[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: linear .. linsys
ALGEBRAIC-GEOMETRIC CODES
Creation of a Matrix Group (MATRIX GROUPS OVER GENERAL RINGS)
Linear Algebra (SCHEMES)
LINEAR CODES OVER FINITE FIELDS
LINEAR CODES OVER FINITE RINGS
Linear Equivalence of Divisors (ALGEBRAIC CURVES)
Linear Groups (ALMOST SIMPLE GROUPS)
LOW DENSITY PARITY CHECK CODES
Operations with Linear Transformations (VECTOR SPACES)
Permutation Representations of Linear Groups (PERMUTATION GROUPS)
VECTOR SPACES
IsSubsystem(L,K) : LinearSys,LinearSys -> BoolElt
Linear Algebra (SCHEMES)
Linear Equivalence of Divisors (ALGEBRAIC CURVES)
Permutation Representations of Linear Groups (PERMUTATION GROUPS)
RngOrdGal_linear-relations (Example H38E7)
Operations with Linear Transformations (VECTOR SPACES)
LinearCharacters(G): Grp -> SeqEnum
LinearCharacters(G) : GrpMat -> [ Chtr ]
LinearCode(C, S) : Code, FldFin -> Code, Map
LinearCode<R, n | L> : FldFin, RngIntElt, List -> Code
LinearCode(D, K) : Inc, FldFin -> Code
LinearCode(A) : ModMatRngElt -> Code
LinearCode(A) : ModMatRngElt -> Code
LinearCode(U) : ModTupRng -> Code
LinearCode(U) : ModTupRng -> Code
LinearCode(P, K) : Plane, FldFin -> Code
LinearCode<R, n | L> : Rng, RngIntElt, List -> Code
LinearCovariants(f) : RngMPolElt -> SeqEnum
LinearElimination(S) : Sch -> Map
CrvEllQNF_LinearIndependence (Example H122E9)
IsLinearlyEquivalent(D,E) : DivTorElt,DivTorElt -> BoolElt
AreLinearlyEquivalent(D,E) : DivTorElt,DivTorElt -> BoolElt
IsLinearlyDependent(points) : [PtEll] -> BoolElt, ModTupRngElt
IsLinearlyEquivalent(D1,D2) : DivCrvElt,DivCrvElt -> BoolElt
IsLinearlyEquivalent(D,E) : DivSchElt, DivSchElt -> BoolElt, FldFunFracSchElt
IsLinearlyEquivalentToCartier(D) : DivTorElt -> BoolElt, DivTorElt
IsLinearlyIndependent(P, Q) : PtEll, PtEll -> BoolElt, ModTupElt
IsLinearlyIndependent(P, Q, n) : PtEll, PtEll, RngIntElt -> BoolElt
IsLinearlyIndependent(S) : [ PtEll ] -> BoolElt, ModTupElt
IsLinearlyIndependent(S, n) : [ PtEll ], RngIntElt -> BoolElt
LinearRelation(q: parameters) : [ FldComElt ] -> [ RngIntElt ]
LinearRelations(f) : RngUPolElt -> Mtrx, GaloisData
LinearRelations(f, I) : RngUPolElt, [RngSLPolElt] -> Mtrx, GaloisData
LinearSpace(I) : Inc -> IncLsp
LinearSpace< v | X : parameters > : RngIntElt, List -> IncLsp
LinearSpanEquations(C) : TorCon -> SeqEnum
LinearSpanGenerators(C) : TorCon -> SeqEnum
LinearSubspaceGenerators(C) : TorCon -> SeqEnum
LinearSystem(L,V) : LinearSys,ModTupFld -> LinearSys
LinearSystem(L,p) : LinearSys,Pt -> LinearSys
LinearSystem(L,p,m) : LinearSys,Pt,RngIntElt -> LinearSys
LinearSystem(L,X) : LinearSys,Sch -> LinearSys
LinearSystem(L,F) : LinearSys,SeqEnum -> LinearSys
LinearSystem(P, d) : Sch, [RngIntElt] -> LinearSys
LinearSystem(P,d) : Sch,RngIntElt -> LinearSys
LinearSystem(P,F) : Sch,SeqEnum[RngMPolElt] -> LinearSys
LinearSystemTrace(L,X) : LinearSys,Sch -> LinearSys
ModFld_LinearTrans (Example H28E14)
LineAtInfinity(A) : Aff -> CrvPln
IO_LineCount (Example H3E9)
LineGraph(G) : Grph -> Grph
LineGraph(P) : Plane -> Grph
LineGraph(P) : Plane -> GrphUnd
LineGroup(P) : Plane -> GrpPerm, PowMap, Map
LineOrbits(G) : GrpMat -> [ SetIndx ]
Linear Equivalence of Divisors (TORIC VARIETIES)
AllPassants(P, A) : Plane, { PlanePt } -> { PlaneLn }
ExternalLines(P, A) : Plane, { PlanePt } -> { PlaneLn }
Lines(P) : PlaneLnSet -> { PlaneLn }
NumberOfLines(P) : Plane -> RngIntElt
LineSet(P) : Plane -> PlaneLnSet
Linking(u,v) : GrphSplVert,GrphSplVert -> RngIntElt
LinkingNumbers(s) : GrphSpl -> SeqEnum
TotalLinking(v) : GrphSplVert -> RngIntElt
LinkingNumbers(s) : GrphSpl -> SeqEnum
IsSubsystem(L,K) : LinearSys,LinearSys -> BoolElt
Basic Algebra of Linear Systems (SCHEMES)
Creation of Linear Systems (SCHEMES)
Linear Systems (SCHEMES)
Linear Systems (SCHEMES)
Linear Systems and Maps (SCHEMES)
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012