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Subindex: Residually  ..    resolutions




Residually

   IsRC(C) : CosetGeom -> BoolElt

   IsResiduallyConnected(C) : CosetGeom -> BoolElt

   IsResiduallyConnected(D) : IncGeom -> BoolElt


Residue

   BinaryResidueCode(C) : Code -> Code

   BiquadraticResidueSymbol(a, b) : RngQuadElt, RngQuadElt -> RngQuadElt

   Degree(I) : RngFunOrdIdl -> RngIntElt

   InertiaDegree(P) : PlcFunElt -> RngIntElt

   NormResidueSymbol(a,b,p) : FldRatElt, FldRatElt, RngIntElt -> RngIntElt

   PowerResidueCode(K, n, p) : FldFin, RngIntElt, RngIntElt -> Code

   RayResidueRing(D) : DivFunElt -> GrpAb, Map

   RayResidueRing(I) : RngOrdIdl -> GrpAb, Map

   Residue(C, f) : CosetGeom, Set -> CosetGeom

   Residue(d, P) : DiffFunElt, PlcFunElt -> RngElt

   Residue(a,P) : DiffFunElt,PlcCrvElt -> RngElt

   Residue(D, f) : IncGeom, Set -> IncGeom

   ResidueClassField(P) : PlcCrvElt -> Rng

   ResidueClassField(P) : PlcFunElt -> Rng

   ResidueClassField(R, I) : Rng, Rng -> Fld, Map

   ResidueClassField(I) : RngFunOrdIdl -> Rng, Map

   ResidueClassField(O, I) : RngOrd, RngOrdIdl -> FldFin, Map

   ResidueClassField(L) : RngPad -> FldFin, Map

   ResidueClassRing(m) : RngIntElt -> RngIntRes

   ResidueClassRing(Q) : RngIntEltFact -> RngIntRes

   ResidueField(R) : RngGal -> FldFin


residue

   Quadratic Residue Codes and their Generalizations (LINEAR CODES OVER FINITE FIELDS)

   Residue Class Fields (INTRODUCTION TO RINGS [BASIC RINGS])

   Residue Class Rings (RING OF INTEGERS)

   Rings, Fields, and Algebras (OVERVIEW)


residue-class-rings

   Lcm(Q) : Seq(RngIntResElt) -> RngIntResElt

   LCM(Q) : Seq(RngIntResElt) -> RngIntResElt

   Residue Class Rings (RING OF INTEGERS)


residue-field

   Residue Class Fields (INTRODUCTION TO RINGS [BASIC RINGS])


ResidueClassDegree

   InertiaDegree(I) : RngFunOrdIdl -> RngIntElt

   ResidueClassDegree(I) : RngFunOrdIdl -> RngIntElt

   Degree(I) : RngFunOrdIdl -> RngIntElt

   InertiaDegree(P) : PlcFunElt -> RngIntElt


ResidueClassField

   ResidueClassField(P) : PlcCrvElt -> Rng

   ResidueClassField(P) : PlcFunElt -> Rng

   ResidueClassField(R, I) : Rng, Rng -> Fld, Map

   ResidueClassField(I) : RngFunOrdIdl -> Rng, Map

   ResidueClassField(O, I) : RngOrd, RngOrdIdl -> FldFin, Map

   ResidueClassField(L) : RngPad -> FldFin, Map


ResidueClassRing

   IntegerRing(m) : RngIntElt -> RngIntRes

   Integers(m) : RngIntElt -> RngIntRes

   RingOfIntegers(m) : RngIntElt -> RngIntRes

   ResidueClassRing(m) : RngIntElt -> RngIntRes

   ResidueClassRing(Q) : RngIntEltFact -> RngIntRes


ResidueField

   ResidueField(R) : RngGal -> FldFin


residues

   Residues (INCIDENCE GEOMETRY)


resol-parallel

   Design_resol-parallel (Example H104E9)


Resolution

   CompactInjectiveResolution(M, n) : ModAlg, RngIntElt -> List, ModMatFldElt

   CompactProjectiveResolution(M, n) : ModAlg, RngIntElt -> Tup

   FreeResolution(M) : ModMPol -> [ ModMPol ]

   FreeResolution(R) : RngInvar -> [ ModMPol ]

   HasResolution(D) : Inc -> BoolElt, { SetEnum }, RngIntElt

   HasResolution(D, lambda) : Inc, RngIntElt -> BoolElt, { SetEnum }

   InjectiveResolution(M, n) : ModAlg, RngIntElt -> ModCpx, ModMatFldElt

   IsResolution(D, P) : Inc, SetEnum[SetEnum] -> BoolElt, RngIntElt

   MakeResolutionGraph(g,s,t) : GrphDir,SeqEnum,SeqEnum -> GrphRes

   MakeResolutionGraph(N) : NewtonPgon -> GrphRes

   MinimalFreeResolution(M) : ModMPol -> [ ModMPol ]

   MinimalFreeResolution(M) : ModMPol -> [ ModMPol ]

   ProjectiveResolution(M, n) : ModAlg, RngIntElt -> ModCpx, ModMatFldElt

   ResolutionGraph(p) : Grm -> GrphRes

   ResolutionGraph(v) : GrphResVert -> GrphRes

   ResolutionGraph(P) : PnclJac -> GrphRes

   ResolutionGraph(P,a,b) : PnclJac,RngElt,RngElt -> GrphRes

   ResolutionGraph(C,p) : Sch,Pt -> GrphRes

   ResolutionGraphVertex(g,i) : GrphRes,RngIntElt -> GrphResVert


resolution

   Free Resolutions (MODULES OVER AFFINE ALGEBRAS)

   Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)

   Splice Diagrams from Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)


resolution-graphs

   Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)


resolution-to-splice

   Splice Diagrams from Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)


ResolutionGraph

   ResolutionGraph(p) : Grm -> GrphRes

   ResolutionGraph(v) : GrphResVert -> GrphRes

   ResolutionGraph(P) : PnclJac -> GrphRes

   ResolutionGraph(P,a,b) : PnclJac,RngElt,RngElt -> GrphRes

   ResolutionGraph(C,p) : Sch,Pt -> GrphRes


ResolutionGraphVertex

   g ! i : GrphRes,RngIntElt -> GrphResVert

   ResolutionGraphVertex(g,i) : GrphRes,RngIntElt -> GrphResVert


Resolutions

   AllResolutions(D) : Inc  -> SeqEnum

   AllResolutions(D, lambda) : Inc, RngIntElt  -> SeqEnum


resolutions

   Resolutions, Parallelisms and Parallel Classes (INCIDENCE STRUCTURES AND DESIGNS)




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