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Subindex: lift  ..  Linear


lift

   Teichmüller Lifts (p-ADIC RINGS AND THEIR EXTENSIONS)

LiftCharacter

   LiftCharacter(c, f, G) : AlgChtrElt, Map, Grp -> AlgChtrElt

LiftCharacters

   LiftCharacters(T, f, G) : [AlgChtrElt], Map, Grp -> AlgChtrElt

LiftCocycle

   LiftCocycle(M, c) : Map, UserProgram -> UserProgram
   InflationMapImage(M, c) : Map, UserProgram -> UserProgram

LiftDescendant

   TwoDescendantsOverTwoIsogenyDescendant(C) : CrvHyp -> SeqEnum[ CrvHyp ], List, MapSch
   LiftDescendant(C) : CrvHyp -> SeqEnum[ CrvHyp ], List, MapSch

Lifter

   IsolatedPointsLifter(S,P) : Sch, SeqEnum -> BoolElt, Pt

LiftHomomorphism

   LiftHomomorphism(x, n) : ModAlgElt, RngIntElt -> ModMatFldElt
   LiftHomomorphism(X, N) : SeqEnum[ModAlgElt], SeqEnum[RngIntElt] -> ModMatFldElt

lifting

   Induction, Restriction and Lifting (CHARACTERS OF FINITE GROUPS)
   Lifting Algorithm (FINITE SOLUBLE GROUPS)

lifting-auto-soluble-group

   Lifting Algorithm (FINITE SOLUBLE GROUPS)

LiftMap

   LiftMap(m, R) : Map, RngDiffOp -> Map

LiftPoint

   LiftPoint(P, n) : Pt, RngIntElt -> Pt

LiftToChainmap

   LiftToChainmap(P,f,d) : ModCpx, Mtrx, RngIntElt -> MapChn

like

   Z as a Number Field Order (INTEGER RESIDUE CLASS RINGS)

LIMIT

   MAGMA_MEMORY_LIMIT

Limit

   HypergeometricMotiveClearTable() : Void -> Void
   HypergeometricMotiveSaveLimit(n) : RngIntElt -> Void
   PrimitiveGroupDatabaseLimit() : -> RngIntElt
   SetMemoryLimit(n) : RngIntElt ->
   SmallGroupDatabaseLimit() : -> RngIntElt
   TransitiveGroupDatabaseLimit() : -> RngIntElt

limit

   Limits (FINITELY PRESENTED ALGEBRAS)

limits

   Modifying Limits (AUTOMATIC GROUPS)

lin

   Linear Algebra (p-ADIC RINGS AND THEIR EXTENSIONS)
   LINEAR PROGRAMMING

lin-alg

   Linear Algebra (p-ADIC RINGS AND THEIR EXTENSIONS)

lin-opt

   LINEAR PROGRAMMING

linalg

   IsSubsystem(L,K) : LinearSys,LinearSys -> BoolElt
   Basic Algebra of Linear Systems (SCHEMES)

Line

   IsLineRegular(D) : IncNsp -> BoolElt, RngIntElt
   IsLineTransitive(P) : Plane -> BoolElt
   Line(C,p,q) : CrvPln, Pt,Pt -> CrvPln
   Line(D, p, q) : Inc, IncPt, IncPt -> IncBlk
   LineAtInfinity(A) : Aff -> CrvPln
   LineGraph(G) : Grph -> Grph
   LineGraph(P) : Plane -> Grph
   LineGraph(P) : Plane -> GrphUnd
   LineGroup(P) : Plane -> GrpPerm, PowMap, Map
   LineOrbits(G) : GrpMat -> [ SetIndx ]
   LineSet(P) : Plane -> PlaneLnSet
   SetLineEditor(b) : BoolElt ->
   TangentLine(p) : Pt -> Crv

line

   Constructing Complements, Line Graphs; Contraction, Switching (GRAPHS)
   The Magma Line Editor (ENVIRONMENT AND OPTIONS)
   The Point-Set and Line-Set of a Plane (FINITE PLANES)
   The Set of Points and Set of Lines (FINITE PLANES)
   Using the Point-Set and Line-Set to Create Points and Lines (FINITE PLANES)

line-editor

   The Magma Line Editor (ENVIRONMENT AND OPTIONS)

Linear

   AdjointLinearSystemForNodalCurve(C, d) : Crv -> LinearSys
   AdjointIdealForNodalCurve(C) : Crv -> RngMPol
   AdjointLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
   AffineGammaLinearGroup(arguments)
   AffineGeneralLinearGroup(arguments)
   AffineGeneralLinearGroup(GrpMat, n, q) : Cat, RngIntElt, RngIntElt -> GrpMat
   AffineSigmaLinearGroup(arguments)
   AffineSpecialLinearGroup(arguments)
   AffineSpecialLinearGroup(GrpMat, n, q) : Cat, RngIntElt, RngIntElt -> GrpMat
   AllLinearRelations(q,p): SeqEnum, RngIntElt -> Lat
   BDLC(K, n, d) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
   BKLC(K, n, k) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
   BLLC(K, k, d) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
   CanonicalLinearSystem(C) : Crv -> LinearSys
   CanonicalLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
   ConeQuotientByLinearSubspace(C) : TorCon -> TorCon,Map,Map
   GeneralLinearGroup(n, R) : RngIntElt, Rng -> GrpMat
   GeneralLinearGroup(n, q) : RngIntElt, RngIntElt -> GrpMat
   GilbertVarshamovLinearBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt
   HasLinearGrayMapImage(C) : Code -> BoolElt, Code
   IsAffineLinear(f) : MapSch -> BoolElt
   IsAffineLinear(P) : TorPol -> BoolElt
   IsLinear(x) : AlgChtrElt -> BoolElt
   IsLinear(f) : MapSch -> BoolElt
   IsLinear(X) : Sch -> BoolElt
   IsLinearGroup(G) : GrpMat -> BoolElt
   IsLinearSpace(D) : Inc -> BoolElt
   IsLinearSystemNonEmpty(D) : DivSchElt -> BoolElt, DivSchElt
   IsNearLinearSpace(D) : Inc -> BoolElt
   IsSemiLinear(G) : GrpMat -> BoolElt
   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
   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
   NearLinearSpace(I) : Inc -> IncNsp
   NearLinearSpace< v | X : parameters > : RngIntElt, List -> IncNsp
   ProjectiveGammaLinearGroup(arguments)
   ProjectiveGeneralLinearGroup(arguments)
   ProjectiveSigmaLinearGroup(arguments)
   ProjectiveSpecialLinearGroup(arguments)
   RandomLinearCode(K, n, k) : FldFin, RngIntElt, RngIntElt -> Code
   RandomLinearCode(R, n, k) : Rng, RngIntElt, RngIntElt -> Code
   RemoveLinearRelations(X) : Sch -> Sch, MapIsoSch
   ResolveLinearSystem(D) : DivTorElt -> TorVar
   SemiLinearGroup(G, S) : GrpMat, FldFin -> GrpMat
   SpecialLinearGroup(n, q) : RngIntElt, RngIntElt -> GrpMat

[____] [____] [_____] [____] [__] [Index] [Root]

Version: V2.19 of Wed Apr 24 15:09:57 EST 2013