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AInfinity
-- A-infinity algebra and module structures on free resolutions
aInfinity
-- aInfinity algebra and module structures on free resolutions
aInfinity(...,Check=>...)
-- aInfinity algebra and module structures on free resolutions
aInfinity(...,LengthLimit=>...)
-- aInfinity algebra and module structures on free resolutions
aInfinity(...,Order=>...)
-- aInfinity algebra and module structures on free resolutions
aInfinity(HashTable,Module)
-- aInfinity algebra and module structures on free resolutions
aInfinity(Module)
-- aInfinity algebra and module structures on free resolutions
aInfinity(Ring)
-- aInfinity algebra and module structures on free resolutions
burkeDifferential
-- compute a resolution from A-infinity structures
burkeDifferential(HashTable,HashTable,ZZ)
-- compute a resolution from A-infinity structures
burkeResolution
-- compute a resolution from A-infinity structures
burkeResolution(...,Check=>...)
-- compute a resolution from A-infinity structures
burkeResolution(Module,ZZ)
-- compute a resolution from A-infinity structures
Check
-- Option for burkeResolution
displayBlocks
-- prints a matrix showing the source and target decomposition
displayBlocks(Matrix)
-- prints a matrix showing the source and target decomposition
extractBlocks
-- displays components of a map in a labeled complex
extractBlocks(Matrix,List)
-- displays components of a map in a labeled complex
extractBlocks(Matrix,List,List)
-- displays components of a map in a labeled complex
golodBetti
-- list the ranks of the free modules in the resolution of a Golod module
golodBetti(Module,ZZ)
-- list the ranks of the free modules in the resolution of a Golod module
hasMinimalMult
-- Determines if the A-infinity multiplication is minimal
hasMinimalMult(Ideal)
-- Determines if the A-infinity multiplication is minimal
hasMinimalMult(Ideal,ZZ)
-- Determines if the A-infinity multiplication is minimal
hasMinimalMult(Ring)
-- Determines if the A-infinity multiplication is minimal
hasMinimalMult(Ring,InfiniteNumber)
-- Determines if the A-infinity multiplication is minimal
hasMinimalMult(Ring,ZZ)
-- Determines if the A-infinity multiplication is minimal
isGolodAInf
-- Determines if the ring is Golod or not
isGolodAInf(Ring)
-- Determines if the ring is Golod or not
picture
-- displays information about the blocks of a map or maps between direct sum modules
picture(...,ShowRanks=>...)
-- displays information about the blocks of a map or maps between direct sum modules
picture(ChainComplex)
-- displays information about the blocks of a map or maps between direct sum modules
picture(Complex)
-- displays information about the blocks of a map or maps between direct sum modules
picture(Matrix)
-- displays information about the blocks of a map or maps between direct sum modules
picture(Module)
-- displays information about the blocks of a map or maps between direct sum modules
ShowRanks
-- displays information about the blocks of a map or maps between direct sum modules