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polynomialExt(...,Strategy=>...)
Description
Option is passed to Dresolution. See
Dresolution(...,Strategy=>...)
Functions with optional argument named
Strategy
:
addHook(...,Strategy=>...)
-- see
addHook
-- add a hook function to an object for later processing
annihilator(...,Strategy=>...)
(missing documentation)
basis(...,Strategy=>...)
-- see
basis
-- basis or generating set of all or part of a ring, ideal or module
bFunction(...,Strategy=>...)
-- specify strategy for computing b-function
mingens(...,Strategy=>...)
-- see
Complement
-- a Strategy option value
trim(...,Strategy=>...)
-- see
Complement
-- a Strategy option value
compose(Module,Module,Module,Strategy=>...)
-- see
compose
-- composition as a pairing on Hom-modules
decompose(Ideal,Strategy=>...)
(missing documentation)
deRham(...,Strategy=>...)
deRhamAll(...,Strategy=>...)
determinant(...,Strategy=>...)
-- choose between Bareiss, Cofactor and Dynamic algorithms
DExt(...,Strategy=>...)
DHom(...,Strategy=>...)
Dintegration(...,Strategy=>...)
DintegrationAll(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
DintegrationClasses(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
DintegrationComplex(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
DintegrationIdeal(...,Strategy=>...)
Drestriction(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
DrestrictionAll(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
DrestrictionClasses(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
DrestrictionComplex(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
DrestrictionIdeal(...,Strategy=>...)
-- see
DintegrationIdeal(...,Strategy=>...)
Dlocalize(...,Strategy=>...)
-- strategy for computing a localization of a D-module
DlocalizeAll(...,Strategy=>...)
-- see
Dlocalize(...,Strategy=>...)
-- strategy for computing a localization of a D-module
DlocalizeMap(...,Strategy=>...)
-- see
Dlocalize(...,Strategy=>...)
-- strategy for computing a localization of a D-module
Dresolution(...,Strategy=>...)
-- strategy for computing a resolution of a D-module
dual(MonomialIdeal,List,Strategy=>...)
-- see
dual(MonomialIdeal,Strategy=>...)
dual(MonomialIdeal,RingElement,Strategy=>...)
-- see
dual(MonomialIdeal,Strategy=>...)
dual(MonomialIdeal,Strategy=>...)
End(...,Strategy=>...)
-- see
End
-- module of endomorphisms
exteriorPower(...,Strategy=>...)
-- choose between Bareiss, Cofactor and Dynamic algorithms
gb(...,Strategy=>...)
-- see
gb
-- compute a Gröbner basis
gbw(...,Strategy=>...)
-- see
gbw
-- compute a Gröbner basis with respect to a weight vector
generalB(...,Strategy=>...)
-- specify strategy for computing generalized Bernstein-Sato polynomial
GF(...,Strategy=>...)
-- see
GF
-- make a finite field
globalBFunction(...,Strategy=>...)
-- specify strategy for computing global b-function
groebnerBasis(...,Strategy=>...)
-- see
groebnerBasis
-- Gröbner basis, as a matrix
Hom(...,Strategy=>...)
-- see
Hom
-- module of homomorphisms
homomorphism'(...,Strategy=>...)
-- see
homomorphism'
-- get the element of Hom from a homomorphism
hooks(...,Strategy=>...)
-- see
hooks
-- list hooks attached to a key
intersect(Ideal,Ideal,Strategy=>...)
-- see
intersect(Ideal,Ideal)
-- compute an intersection of a sequence of ideals or modules
intersect(Module,Module,Strategy=>...)
-- see
intersect(Ideal,Ideal)
-- compute an intersection of a sequence of ideals or modules
intersectionCohomology(...,Strategy=>...)
-- see
intersectionCohomology
-- intersection cohomology of an irreducible affine variety
isInMultiplierIdeal(...,Strategy=>...)
-- see
isInMultiplierIdeal(RingElement,Ideal,QQ)
-- multiplier ideal membership test
isPrime(Ideal,Strategy=>...)
(missing documentation)
lct(...,Strategy=>...)
-- specify strategy for computing lct
localCohom(...,Strategy=>...)
-- specify strategy for local cohomology
match(...,Strategy=>...)
-- see
match
-- regular expression matching
minors(...,Strategy=>...)
-- choose between Bareiss, Cofactor and Dynamic algorithms
jumpingCoefficients(...,Strategy=>...)
-- see
multiplierIdeal(Ideal,QQ)
-- multiplier ideal
multiplierIdeal(...,Strategy=>...)
-- see
multiplierIdeal(Ideal,QQ)
-- multiplier ideal
normalCone(Ideal,RingElement,Strategy=>...)
(missing documentation)
normalCone(Ideal,Strategy=>...)
(missing documentation)
parallelApply(...,Strategy=>...)
-- see
parallelApply
-- apply a function to each element in parallel
polynomialExt(...,Strategy=>...)
pushForward(...,Strategy=>...)
-- see
pushForward(RingMap,Module)
-- compute the pushforward of a module along a ring map
quotient'(...,Strategy=>...)
(missing documentation)
quotient(...,Strategy=>...)
(missing documentation)
rationalFunctionExt(...,Strategy=>...)
resolution(...,Strategy=>...)
saturate(...,Strategy=>...)
(missing documentation)
syz(...,Strategy=>...)
-- see
syz(Matrix)
-- compute the syzygy matrix
Further information
Default value:
Schreyer
Function:
polynomialExt
-- Ext groups between a holonomic module and a polynomial ring
Option key:
Strategy
-- an optional argument
The source of this document is in
BernsteinSato/DOC/DHom.m2:150:0
.