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Subindex: three  ..  Toral


three

   Three-Descent (ELLIPTIC CURVES OVER Q AND NUMBER FIELDS)

three-descent

   Three-Descent (ELLIPTIC CURVES OVER Q AND NUMBER FIELDS)

ThreeDescent

   ThreeDescent(E : parameters) : CrvEll -> [ Crv ], List

ThreeDescentByIsogeny

   ThreeDescentByIsogeny(E) : CrvEll -> [ Crv ], [ Map ]
   CrvEllQNF_ThreeDescentByIsogeny (Example H122E16)

ThreeDescentCubic

   ThreeDescentCubic(E, α: parameters) : CrvEll, Tup -> Crv, MapSch

Threefold

   IsTerminalThreefold(B) : GRBskt -> BoolElt
   IsTerminalThreefold(p) : GRPtS -> BoolElt

ThreeInvols

   GrpFP_1_ThreeInvols (Example H70E9)

ThreeIsogenyDescent

   ThreeIsogenyDescent(E : parameters) : CrvEll -> [ Crv ], List, [ Crv ], List, MapSch

ThreeIsogenyDescentCubic

   ThreeIsogenyDescentCubic(φ, α) : MapSch, Any -> Crv, MapSch

ThreeIsogenySelmerGroups

   ThreeIsogenySelmerGroups(E : parameters) : CrvEll -> GrpAb, Map, GrpAb, Map, MapSch

ThreeSelmerElement

   ThreeSelmerElement(E, C) : CrvEll, RngMPolElt -> Tup

ThreeSelmerGroup

   ThreeSelmerGroup(E : parameters) : CrvEll -> GrpAb, Map

ThreeTorsionMatrices

   ThreeTorsionMatrices(E, C) : CrvEll, RngMPolElt -> Tup

ThreeTorsionPoints

   ThreeTorsionPoints(E : parameters) : CrvEll -> Tup

ThreeTorsionType

   ThreeTorsionType(E) : CrvEll -> MonStgElt

Threshold

   LDPCBinarySymmetricThreshold(v, c) : RngIntElt, RngIntElt -> FldReElt
   LDPCGaussianThreshold(v, c) : RngIntElt, RngIntElt -> FldReElt
   LogCanonicalThreshold(C) : Sch -> FldRatElt, BoolElt
   LogCanonicalThreshold(C, P) : Sch, Pt -> FldRatElt
   LogCanonicalThresholdAtOrigin(C) : Sch -> FldRatElt
   LogCanonicalThresholdOverExtension(C) : Sch -> FldRatElt

thresholds

   Log Canonical Thresholds (ALGEBRAIC CURVES)

Through

   PushThroughIsogeny(I, v) : Map, RngUPolElt -> RngUPolElt

Thue

   Thue(O) : RngOrd -> Thue
   Thue(f) : RngUPolElt -> Thue

thue

   Thue Equations (ORDERS AND ALGEBRAIC FIELDS)
   RngOrd_thue (Example H37E23)

Tietze

   Elementary Tietze Transformations (FINITELY PRESENTED SEMIGROUPS)
   TietzeProcess(G: parameters) : GrpFP -> Process(Tietze)

tietze

   Tietze Transformations (FINITELY PRESENTED GROUPS)

TietzeProcess

   TietzeProcess(G: parameters) : GrpFP -> Process(Tietze)

Time

   ProfilePrintByTotalTime(G): GrphDir ->
   ProfilePrintChildrenByTime(G, n): GrphDir, GrphVert ->
   State_Time (Example H1E20)

time

   time statement;

timing

   Timing (STATEMENTS AND EXPRESSIONS)

Tjurina

   TjurinaNumber(f) : RngMPolElt -> RngElt

TjurinaNumber

   TjurinaNumber(f) : RngMPolElt -> RngElt

to

   WeilToClassLatticesMap(C) : RngCox -> Map
   Recovering a Toric Variety From a Cox Ring (TORIC VARIETIES)
   Splice Diagrams from Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)
   Transfer to GrpPC (FINITE SOLUBLE GROUPS)

to-grp-pc

   Transfer to GrpPC (FINITE SOLUBLE GROUPS)

To2

   To2DUpperHalfSpaceFundamentalDomian(z) : Mtrx -> Mtrx, Mtrx

To2DUpperHalfSpaceFundamentalDomian

   To2DUpperHalfSpaceFundamentalDomian(z) : Mtrx -> Mtrx, Mtrx

ToAnalyticJacobian

   ToAnalyticJacobian(x, y, A) : FldComElt, FldComElt, AnHcJac -> Mtrx

Todd

   Implicit Invocation of the Todd- Coxeter Algorithm (FINITELY PRESENTED GROUPS)
   Index of a Subgroup: The Todd- Coxeter Algorithm (FINITELY PRESENTED GROUPS)
   ShephardTodd(n) : RngIntElt -> GrpMat, Fld
   ShephardTodd(m, p, n) : RngIntElt, RngIntElt, RngIntElt -> GrpMat, Fld
   ShephardToddNumber(X, n) : MonStgElt, RngIntElt -> RngIntElt
   ToddCoxeter(G, H: parameters) : GrpFP, GrpFP -> RngIntElt, Map, RngIntElt, RngIntElt
   ToddCoxeterSchreier(G) : GrpMat : ->
   ToddCoxeterSchreier(G: parameters) : GrpPerm : ->

ToddCoxeter

   ToddCoxeter(G, H: parameters) : GrpFP, GrpFP -> RngIntElt, Map, RngIntElt, RngIntElt

ToddCoxeterSchreier

   ToddCoxeterSchreier(G) : GrpMat : ->
   ToddCoxeterSchreier(G: parameters) : GrpPerm : ->

ToFromLiEEx

   LieReps_ToFromLiEEx (Example H104E18)

ToLiE

   ToLiE(D) : LieRepDec -> MonStgElt

tools

   Magma and CWI NFS Interoperability (RING OF INTEGERS)

TOP

   Term Over Position: TOP (MODULES OVER MULTIVARIATE RINGS)

Top

   Top(L) : SubFldLat -> SubFldLatElt
   Top(L): SubGrpLat -> SubGrpLatElt
   Top(L): SubModLat -> SubModLatElt
   TopQuotients(D) : DB -> SetIndx

TOPPOT

   Block TOP-POT: TOPPOT (MODULES OVER MULTIVARIATE RINGS)

TopQuotients

   TopQuotients(D) : DB -> SetIndx

TOPTOP

   Block TOP-TOP: TOPTOP (MODULES OVER MULTIVARIATE RINGS)

TOPW

   Term Over Position (Weighted): TOPW (MODULES OVER MULTIVARIATE RINGS)

Tor

   Tor(i, M, N) : RngIntElt, ModMPol, ModMPol -> ModMPol

Toral

   IsSplitToralSubalgebra(L, H) : AlgLie, AlgLie -> BoolElt
   SplitToralSubalgebra(L) : AlgLie -> AlgLie
   SplittingCartanSubalgebra(L) : AlgLie -> AlgLie
   ToralRootDatum(n) : RngIntElt -> RootDtm
   ToralRootSystem(n) : RngIntElt -> RootSys

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