddKernel -- Computes a homogeneous generating set of the kernel of a ring map.
generators(NCGroebnerBasis) -- The list of algebra generators of an NCGroebnerBasis
generators(NCIdeal) -- Returns the generators of an NCIdeal
generators(NCLeftIdeal) -- Returns the generators of an NCLeftIdeal
generators(NCRightIdeal) -- Returns the generators of an NCRightIdeal
generators(NCRing) -- The list of algebra generators of an NCRing
hilbertBergman -- Calls Bergman to compute the Hilbert series of an NCQuotientRing
hilbertSeries(NCRing) -- Computes the Hilbert series of an NCRing
Hom(ZZ,NCMatrix,NCMatrix) -- Compute a graded component of Hom(M,N)
homogDual -- Computes the dual of a pure homogeneous ideal
ideal(NCPolynomialRing) -- The defining ideal of an NCPolynomialRing
ideal(NCQuotientRing) -- Defining ideal of an NCQuotientRing in its ambient ring
isCentral -- Determines if an element is central
isCommutative(NCRing) -- Returns whether an NCRing is commutative
isConstant(NCRingElement) -- Returns whether the NCRingElement is constant
isHomogeneous(NCIdeal) -- Determines whether the input defines a homogeneous object
isHomogeneous(NCRingMap) -- Determines if an NCRingMap preserves the natural grading
isLeftRegular -- Determines if a given (homogeneous) element is regular in a given degree
isNormal(NCRingElement) -- Determines if a given NCRingElement is normal
isWellDefined(NCRingMap) -- Determines if an NCRingMap is well-defined.
kernelComponent -- Computes a basis of the kernel of a ring map in a specified degree.
leadCoefficient(NCRingElement) -- Returns the lead monomial of an NCRingElement
leadMonomial(NCRingElement) -- Returns the lead monomial of an NCRingElement
leadTerm(NCRingElement) -- Returns the lead term of an NCRingElement
leftMultiplicationMap -- Computes a matrix for left or right multiplication by a homogeneous element
lift(NCMatrix) -- Lifts an NCMatrix
List * NCRingElement -- Scales a list by an NCRingElement on the right
List / NCRingMap -- Applies an NCRingMap to each element of a list
Matrix * NCMatrix -- Product of NCMatrices
matrix(NCRingMap) -- An NCMatrix associated to an NCRingMap.
minimizeRelations -- Minimizes a list of NCRingElements
monomials(NCRingElement) -- Returns the monomials appearing in the NCRingElement
NCGroebnerBasis -- Type of a Groebner basis for an NCIdeal in an NCRing.
ncGroebnerBasis -- Compute a noncommutative Groebner basis.
NCIdeal -- Type of a two-sided ideal in a noncommutative ring
ncIdeal -- Define a two-sided ideal in a noncommutative ring
NCIdeal + NCIdeal -- Sum of NCIdeals
NCLeftIdeal -- Type of a left ideal in a noncommutative ring
ncLeftIdeal -- Define a left ideal in a noncommutative ring
NCLeftIdeal + NCLeftIdeal -- Sum of NCLeftIdeals
ncMap -- Make a map to or from an NCRing
NCMatrix -- Type of a matrix over a noncommutative ring
ncMatrix -- Create an NCMatrix
NCMatrix % NCGroebnerBasis -- Reduces the entries of an NCMatrix with respect to an NCGroebnerBasis
NCMatrix * Matrix -- Product of NCMatrices
NCMatrix * NCMatrix -- Product of NCMatrices
NCMatrix * NCRingElement -- Product of NCMatrices
NCMatrix * QQ -- Product of NCMatrices
NCMatrix * RingElement -- Product of NCMatrices
NCMatrix * ZZ -- Product of NCMatrices
NCMatrix + NCMatrix -- Add NCMatrices
NCMatrix - NCMatrix -- Subtract NCMatrices
NCMatrix // NCMatrix -- Factor one map through another
NCMatrix == NCMatrix -- Test equality of matrices
NCMatrix ^ List -- Select some rows of an NCMatrix
NCMatrix ^ ZZ -- Exponentiate an NCMatrix
NCMatrix _ List -- Select some columns of an NCMatrix
NCMatrix _ ZZ -- Induced map in homogeneous degree n
NCMatrix | NCMatrix -- Join NCMatrices horizontally
NCMatrix || NCMatrix -- Join NCMatrices vertically
NCMatrix Array -- Graded shift of an NCMatrix.
NCPolynomialRing -- Type of a noncommutative polynomial ring
NCPolynomialRing / NCIdeal -- Construct a NCQuotientRing
NCQuotientRing -- Type of a noncommutative ring
NCRightIdeal -- Type of a right ideal in a noncommutative ring
ncRightIdeal -- Define a right ideal in a noncommutative ring
NCRightIdeal + NCRightIdeal -- Sum of NCRightIdeals
NCRing -- Type of a noncommutative ring
NCRingElement -- Type of an element in a noncommutative ring
NCRingElement % NCGroebnerBasis -- Reduces a NCRingElement by a NCGroebnerBasis
NCRingElement * List -- Scales a list by an NCRingElement on the left
NCRingElement * NCMatrix -- Product of NCMatrices
NCRingMap -- Type of a map to or from a noncommutative ring.
NCRingMap + NCRingMap -- Basic operations with NCRingMaps
NCRingMap @@ NCRingMap -- Compose two NCRingMaps
NCRingMap _ ZZ -- Matrix of one homogeneous component of an NCRingMap
NCRingMap NCIdeal -- Apply a ring map to the generators of an ideal
NCRingMap NCRingElement -- Apply an NCRingMap to an element or matrix
normalAutomorphism -- Computes the automorphism determined by a normal homogeneous element
normalElements -- Finds normal elements
normalElements(NCRingMap,ZZ) -- Finds elements normalized by a ring map
normalFormBergman -- Calls Bergman for a normal form calculation
numgens(NCRing) -- The number of algebra generators of an NCRing
oppositeRing -- Creates the opposite ring of a noncommutative ring
oreExtension -- Creates an Ore extension of a noncommutative ring
oreIdeal -- Creates the defining ideal of an Ore extension of a noncommutative ring
QQ * NCMatrix -- Product of NCMatrices
qTensorProduct -- Define the (q-)commuting tensor product
quadraticClosure -- Creates the subideal generated by quadratic elements of a given ideal
resolution(NCMatrix) -- Compute the resolution of coker M as a map of free right modules
rightKernel -- Method for computing kernels of matrices over noncommutative rings in a given degree without using Bergman
rightKernelBergman -- Methods for computing kernels of matrices over noncommutative rings using Bergman
ring(NCIdeal) -- Returns the ring of an NCIdeal or NCGroebnerBasis
ring(NCLeftIdeal) -- Returns the ring of an NCLeftIdeal
ring(NCMatrix) -- Gives the ring of the NCMatrix
ring(NCRightIdeal) -- Returns the ring of an NCRightIdeal
ring(NCRingElement) -- Returns the NCRing of an NCRingElement
RingElement * NCMatrix -- Product of NCMatrices
setWeights -- Set a nonstandard grading for a NCRing.
size(NCRingElement) -- Returns the number of terms of an NCRingElement
skewPolynomialRing -- Defines a skew polynomial ring via a skewing matrix
skewPolynomialRing(Ring,RingElement,List) -- Defines a skew polynomial ring via a scaling factor
source(NCRingMap) -- Source of a map
sparseCoeffs -- Converts ring elements into vectors over the coefficient ring
support(NCRingElement) -- Returns the variables appearing in the NCRingElement
target(NCRingMap) -- Target of a map
terms(NCRingElement) -- Returns the terms of an NCRingElement
threeDimSklyanin -- Defines a three-dimensional Sklyanin with given parameters
toM2Ring -- Compute the abelianization of an NCRing and returns a Ring.
toNCRing -- Converts a Ring to an NCRing
toString(NCRingElement) -- Converts an NCRingElement to a string
transpose(NCMatrix) -- Transposes an NCMatrix
twoSidedNCGroebnerBasisBergman -- Calls Bergman to compute a two sided noncommutative Groebner Basis.
use(NCRing) -- Brings the variables of a particular NCRing in scope
ZZ * NCMatrix -- Product of NCMatrices