[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: JenningsSeries .. JustesenCode
JenningsSeries(G) : GrpFin -> [ GrpFin ]
JenningsSeries(G) : GrpMat -> [ GrpMat ]
JenningsSeries(G) : GrpPC -> [GrpPC]
JenningsSeries(G) : GrpPerm -> [ GrpPerm ]
InverseJeuDeTaquin(~t, i, j) : Tbl, RngIntElt, RngIntElt ->
JeuDeTaquin(~t) : Tbl ->
JeuDeTaquin(~t, i, j) : Tbl, RngIntElt, RngIntElt ->
Rectify(~t) : Tbl ->
JeuDeTaquin(~t) : Tbl ->
JeuDeTaquin(~t, i, j) : Tbl, RngIntElt, RngIntElt ->
jFunction(X) : CrvMod -> FldFunElt
jInvariant(CN,N) : Crv, RngIntElt -> FldFunRatMElt
JH(N, d : parameters) : RngIntElt, RngIntElt, RngIntElt -> ModAbVar
JH(N, gens : parameters) : RngIntElt, [RngIntElt] -> ModAbVar
CrvMod_jim_ex_mod_crvs_gen3 (Example H128E10)
CrvMod_jim_ex_mod_crvs_hyp (Example H128E7)
CrvMod_jim_ex_mod_crvs_jeon (Example H128E8)
CrvMod_jim_ex_mod_crvs_jeon (Example H128E9)
Modular Curves of Given Level and Genus (MODULAR CURVES)
jFunction(CN,N) : Crv, RngIntElt -> FldFunFracSchElt
jInvariant(CN,N) : Crv, RngIntElt -> FldFunRatMElt
jInvariant(E) : CrvEll -> RngElt
jInvariant(s) : FldComElt -> FldComElt
jInvariant(p,N) : Pt, RngIntElt -> RngElt
jInvariant(F) : QuadBinElt -> FldComElt
jInvariant(f) : QuadBinElt -> RngSerElt
jInvariant(q) : RngSerElt -> RngSerElt
jInvariant(L) : SeqEnum -> FldComElt
The j-invariant and the Discriminant (REAL AND COMPLEX FIELDS)
The j-invariant and the Discriminant (REAL AND COMPLEX FIELDS)
JInvariants(f: parameters) : RngUPolElt -> SeqEnum
IgusaInvariants(f: parameters) : RngUPolElt -> SeqEnum
IgusaInvariants(C: parameters): CrvHyp -> SeqEnum
IgusaInvariants(f, h): RngUPolElt, RngUPolElt -> SeqEnum
jNInvariant(p,N) : Pt, RngIntElt -> RngElt
JohnsonBound(n, d) : RngIntElt, RngIntElt -> RngIntElt
JohnsonBound(n, d) : RngIntElt, RngIntElt -> RngIntElt
DiagonalJoin(X, Y) : ModMatRngElt, ModMatRngElt -> ModMatRngElt
DiagonalJoin(X, Y) : Mtrx, Mtrx -> Mtrx
DiagonalJoin(A, B) : MtrxSprs, MtrxSprs -> MtrxSprs
DiagonalJoin(Q) : [ ModMatRngElt ] -> ModMatRngElt
DiagonalJoin(Q) : [ Mtrx ] -> Mtrx
HorizontalJoin(X, Y) : Mtrx, Mtrx -> Mtrx
HorizontalJoin(X, Y) : Mtrx, Mtrx -> Mtrx
HorizontalJoin(A, B) : MtrxSprs, MtrxSprs -> MtrxSprs
HorizontalJoin(Q) : [ ModMatRngElt ] -> ModMatRngElt
HorizontalJoin(Q) : [ Mtrx ] -> Mtrx
Join(S,T) : SmpCpx, SmpCpx -> SmpCpx
VerticalJoin(X, Y) : ModMatRngElt, ModMatRngElt -> ModMatRngElt
VerticalJoin(X, Y) : Mtrx, Mtrx -> Mtrx
VerticalJoin(A, B) : MtrxSprs, MtrxSprs -> MtrxSprs
VerticalJoin(X, Y) : PMat, PMat -> PMat
VerticalJoin(Q) : [ ModMatRngElt ] -> ModMatRngElt
VerticalJoin(Q) : [ Mtrx ] -> Mtrx
Set_Join (Example H9E11)
Building Block Matrices (MATRICES)
Building Block Matrices (SPARSE MATRICES)
Union(G, H) : GrphMultUnd, GrphMultUnd -> GrphMultUnd
Union(N, H) : GrphNet, GrphNet -> GrphNet
Union(G, H) : GrphUnd, GrphUnd -> GrphUnd
R1 join R2 : RootDtm, RootDtm -> RootDtm
R1 join R2 : RootSys, RootSys -> RootSys
X join Y : Sch,Sch -> Sch
R join S : SetEnum, SetEnum -> SetEnum
& join S : [ MultiUnd ] -> GrphMultUnd
SmpCpx_join (Example H140E10)
JOne(N : parameters) : RngIntElt -> ModAbVar
JordanForm(a) : AlgMatElt -> AlgMatElt, AlgMatElt, [ <RngUPolElt, RngIntElt ]
JordanForm(A) : Mtrx -> Mtrx, AlgMatElt, [ <RngUPolElt, RngIntElt> ]
MultiplicativeJordanDecomposition(x) : GrpLieElt -> GrpLieElt, GrpLieElt
AlgCon_jordan (Example H80E1)
JordanForm(a) : AlgMatElt -> AlgMatElt, AlgMatElt, [ <RngUPolElt, RngIntElt ]
JordanForm(A) : Mtrx -> Mtrx, AlgMatElt, [ <RngUPolElt, RngIntElt> ]
jParameter(G,z) : GrpPSL2, SpcHypElt -> FldComElt, SeqEnum
Js(N : parameters) : RngIntElt -> ModAbVar
JustesenCode(N, K) : Code, FldFinElt, RngIntElt -> Code
Reed--Solomon and Justesen Codes (LINEAR CODES OVER FINITE FIELDS)
JustesenCode(N, K) : Code, FldFinElt, RngIntElt -> Code
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Wed Apr 24 15:09:57 EST 2013