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Subindex: NextVector .. Nilpotency
NextVector(P) : LatEnumProc -> LatElt, RngElt
DirichletCharacterOverQ(chi) : GrpDrchNFElt -> GrpDrchElt
DirichletCharacterOverNF(chi) : GrpDrchElt -> GrpDrchNFElt
RngOrdGal_nf-sig-FrobeniusElement (Example H38E3)
NumberOfFaces(G) : GrphMultUnd -> RngIntElt
NFaces(G) : GrphMultUnd -> RngIntElt
NFaces(G) : GrphUnd -> RngIntElt
E2NForm(CN,N) : Crv, RngIntElt -> DiffCrvElt
NFS(n, F, m1, m2) : RngIntElt, RngMPolElt, RngIntElt, RngIntElt -> RngIntElt
NumberFieldSieve(n, F, m1, m2) : RngIntElt, RngMPolElt, RngIntElt, RngIntElt -> RngIntElt
Advanced Factorization Techniques: The Number Field Sieve (RING OF INTEGERS)
Attribute Selection (RING OF INTEGERS)
Data files (RING OF INTEGERS)
Distributing NFS Factorizations (RING OF INTEGERS)
Factoring with NFS Processes (RING OF INTEGERS)
Finding dependencies: the Linear algebra stage (RING OF INTEGERS)
Magma and CWI NFS Interoperability (RING OF INTEGERS)
Magma native NFS data files (RING OF INTEGERS)
Naive NFS (RING OF INTEGERS)
The Auxiliary data stage (RING OF INTEGERS)
The Factorization stage (RING OF INTEGERS)
The Magma Number Field Sieve Implementation (RING OF INTEGERS)
The Sieving stage (RING OF INTEGERS)
The Auxiliary data stage (RING OF INTEGERS)
Magma and CWI NFS Interoperability (RING OF INTEGERS)
Data files (RING OF INTEGERS)
Finding dependencies: the Linear algebra stage (RING OF INTEGERS)
Distributing NFS Factorizations (RING OF INTEGERS)
The Factorization stage (RING OF INTEGERS)
The Magma Number Field Sieve Implementation (RING OF INTEGERS)
Magma native NFS data files (RING OF INTEGERS)
NFS(n, F, m1, m2) : RngIntElt, RngMPolElt, RngIntElt, RngIntElt -> RngIntElt
Naive NFS (RING OF INTEGERS)
Attribute Selection (RING OF INTEGERS)
Factoring with NFS Processes (RING OF INTEGERS)
The Sieving stage (RING OF INTEGERS)
Tools for Finding a Suitable Polynomial (RING OF INTEGERS)
NFSProcess(n, F, m1, m2) : -> NFSProc
RngInt_nfsprocessparameters (Example H18E10)
Ngens(H) : HomModAbVar -> RngIntElt
Ngens(G) : ModAbVarSubGrp -> RngIntElt
Ngens(M) : ModDed -> RngIntElt
Ngens(R) : RngDiff -> RngIntElt
NumberOfActionGenerators(M) : ModRng -> RngIntElt
NumberOfGenerators(B) : AlgBas -> RngIntElt
NumberOfGenerators(L) : AlgLieExtr -> RngIntElt
NumberOfGenerators(R) : AlgMat -> { AlgMatElt }
NumberOfGenerators(C) : Code -> RngIntElt
NumberOfGenerators(G) : Grp -> RngIntElt
NumberOfGenerators(A) : GrpAb -> RngIntElt
NumberOfGenerators(A) : GrpAbGen -> RngIntElt
NumberOfGenerators(A) : GrpAutCrv -> RngIntElt
NumberOfGenerators(A) : GrpAuto -> RngIntElt
NumberOfGenerators(G) : GrpBB -> RngIntElt
NumberOfGenerators(B) : GrpBrd -> RngIntElt
NumberOfGenerators(G) : GrpFP -> RngIntElt
NumberOfGenerators(P) : GrpFPTietzeProc -> RngIntElt
NumberOfGenerators(G) : GrpGPC -> RngIntElt
NumberOfGenerators(G) : GrpLie -> RngIntElt
NumberOfGenerators(G) : GrpMat -> RngIntElt
NumberOfGenerators(G) : GrpPC -> RngIntElt
NumberOfGenerators(G) : GrpPerm -> RngIntElt
NumberOfGenerators(G) : GrpRWS -> RngIntElt
NumberOfGenerators(G) : GrpRWS -> RngIntElt
NumberOfGenerators(G) : GrpSLP -> RngIntElt
NumberOfGenerators(M) : ModTupFld -> RngIntElt
NumberOfGenerators(M) : MonRWS -> RngIntElt
NumberOfGenerators(H) : SetPtEll -> RngIntElt
NumberOfGenerators(H) : SetPtEll -> RngIntElt
NumberOfGenerators(S) : SgpFP -> RngIntElt
PseudoDimension(C) : Code -> RngIntElt
NGrad(X) : Sch -> RngIntElt
NumberOfGradings(X) : Sch -> RngIntElt
CompositionTreeNiceGroup(G) : Grp -> GrpMat[FldFin]
CompositionTreeNiceToUser(G) : Grp -> Map, []
AlgLie_NilpOrbGenuine (Example H100E59)
NilpotencyClass(G) : GrpFin -> RngIntElt
NilpotencyClass(G) : GrpGPC -> RngIntElt
NilpotencyClass(G) : GrpMat -> RngIntElt
NilpotencyClass(G) : GrpPC -> RngIntElt
NilpotencyClass(G) : GrpPerm -> RngIntElt
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Version: V2.19 of
Wed Apr 24 15:09:57 EST 2013