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Subindex: EquationOrder  ..  error-correcting-linear-code


EquationOrder

   EquationOrder(A) : FldAb -> RngOrd
   EquationOrder(K) : FldNum -> RngOrd
   EquationOrder(F) : FldQuad -> RngQuad
   EquationOrder(O) : RngFunOrd -> RngFunOrd
   EquationOrder(O) : RngOrd -> RngOrd
   EquationOrder(f) : RngUPolElt -> RngOrd

EquationOrderFinite

   EquationOrderFinite(F) : FldFun -> RngFunOrd

EquationOrderInfinite

   EquationOrderInfinite(F) : FldFun -> RngFunOrd

Equations

   DefiningEquations(model) : ModelG1 -> [ RngMPolElt ]
   DefiningPolynomials(f) : MapSch -> SeqEnum
   Equations(model) : ModelG1 -> [ RngMPolElt ]
   LinearSpanEquations(C) : TorCon -> SeqEnum

equations

   Functions of the Equations (SCHEMES)
   Norm Equations (CLASS FIELD THEORY)

Equidimensional

   EquidimensionalDecomposition(I) : RngMPol -> [ RngMPol ]
   FineEquidimensionalDecomposition(I) : RngMPol -> SeqEnum
   EquidimensionalPart(I) : RngMPol -> RngMPol

equidimensional

   Equidimensional Decomposition (POLYNOMIAL RING IDEAL OPERATIONS)

equidimensional-decomposition

   Equidimensional Decomposition (POLYNOMIAL RING IDEAL OPERATIONS)

EquidimensionalDecomposition

   EquidimensionalDecomposition(I) : RngMPol -> [ RngMPol ]
   FineEquidimensionalDecomposition(I) : RngMPol -> SeqEnum
   EquidimensionalPart(I) : RngMPol -> RngMPol
   Ideal_EquidimensionalDecomposition (Example H106E12)

EquidimensionalPart

   EquidimensionalDecomposition(I) : RngMPol -> [ RngMPol ]
   FineEquidimensionalDecomposition(I) : RngMPol -> SeqEnum
   EquidimensionalPart(I) : RngMPol -> RngMPol

Equidistant

   IsEquidistant(C) : Code -> BoolElt

Equitable

   EquitablePartition(P, G) : { { GrphVert } }, GrphUnd -> { { GrphVert } }
   IsEquitable(G, P) : GrphUnd, { { GrphVert } } -> BoolElt

EquitablePartition

   EquitablePartition(P, G) : { { GrphVert } }, GrphUnd -> { { GrphVert } }

equivalence

   IsEquivalent(C, D: parameters) : Code, Code -> BoolElt, Map
   Equivalence and Isomorphism of Codes (LINEAR CODES OVER FINITE FIELDS)
   Linear Equivalence of Divisors (ALGEBRAIC CURVES)

Equivalent

   IsLinearlyEquivalent(D,E) : DivTorElt,DivTorElt -> BoolElt
   AreLinearlyEquivalent(D,E) : DivTorElt,DivTorElt -> BoolElt
   ColonIdealEquivalent(I, f) : RngMPol, RngMPolElt -> RngMPol, RngMPolElt
   EquivalentPoint(x) : SpcHypElt -> SpcHypElt, GrpPSL2Elt
   IsBravaisEquivalent(G, H) : GrpMat[RngInt], GrpMat[RngInt] -> BoolElt, GrpMatElt
   IsCartanEquivalent(C1, C2) : AlgMatElt, AlgMatElt -> BoolElt
   IsCartanEquivalent(G, H) : GrpLie, GrpLie -> BoolElt
   IsCartanEquivalent(W1, W2) : GrpMat, GrpMat -> BoolElt
   IsCartanEquivalent(W1, W2) : GrpPermCox, GrpPermCox -> BoolElt
   IsCartanEquivalent(N1, N2) : MonStgElt, MonStgElt -> BoolElt
   IsCartanEquivalent(R1, R2) : RootDtm, RootDtm -> BoolElt
   IsCartanEquivalent(R1, R2) : RootSys, RootSys -> BoolElt
   IsEquivalent(G,a,b) : GrpPSL2, SpcHypElt, SpcHypElt -> BoolElt, GrpPSL2Elt
   IsEquivalent(g,h,G) : GrpPSL2Elt, GrpPSL2Elt, GrpPSL2 -> BoolElt
   IsEquivalent(model1, model2) : ModelG1, ModelG1 -> BoolElt, Tup
   IsEquivalent(f, g) : QuadBinElt, QuadBinElt -> BoolElt, AlgMatElt
   IsEquivalent(f,g) : RngUPolElt, RngUPolElt -> BoolElt
   IsGL2Equivalent(f, g, n) : RngUPolElt, RngUPolElt, RngIntElt -> BoolElt, SeqEnum
   IsHadamardEquivalent(H, J : parameters) : AlgMatElt, AlgMatElt -> BoolElt, AlgMatElt, AlgMatElt
   IsIsomorphic(C, D: parameters) : Code, Code -> BoolElt, Map
   IsKnuthEquivalent(w1, w2) : MonOrdElt, MonOrdElt -> BoolElt
   IsLinearlyEquivalent(D1,D2) : DivCrvElt,DivCrvElt -> BoolElt
   IsLinearlyEquivalent(D,E) : DivSchElt, DivSchElt -> BoolElt, FldFunFracSchElt
   IsLinearlyEquivalentToCartier(D) : DivTorElt -> BoolElt, DivTorElt

equivalent

   Writing Representations over Subfields (MATRIX GROUPS OVER FINITE FIELDS)

equivalent-rep

   Writing Representations over Subfields (MATRIX GROUPS OVER FINITE FIELDS)

EquivalentPoint

   EquivalentPoint(x) : SpcHypElt -> SpcHypElt, GrpPSL2Elt

Erf

   Erf(r) : FldReElt -> FldReElt
   ErrorFunction(r) : FldReElt -> FldReElt

Erfc

   Erfc(r) : FldReElt -> FldReElt
   ComplementaryErrorFunction(r) : FldReElt -> FldReElt

Error

   Erfc(r) : FldReElt -> FldReElt
   ComplementaryErrorFunction(r) : FldReElt -> FldReElt
   Error(x) : Any -> Err
   ErrorFunction(r) : FldReElt -> FldReElt
   QuantumBinaryErrorGroup(n) : RngIntElt -> GrpPC
   QuantumErrorGroup(Q) : CodeQuantum -> GrpPC
   QuantumErrorGroup(p, n) : RngIntElt, RngIntElt -> GrpPC
   SetDebugOnError(f) : BoolElt ->
   SetQuitOnError(b) : BoolElt ->

error

   ADDITIVE CODES
   ALGEBRAIC-GEOMETRIC CODES
   Catching Errors (STATEMENTS AND EXPRESSIONS)
   Error Handling Statements (STATEMENTS AND EXPRESSIONS)
   LINEAR CODES OVER FINITE FIELDS
   LINEAR CODES OVER FINITE RINGS
   LOW DENSITY PARITY CHECK CODES
   QUANTUM CODES
   The Error Objects (STATEMENTS AND EXPRESSIONS)
   error expression, ..., expression;

error-catching

   Catching Errors (STATEMENTS AND EXPRESSIONS)

error-correcting-additive-code

   ADDITIVE CODES

error-correcting-linear-code

   ALGEBRAIC-GEOMETRIC CODES
   LINEAR CODES OVER FINITE FIELDS
   LINEAR CODES OVER FINITE RINGS
   LOW DENSITY PARITY CHECK CODES

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Version: V2.19 of Mon Dec 17 14:40:36 EST 2012