[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: symplectic .. system
RecognizeSp4Even(G, q) : Grp, RngIntElt, RngIntElt -> BoolElt, Map, Map
Constructive Recognition of Symplectic Groups (ALMOST SIMPLE GROUPS)
Symplectic Groups (ALMOST SIMPLE GROUPS)
SymplecticComponent(x, p) : AlgChtrElt, [ RngIntElt ] -> AlgChtrElt
SymplecticComponents(x, n) : AlgChtrElt, RngIntElt -> SetEnum
SymplecticDual(C) : CodeAdd -> CodeAdd
QECC_SymplecticEg (Example H157E17)
SymplecticForm(G: parameters) : GrpMat -> BoolElt, AlgMatElt [,SeqEnum]
Sp(n, q) : RngIntElt, RngIntElt -> GrpMat
SymplecticGroup(n, q) : RngIntElt, RngIntElt -> GrpMat
SymplecticInnerProduct(v1, v2) : ModTupFldElt, ModTupFldElt -> FldFinElt
SymplecticMatrixGroupDatabase() : -> DB
QECC_symplecticselforthog (Example H157E18)
SymplecticSpace(J) : AlgMatElt -> ModTupRng
SymplecticTransvection(a, alpha) : ModTupRngElt, FldElt -> AlgMatElt
Database of Finite Symplectic Matrix Groups (DATABASES OF GROUPS)
Symmetric Powers (L-FUNCTIONS)
Lseries_sympow-ec (Example H127E31)
Lseries_sympow-ec (Example H127E32)
Lseries_sympow-ec (Example H127E33)
Lseries_sympow-ec2 (Example H127E34)
Symplectic Spaces (POLAR SPACES)
Syndrome(w, C) : ModTupFldElt, Code -> ModTupFldElt
SyndromeSpace(C) : Code -> ModTupFld
The Syndrome Space (LINEAR CODES OVER FINITE FIELDS)
The Syndrome Space (LINEAR CODES OVER FINITE FIELDS)
SyndromeSpace(C) : Code -> ModTupFld
Operators on Root Systems (ROOT SYSTEMS)
AdjointLinearSystemForNodalCurve(C, d) : Crv -> LinearSys
AdjointIdealForNodalCurve(C) : Crv -> RngMPol
AdjointLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
CanonicalLinearSystem(C) : Crv -> LinearSys
CanonicalLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
GetHelpExternalSystem() : -> MonStgElt
ImageSystem(f,S,d) : MapSch,Sch,RngIntElt -> LinearSys
IrreducibleRootSystem(X, n) : MonStgElt, RngIntElt -> RootSys
IsLinearSystemNonEmpty(D) : DivSchElt -> BoolElt, DivSchElt
LinearSystem(L,V) : LinearSys,ModTupFld -> LinearSys
LinearSystem(L,p) : LinearSys,Pt -> LinearSys
LinearSystem(L,p,m) : LinearSys,Pt,RngIntElt -> LinearSys
LinearSystem(L,X) : LinearSys,Sch -> LinearSys
LinearSystem(L,F) : LinearSys,SeqEnum -> LinearSys
LinearSystem(P, d) : Sch, [RngIntElt] -> LinearSys
LinearSystem(P,d) : Sch,RngIntElt -> LinearSys
LinearSystem(P,F) : Sch,SeqEnum[RngMPolElt] -> LinearSys
LinearSystemTrace(L,X) : LinearSys,Sch -> LinearSys
ResidueSystem(R) : RngPad -> [RngPadElt]
ResolveLinearSystem(D) : DivTorElt -> TorVar
RootSystem(L) : AlgLie -> [ ModTupRngElt ], [ AlgLieElt ], [ ModTupRngElt ], AlgMatElt
RootSystem(C) : AlgMatElt -> RootSys
RootSystem(M) : AlgMatElt -> RootSys
RootSystem(M) : AlgMatElt -> RootSys
RootSystem(D) : GrphDir -> RootSys
RootSystem(W) : GrpMat -> RootDtm
RootSystem(W) : GrpPermCox -> RootDtm
RootSystem(N) : MonStgElt -> RootSys
RootSystem(A, B) : Mtrx, Mtrx -> RootSys
RootSystem(R) : RootDtm -> RootSys
SchreierSystem(G, H) : GrpFP, GrpFP -> {@ GrpFPElt @}, Map
SetHelpExternalSystem(s) : MonStgElt ->
SetHelpUseExternalSystem(b) : BoolElt ->
StandardRootSystem(X, n) : MonStgElt, RngIntElt -> RootSys
SylowSystem(G : parameters) : GrpMat[FldFin] -> []
System(C) : MonStgElt -> RngIntElt
SystemNormalizer(G) : GrpPC -> GrpPC
SystemOfEigenvalues(M, prec) : ModSym, RngIntElt -> SeqEnum
TeichmuellerSystem(R) : Any -> [RngLocElt]
ToralRootSystem(n) : RngIntElt -> RootSys
TrivialRootSystem() : -> RootSys
Building Root Systems (ROOT SYSTEMS)
Constructing Root Systems (ROOT SYSTEMS)
GROUPS DEFINED BY REWRITE SYSTEMS
Memory Usage (INPUT AND OUTPUT)
MONOIDS GIVEN BY REWRITE SYSTEMS
Predefined System Attributes (FUNCTIONS, PROCEDURES AND PACKAGES)
Properties of Root Systems (ROOT SYSTEMS)
System Calls (INPUT AND OUTPUT)
Systems of Reflexive Forms (ALGEBRAS WITH INVOLUTION)
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012