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Subindex: gmodule .. gr
Construction of G-modules (INVARIANT THEORY)
GModuleAction(M) : ModGrp -> Map(Hom)
GModulePrimes(G, A) : GrpFP, GrpFP -> SetMulti
GModulePrimes(G, A, B) : GrpFP, GrpFP, GrpFP -> SetMulti
GModulePrimes(G, A) : GrpGPC, GrpGPC -> SetMulti
GModulePrimes(G, A, B) : GrpGPC, GrpGPC, GrpGPC -> SetMulti
GrpFP_1_gmoduleprimes (Example H70E74)
GrpGPC_gmoduleprimes (Example H72E14)
ModGrp_GModules1 (Example H90E12)
GetMPFRVersion() : ->
GetMPCVersion() : ->
GetGMPVersion() : ->
HasGNB(R, n, t) : RngPad, RngIntElt, RngIntElt -> BoolElt
GO(n, q) : RngIntElt, RngIntElt -> GrpMat
GeneralOrthogonalGroup(n, q) : RngIntElt, RngIntElt -> GrpMat
DelsarteGoethalsCode(m, delta) : RngIntElt, RngIntElt -> Code
GoethalsCode(m) : RngIntElt -> Code
GoethalsDelsarteCode(m, delta) : RngIntElt, RngIntElt -> Code
GoethalsCode(m) : RngIntElt -> Code
GoethalsDelsarteCode(m, delta) : RngIntElt, RngIntElt -> Code
GolayCode(K, ext) : FldFin, BoolElt -> Code
GolayCodeZ4(e) : BoolElt -> Code
GolayCode(K, ext) : FldFin, BoolElt -> Code
GolayCodeZ4(e) : BoolElt -> Code
GOMinus(n, q) : RngIntElt, RngIntElt -> GrpMat
GeneralOrthogonalGroupMinus(n, q) : RngIntElt, RngIntElt -> GrpMat
Crv_gon-gen-ex (Example H114E40)
Crv_gon-pln_mod-ex (Example H114E42)
Crv_gon-sm-gen-ex (Example H114E41)
Genus2GonalMap(C) : Crv -> MapSch
Genus3GonalMap(C) : Crv -> RngIntElt, MapSch
Genus4GonalMap(C) : Crv -> RngIntElt, MapSch
Genus5GonalMap(C) : Crv -> RngIntElt, MapSch, Crv, UserProgram
Genus6GonalMap(C) : Crv -> RngIntElt, RngIntElt, MapSch, MapSch
General Functions and Clifford Index One (ALGEBRAIC CURVES)
Small Genus Functions (ALGEBRAIC CURVES)
Small Genus Plane Models (ALGEBRAIC CURVES)
General Functions and Clifford Index One (ALGEBRAIC CURVES)
Small Genus Functions (ALGEBRAIC CURVES)
Small Genus Plane Models (ALGEBRAIC CURVES)
EllipticCurveWithGoodReductionSearch(S, Effort) : Set, RngIntElt -> SeqEnum
EllipticCurveSearch(N, Effort) : RngOrdIdl, RngIntElt -> SeqEnum
GoodBasePoints(G, str : parameters) : Grp, MonStgElt -> BoolElt, SeqEnum
GoodBasePoints(G: parameters) : GrpMat -> []
GoodLDPCEnsemble(i) : RngIntElt, -> FldReElt, [FldReElt], [FldReElt]
GoodBasePoints(G, str : parameters) : Grp, MonStgElt -> BoolElt, SeqEnum
GoodBasePoints(G: parameters) : GrpMat -> []
GoodLDPCEnsemble(i) : RngIntElt, -> FldReElt, [FldReElt], [FldReElt]
GOPlus(n, q) : RngIntElt, RngIntElt -> GrpMat
GeneralOrthogonalGroupPlus(n, q) : RngIntElt, RngIntElt -> GrpMat
GoppaCode(L, G) : [ FldFinElt ], RngUPolElt -> Code
GoppaDesignedDistance(C) : Code -> RngIntElt
GoppaCode(L, G) : [ FldFinElt ], RngUPolElt -> Code
CodeFld_GoppaCode (Example H152E27)
GoppaDesignedDistance(C) : Code -> RngIntElt
GorensteinClosure(O) : AlgAssVOrd -> AlgAssVOrd
GorensteinIndex(C) : TorCon -> RngIntElt,TorLatElt
GorensteinIndex(P) : TorPol -> RngIntElt
IsCohenMacaulay(X) : Sch -> BoolElt
IsGorenstein(O, p) : AlgAssVOrd , RngOrdIdl -> BoolElt
IsGorenstein(O) : AlgAssVOrd -> BoolElt
IsGorenstein(C) : TorCon -> BoolElt
IsGorenstein(F) : TorFan -> BoolElt
IsGorenstein(X) : TorVar -> BoolElt
IsGorensteinSurface(B) : GRBskt -> BoolElt
IsGorensteinSurface(p) : GRPtS -> BoolElt
GorensteinClosure(O) : AlgAssVOrd -> AlgAssVOrd
GorensteinIndex(C) : TorCon -> RngIntElt,TorLatElt
GorensteinIndex(P) : TorPol -> RngIntElt
GPCGroup(G) : Grp -> GrpGPC, Hom(Grp)
GPCGroup(G) : GrpPC -> GrpGPC, Map
GPCGroup(G) : GrpPerm -> GrpGPC, Map
GR(q, d) : RngIntElt, RngIntElt -> RngGal
GaloisRing(q, d) : RngIntElt, RngIntElt -> RngGal
GaloisRing(p, a, d) : RngIntElt, RngIntElt, RngIntElt -> RngGal
GaloisRing(p, a, D) : RngIntElt, RngIntElt, RngUPol -> RngGal
GaloisRing(q, D) : RngIntElt, RngUPol -> RngGal
Accessing the Key Data (HILBERT SERIES OF POLARISED VARIETIES)
Building Databases (HILBERT SERIES OF POLARISED VARIETIES)
Creating and Comparing K3 Surfaces (HILBERT SERIES OF POLARISED VARIETIES)
Creating Many K3 Surfaces (HILBERT SERIES OF POLARISED VARIETIES)
K3 Surfaces as Records (HILBERT SERIES OF POLARISED VARIETIES)
Making New Databases (HILBERT SERIES OF POLARISED VARIETIES)
Modifying K3 Surfaces (HILBERT SERIES OF POLARISED VARIETIES)
Reading the Raw Data (HILBERT SERIES OF POLARISED VARIETIES)
The K3 Database (HILBERT SERIES OF POLARISED VARIETIES)
Working with the K3 Database (HILBERT SERIES OF POLARISED VARIETIES)
Writing K3 Surfaces to a File (HILBERT SERIES OF POLARISED VARIETIES)
Writing the Data and Index Files (HILBERT SERIES OF POLARISED VARIETIES)
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Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012