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Strategy -- specify a computational strategy
Description
Strategy => v
-- an optional argument used with various routines to suggest a strategy for efficient computation.
Functions with optional argument named Strategy :
annihilator(..., Strategy => ...), see
annihilator
-- the annihilator ideal
associatedPrimes(..., Strategy => ...)
determinant(..., Strategy => ...)
-- choose between Bareiss and Cofactor algorithms
exteriorPower(..., Strategy => ...)
-- choose between Bareiss and Cofactor algorithms
gb(..., Strategy => ...)
-- set the Groebner basis strategy
gcdLLL(..., Strategy => ...)
hermite(..., Strategy => ...)
-- missing documentation
ICfractions(..., Strategy => ...)
-- missing documentation
LLL(..., Strategy => ...)
-- choose among different algorithms
localize(..., Strategy => ...)
mingens(..., Strategy => ...)
-- missing documentation
minimalPresentation(..., Strategy => ...)
-- missing documentation
minors(..., Strategy => ...)
-- choose between Bareiss and Cofactor algorithms
primaryComponent(..., Strategy => ...)
primaryDecomposition(..., Strategy => ...)
pushForward(..., Strategy => ...)
pushForward1(..., Strategy => ...)
-- specify which algorithm to use in the computation
quotient(..., Strategy => ...)
-- Possible strategies are: Iterate, Linear, and Quotient
resolution(..., Strategy => ...)
saturate(..., Strategy => ...)
syz(..., Strategy => ...)
-- specify the strategy used to compute the Groebner basis
tangentCone(..., Strategy => ...), see
tangentCone(Ideal)
For the programmer
The object
Strategy
is
a
symbol
.