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Subindex: SingerDifferenceSet  ..    Small




SingerDifferenceSet

   SingerDifferenceSet(n, q) : RngIntElt, RngIntElt ->					{ RngIntResElt }


Single

   InverseRSKCorrespondenceSingleWord(t1, t2) : Tbl, Tbl -> MonOrdElt

   IsSinglePrecision(n) : RngIntElt -> BoolElt


single

   The `single use' Rule (MAGMA SEMANTICS)


single-use

   The `single use' Rule (MAGMA SEMANTICS)


Singleton

   SingletonAsymptoticBound(delta) : FldPrElt -> FldPrElt

   SingletonBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt


SingletonAsymptoticBound

   SingletonAsymptoticBound(delta) : FldPrElt -> FldPrElt


SingletonBound

   SingletonBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt


Singular

   HasSingularPointsOverExtension(C) : Sch -> BoolElt

   IsSingular(A) : Mtrx -> BoolElt

   IsSingular(C) : Sch -> BoolElt

   IsSingular(X) : Sch -> BoolElt

   IsSingular(p) : Sch,Pt -> BoolElt

   IsSingular(p) : Sch,Pt -> BoolElt

   IsSingular(p) : Sch,Pt -> BoolElt

   K3SingularRank(X) : GrphVert -> RngIntElt

   SingularPoints(C) : Sch -> SetIndx

   SingularSubscheme(X) : Sch -> Sch


SingularElements

   Lat_SingularElements (Example H46E9)


Singularity

   IsOrdinarySingularity(p) : Sch,Pt -> BoolElt

   IsOrdinarySingularity(p) : Sch,Pt -> BoolElt


singularity

   GrphRes_singularity (Example H89E1)


SingularPoints

   SingularPoints(C) : Sch -> SetIndx


SingularSubscheme

   SingularSubscheme(X) : Sch -> Sch


Sinh

   Sinh(s) : FldPrElt -> FldPrElt

   Sinh(f) : RngSerElt -> RngSerElt

   Sinh(f) : RngSerElt -> RngSerElt


SIntegral

   IsSIntegral(P, S) : PtEll, SeqEnum -> BoolElt

   SIntegralDesbovesPoints(Q, S) : [ RngIntElt ], [ RngIntElt ] -> [ SeqEnum ]

   SIntegralLjunggrenPoints(Q, S) : [ RngIntElt ], [ RngIntElt ]  -> [ SeqEnum ]

   SIntegralPoints(E, S) : CrvEll, SeqEnum -> [ PtEll ], [ Tup ]

   SIntegralQuarticPoints(Q, S) : [ RngIntElt ], [ RngIntElt ] -> [ SeqEnum ]


sintegral

   S-integral Points (ELLIPTIC CURVES)


SIntegralDesbovesPoints

   SIntegralDesbovesPoints(Q, S) : [ RngIntElt ], [ RngIntElt ] -> [ SeqEnum ]


SIntegralLjunggrenPoints

   SIntegralLjunggrenPoints(Q, S) : [ RngIntElt ], [ RngIntElt ]  -> [ SeqEnum ]


SIntegralPoints

   SIntegralPoints(E, S) : CrvEll, SeqEnum -> [ PtEll ], [ Tup ]

   CrvEll_SIntegralPoints (Example H91E28)


SIntegralQuarticPoints

   SIntegralQuarticPoints(Q, S) : [ RngIntElt ], [ RngIntElt ] -> [ SeqEnum ]


Size

   BlockSize(D) : Dsgn -> RngIntElt

   BlockDegree(D) : Dsgn -> RngIntElt

   BlockDegree(D, B) : Inc, IncBlk -> RngIntElt

   GetPreviousSize() : -> RngIntElt

   IsolMinBlockSize(n, p, i) : RngIntElt, RngIntElt, RngIntElt -> RngIntElt

   SetBufferSize(D, n) : DB, RngIntElt ->

   SetHistorySize(n) : RngIntElt ->

   SetPreviousSize(n) : RngIntElt ->

   Size(G) : Grph -> RngIntElt

   Size(N) : GrphNet -> RngIntElt

   Size(g) : GrphRes -> RngIntElt

   Size(s) : GrphRes -> RngIntElt

   VarietySizeOverAlgebraicClosure(I) : RngMPol -> RngIntElt


size

   Groups (OVERVIEW)

   Rings, Fields, and Algebras (OVERVIEW)

   Sets (OVERVIEW)


Sizes

   BlockSizes(D) : Inc -> [ RngIntElt ]

   BlockDegrees(D) : Inc -> [ RngIntElt ]


Skew

   ColumnSkewLength(t, j) : Tbl,RngIntElt -> RngIntElt

   IsSkew(t) : Tbl -> BoolElt

   NumberOfSkewRows(t) : Tbl -> RngIntElt

   RowSkewLength(t, i) : Tbl,RngIntElt -> RngIntElt

   SkewShape(t) : Tbl -> SeqEnum[RngIntElt]

   SkewWeight(t) : Tbl -> RngIntElt


Skewness

   OptimalSkewness(F) : RngMPolElt -> FldReElt, FldReElt


SkewShape

   InnerShape(t) : Tbl -> SeqEnum[RngIntElt]

   SkewShape(t) : Tbl -> SeqEnum[RngIntElt]


SkewWeight

   SkewWeight(t) : Tbl -> RngIntElt


SL

   SL(arguments)

   SpecialLinearGroup(arguments)


Slope

   Slope(l) : PlaneLn -> FldFinElt


Slopes

   NewtonSlopes(f) : RngUPolElt -> SeqEnum

   Slopes(N) : NwtnPgon -> SeqEnum


SLPGroup

   SLPGroup(n) : RngIntElt -> GrpSLP

   GrpSLP_SLPGroup (Example H32E1)


Small

   IsInSmallGroupDatabase(o) : RngIntElt -> BoolElt

   IsSoluble(D, o, n) : DB, RngIntElt, RngIntElt -> Grp

   NumberOfSmallGroups(o) : RngIntElt -> RngIntElt

   PresentationIsSmall(G) : GrpGPC -> BoolElt

   SmallGroup(o: parameters) : RngIntElt -> Grp

   SmallGroup(o, f: parameters) : RngIntElt, Program -> Grp

   SmallGroup(o, f: parameters) : RngIntElt, Program -> Grp

   SmallGroup(o, f: parameters) : RngIntElt, Program -> Grp

   SmallGroup(o, n) : RngIntElt, RngIntElt -> Grp

   SmallGroupDatabase() : -> DB

   SmallGroupDatabaseLimit() : -> RngIntElt

   SmallGroupDecoding(c, o) : RngIntElt, RngIntElt -> GrpPC

   SmallGroupEncoding(G) : GrpPC -> RngIntElt, RngIntElt

   SmallGroupIsInsoluble(o, n) : RngIntElt, RngIntElt -> Grp

   SmallGroupProcess(o: parameters) : RngIntElt -> Process

   SmallGroupProcess(o, f: parameters) : RngIntElt, Program -> Process

   SmallGroupProcess(S: parameters) : [RngIntElt] -> Process

   SmallGroupProcess(S, f: parameters) : [RngIntElt], Program -> Process

   SmallGroups(o: parameters) : RngIntElt -> [* Grp *]

   SmallGroups(o, f: parameters) : RngIntElt, Program -> [* Grp *]

   SmallGroups(S: parameters) : [RngIntElt] -> [* Grp *]

   SmallGroups(S, f: parameters) : [RngIntElt], Program -> [* Grp *]




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