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NeuralIdeals : Index
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==
-- determines whether two NeuralCodes are equal
allCodeWords
(missing documentation)
canonicalForm
-- computes the canonical form of a neural ideal
canonicalForm(Ideal)
-- computes the canonical form of a neural ideal
canonicalForm(Ideal,SharedIndex=>...)
-- computes the canonical form of a neural ideal
canonicalForm(NeuralCode)
-- computes the canonical form of a neural ideal
canonicalForm(NeuralCode,Iterative=>...)
-- computes the canonical form of a neural ideal
canonicalResolution
-- canonical resolution of a neural code
canonicalResolution(NeuralCode)
-- canonical resolution of a neural code
codeSupport
-- lists which neurons fire together
codeSupport(NeuralCode)
-- lists which neurons fire together
codeWords
-- of a neural code
depolarizationMap
-- creates the depolarization map
depolarizationMap(Ring,Ring)
-- creates the depolarization map
dim
-- dimension of a NeuralCode
dim(NeuralCode)
-- dimension of a NeuralCode
isCanonical
-- determines whether a neural ideal is in canonical form
isCanonical(...,Polarized=>...)
-- determines whether a neural ideal is in canonical form
isCanonical(Ideal)
-- determines whether a neural ideal is in canonical form
isWellDefined
-- determines whether a NeuralCode is well-defined
isWellDefined(NeuralCode)
-- determines whether a NeuralCode is well-defined
Iterative
-- the default method for computing the canonical form of a neural code
NeuralCode
-- type of a neural code
neuralCode
-- creates a NeuralCode object
NeuralCode == NeuralCode
-- determines whether two NeuralCodes are equal
neuralCode(Ideal)
-- creates a NeuralCode object
neuralCode(Ideal,Polarized=>...)
-- creates a NeuralCode object
neuralCode(List)
-- creates a NeuralCode object
neuralCode(List,Ring)
-- creates a NeuralCode object
neuralCode(List,Ring,Ring)
-- creates a NeuralCode object
neuralCode(List,String,String)
-- creates a NeuralCode object
neuralIdeal
-- computes the neural ideal of a neural code.
neuralIdeal(NeuralCode)
-- computes the neural ideal of a neural code.
NeuralIdeals
-- canonical forms of neural ideals
Polar
(missing documentation)
Polarized
-- determine whether a polarized ideal is in canonical form
polarizedCanonicalForm
-- computes the polarized canonical form
polarizedCanonicalForm(Ideal)
-- computes the polarized canonical form
polarizedCanonicalForm(Ideal,Ring)
-- computes the polarized canonical form
polarizedCanonicalForm(NeuralCode)
-- computes the polarized canonical form
polarizedCanonicalIdeal
-- polarized ideal generated by the canonical form
polarizedCanonicalIdeal(Ideal)
-- polarized ideal generated by the canonical form
polarizedCanonicalIdeal(Ideal,Ring)
-- polarized ideal generated by the canonical form
polarizedCanonicalIdeal(NeuralCode)
-- polarized ideal generated by the canonical form
polarizedCanonicalResolution
-- computes the polarized canonical resolution
polarizedCanonicalResolution(NeuralCode)
-- computes the polarized canonical resolution
polarizedRing
-- returns the polarized ring of a NeuralCode
polarizedRing(NeuralCode)
-- returns the polarized ring of a NeuralCode
polarizeList
-- polarizes a list of ring elements
polarizeList(List)
-- polarizes a list of ring elements
polarizeList(List,Ring)
-- polarizes a list of ring elements
polarizePseudomonomial
-- polarizes a pseudomonomial
polarizePseudomonomial(RingElement)
-- polarizes a pseudomonomial
polarizePseudomonomial(RingElement,Ring)
-- polarizes a pseudomonomial
receptiveFieldRelation
-- gives the receptive field relation corresponding ot a pseudomonomial
receptiveFieldRelation(RingElement)
-- gives the receptive field relation corresponding ot a pseudomonomial
ring
-- ring of a NeuralCode
ring(NeuralCode)
-- ring of a NeuralCode
SharedIndex
-- the default method for computing the canonical form of a neural ideal