[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: CoboundaryMapImage .. Code
CoboundaryMapImage(M, i, c) : ModCoho, RngIntElt, UserProgram -> UserProgram
CocycleMap(alpha) : OneCoC -> Map
CorestrictionMapImage(G, C, c, i) : Grp, ModCoho, UserProgram, RngIntElt -> UserProgram
ExtendGaloisCocycle(c) : OneCoC -> OneCoC
ExtendedOneCocycle(alpha) : OneCoC -> SetEnum[OneCoC]
IdentifyOneCocycle(CM, s) : ModCoho, UserProgram -> ModTupRngElt
IdentifyTwoCocycle(CM, s) : ModCoho, UserProgram -> ModTupRngElt
IdentifyZeroCocycle(CM, s) : ModCoho, UserProgram -> ModTupRngElt
InducedOneCocycle(AmodB, alpha) : GGrp, OneCoC -> OneCoC
InflationMapImage(M, c) : Map, UserProgram -> UserProgram
IsOneCocycle(A, imgs) : GGrp, SeqEnum[GrpElt] -> BoolElt, OneCoC
OneCocycle(A, imgs) : GGrp, SeqEnum[GrpElt] -> OneCoC
OneCocycle(CM, s) : ModCoho, SeqEnum -> UserProgram
TrivialOneCocycle(A) : GGrp -> OneCoC
TwoCocycle(A) : FldAb -> UserProgram
TwoCocycle(CM, s) : ModCoho, SeqEnum -> UserProgram
ZeroCocycle(CM, s) : ModCoho, SeqEnum -> UserProgram
CocycleMap(alpha) : OneCoC -> Map
RepresentativeCocycles(G, U, Ext, Hom) : GrpPC, GrpPC, [AlgMatElt], [AlgMatElt]-> [AlgMatElt]
Cocycles (COHOMOLOGY AND EXTENSIONS)
Group Cohomology (COHOMOLOGY AND EXTENSIONS)
One Cocycles (COHOMOLOGY AND EXTENSIONS)
GrpCoh_cocycles (Example H68E4)
AdditiveCode(K, C) : FldFin, Code -> CodeAdd
AdditiveCode<F, K, n | L> : FldFin, RngIntElt, List -> Code
AdditiveCode(G) : ModMatRngElt -> CodeAdd
AdditiveCyclicCode(v) : ModTupFldElt -> CodeAdd
AdditiveCyclicCode(v4, v2) : ModTupFldElt, ModTupFldElt -> CodeAdd
AdditiveCyclicCode(n, f) : RngIntElt, RngUPolElt -> CodeAdd
AdditiveCyclicCode(n, f4, f2) : RngIntElt, RngUPolElt, RngUPolElt -> CodeAdd
AdditiveQuasiCyclicCode(n, Q) : RngIntElt, SeqEnum[RngUPolElt] -> CodeAdd
AdditiveQuasiCyclicCode(n, Q, h) : RngIntElt, SeqEnum[RngUPolElt], RngIntElt -> CodeAdd
AdditiveQuasiCyclicCode(Q) : SeqEnum[ModTupFldElt] -> CodeAdd
AdditiveQuasiCyclicCode(Q, h) : SeqEnum[ModTupFldElt], RngIntElt -> CodeAdd
AdditiveRepetitionCode(F, K, n) : FldFin, FldFin, RngIntElt -> Code
AdditiveUniverseCode(F, K, n) : FldFin,FldFin, RngIntElt -> Code
AdditiveZeroCode(F, K, n) : FldFin, FldFin, RngIntElt -> CodeAdd
AdditiveZeroSumCode(F, K, n) : FldFin, FldFin, RngIntElt -> Code
AlgebraicGeometricCode(S, D) : [PlcCrvElt], DivCrvElt -> Code
AlgebraicGeometricDualCode(S, D) : [PlcCrvElt], DivCrvElt -> Code
AlternantCode(A, Y, r, S) : [ FldFinElt ], [ FldFinElt ], RngIntElt, FldFin -> Code
AugmentCode(C) : Code -> Code
AugmentCode(C) : CodeAdd -> Code
BDLC(K, n, d) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
BKLC(K, n, k) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
BLLC(K, k, d) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
BinaryResidueCode(C) : Code -> Code
BinaryTorsionCode(C) : Code -> Code
CSSCode(C1, C2) : Code, Code -> CodeQuantum
ChienChoyCode(P, G, n, S) : RngUPolElt, RngUPolElt, RngIntElt, FldFin -> Code
CodeComplement(C, C1) : Code, Code -> Code
CodeComplement(C, S) : Code, Code -> Code
CodeToString(n) : RngIntElt -> MonStgElt
ConcatenatedCode(O, I) : Code, Code -> Code
ConstaCyclicCode(n, f, alpha) : RngUPolElt, RngIntElt, FldFinElt -> Code
CordaroWagnerCode(n) : RngIntElt -> Code
CyclicCode(u) : ModTupRngElt -> Code
CyclicCode(u) : ModTupRngElt -> Code
CyclicCode(n, g) : RngIntElt, RngUPolElt -> Code
CyclicCode(n, g) : RngIntElt, RngUPolElt -> Code
CyclicCode(n, T, K) : RngIntElt, [ FldFinElt ], FldFin -> Code
DelsarteGoethalsCode(m, delta) : RngIntElt, RngIntElt -> Code
DirectProduct(C, D) : Code, Code -> Code
EvenWeightCode(n) : RngIntElt -> Code
ExpurgateCode(C) : Code -> Code
ExpurgateCode(C, L) : Code,[ModTupFldElt] -> Code
ExpurgateWeightCode(C, w) : Code, RngIntElt -> Code
ExtendCode(C) : Code -> Code
ExtendCode(C) : Code -> Code
ExtendCode(C, n) : Code, RngIntElt -> Code
ExtendCode(C, n) : Code, RngIntElt -> Code
ExtendCode(C, n) : Code, RngIntElt -> Code
ExtendCode(C) : CodeAdd -> CodeAdd
ExtendCode(Q) : CodeQuantum -> CodeQuantum
ExtendCode(Q, m) : CodeQuantum, RngIntElt -> CodeQuantum
ExtendedPerfectCodeZ4(δ, m) : RngIntElt, RngIntElt -> CodeLinRng, Mtrx
FireCode(h, s, n) : RngUPolElt, RngIntElt, RngIntElt -> Code
GabidulinCode(A, W, Z, t) : [ FldFinElt ], [ FldFinElt ], [ FldFinElt ], RngIntElt -> Code
GallagerCode(n, a, b) : RngIntElt, RngIntElt, RngIntElt -> Code
GeneralizedSrivastavaCode(A, W, Z, t, S) : [ FldFinElt ], [ FldFinElt ], [ FldFinElt ], RngIntElt, FldFin -> Code
GoethalsCode(m) : RngIntElt -> Code
GoethalsDelsarteCode(m, delta) : RngIntElt, RngIntElt -> Code
GolayCode(K, ext) : FldFin, BoolElt -> Code
GolayCodeZ4(e) : BoolElt -> Code
GoppaCode(L, G) : [ FldFinElt ], RngUPolElt -> Code
HadamardCodeZ4(δ, m) : RngIntElt, RngIntElt -> CodeLinRng, Mtrx
HammingCode(K, r) : FldFin, RngIntElt -> Code
HermitianCode(q, r) : RngIntElt, RngIntElt -> Code
JustesenCode(N, K) : Code, FldFinElt, RngIntElt -> Code
KerdockCode(m): RngIntElt, RngUPolElt -> Code
KernelZ2CodeZ4(C) : CodeLinRng -> CodeLinRng
LengthenCode(C) : Code -> Code
LinearCode(C, S) : Code, FldFin -> Code, Map
LinearCode<R, n | L> : FldFin, RngIntElt, List -> Code
LinearCode(D, K) : Inc, FldFin -> Code
LinearCode(A) : ModMatRngElt -> Code
LinearCode(A) : ModMatRngElt -> Code
LinearCode(U) : ModTupRng -> Code
LinearCode(U) : ModTupRng -> Code
LinearCode(P, K) : Plane, FldFin -> Code
LinearCode<R, n | L> : Rng, RngIntElt, List -> Code
MargulisCode(p) : RngIntElt -> Code
NonPrimitiveAlternantCode(n, m, r) : RngIntElt,RngIntElt,RngIntElt->Code
NormalizerCode(Q) : CodeQuantum -> CodeAdd
PadCode(C, n) : Code, RngIntElt -> Code
PadCode(C, n) : Code, RngIntElt -> Code
PadCode(C, n) : CodeAdd, RngIntElt -> CodeAdd
PermutationCode(u, G) : ModTupRngElt, GrpPerm -> Code
PermutationCode(u, G) : ModTupRngElt, GrpPerm -> Code
PowerResidueCode(K, n, p) : FldFin, RngIntElt, RngIntElt -> Code
PreparataCode(m): RngIntElt, RngUPolElt -> Code
PunctureCode(C, i) : Code, RngIntElt -> Code
PunctureCode(C, i) : Code, RngIntElt -> Code
PunctureCode(C, S) : Code, { RngIntElt } -> Code
PunctureCode(C, S) : Code, { RngIntElt } -> Code
PunctureCode(C, i) : CodeAdd, RngIntElt -> Code
PunctureCode(C, S) : CodeAdd, { RngIntElt } -> Code
PunctureCode(Q, i) : CodeQuantum, RngIntElt -> CodeQuantum
PunctureCode(Q, I) : CodeQuantum, SetEnum -> CodeQuantum
QECC(F, n, k) : FldFin, RngIntElt, RngIntElt -> CodeQuantum, BoolElt
QuantumCode(S) : Code -> CodeQuantum
QuantumCode(G) : Grph -> QuantumCode
QuantumCode(M) : ModMatRngElt -> CodeQuantum
QuantumCyclicCode(v) : ModTupFldElt -> CodeAdd
QuantumCyclicCode(v4, v2) : ModTupFldElt, ModTupFldElt -> CodeAdd
QuantumCyclicCode(n, f) : RngIntElt, RngUPolElt -> CodeAdd
QuantumQuasiCyclicCode(n, Q) : RngIntElt, SeqEnum[RngUPolElt] -> CodeAdd
QuantumQuasiCyclicCode(Q) : SeqEnum[ModTupFldElt] -> CodeAdd
QuasiCyclicCode(n, Gen) : RngIntElt, [ RngUPolElt ] -> Code
QuasiCyclicCode(n, Gen, h) : RngIntElt, [ RngUPolElt ], RngIntElt -> Code
QuasiCyclicCode(Gen) : [ ModTupRngElt ] -> Code
QuasiCyclicCode(Gen, h) : [ModTupRngElt] , RngIntElt -> Code
QuasiTwistedCyclicCode(n, Gen, alpha) : RngIntElt, [RngUPolElt], FldFinElt -> Code
QuasiTwistedCyclicCode(Gen, alpha) : [ModTupRngElt], FldFinElt -> Code
RandomAdditiveCode(F, K, n, k) : FldFin,FldFin, RngIntElt, RngIntElt -> Code
RandomLinearCode(K, n, k) : FldFin, RngIntElt, RngIntElt -> Code
RandomLinearCode(R, n, k) : Rng, RngIntElt, RngIntElt -> Code
RandomQuantumCode(F, n, k) : FldFin, RngIntElt, RngIntElt -> CodeQuantum
ReedMullerCode(r, m) : RngIntElt, RngIntElt -> Code
ReedMullerCodeRMZ4(s, r, m) : RngIntElt, RngIntElt, RngIntElt -> CodeLinRng, Mtrx
ReedMullerCodeZ4(r, m) : RngIntElt, RngIntElt -> Code
ReedMullerCodeZ4(r, m) : RngIntElt, RngIntElt -> CodeLinRng
ReedSolomonCode(K, d, b) : FldFin, RngIntElt, RngIntElt -> Code
ReedSolomonCode(n, d) : RngIntElt, RngIntElt -> Code
RepetitionCode(R, n) : FldFin, RngIntElt -> Code
RepetitionCode(R, n) : Rng, RngIntElt -> Code
ShortenCode(C, i) : Code, RngIntElt -> Code
ShortenCode(C, i) : Code, RngIntElt -> Code
ShortenCode(C, i) : Code, RngIntElt -> Code
ShortenCode(C, S) : Code, { RngIntElt } -> Code
ShortenCode(C, S) : Code, { RngIntElt } -> Code
ShortenCode(C, S) : Code, { RngIntElt } -> Code
ShortenCode(Q, i) : CodeQuantum, RngIntElt -> CodeQuantum
ShortenCode(Q, I) : CodeQuantum, SetEnum -> CodeQuantum
SimplexAlphaCodeZ4(k) : RngIntElt -> Code
SimplexBetaCodeZ4(k) : RngIntElt -> Code
SimplexCode(r) : RngIntElt -> Code
SpanZ2CodeZ4(C) : CodeLinRng -> CodeLinFld
SrivastavaCode(A, W, mu, S) : [ FldFinElt ], [ FldFinElt ], RngIntElt, FldFin -> Code
StabilizerCode(Q) : CodeQuantum -> CodeAdd
StringToCode(s) : MonStgElt -> RngIntElt
SubcodeBetweenCode(C1, C2, k) : Code, Code, RngIntElt -> Code
SubcodeBetweenCode(C1, C2, k) : CodeAdd, CodeAdd, RngIntElt -> CodeAdd
SubfieldCode(C, S) : Code, FldFin -> Code
SubfieldRepresentationCode(C, K) : Code, FldFin -> Code
SubfieldRepresentationParityCode(C, K) : Code, FldFin -> Code
ToricCode(S, q) : SeqEnum[TorLatElt], RngIntElt -> Code
ToricCode(P, q) : TorPol, RngIntElt -> Code
UniverseCode(R, n) : FldFin, RngIntElt -> Code
UniverseCode(R, n) : Rng, RngIntElt -> Code
Z4CodeFromBinaryChain(C1, C2) : Code, Code -> Code
ZeroCode(R, n) : FldFin, RngIntElt -> Code
ZeroCode(R, n) : Rng, RngIntElt -> Code
ZeroSumCode(R, n) : FldFin, RngIntElt -> Code
ZeroSumCode(R, n) : Rng, RngIntElt -> Code
ZinovievCode(I, O) : [Code], [Code] -> Code
Lat_Code (Example H30E2)
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012