Difference between revisions of "Category:ApCoCoA-1:Package gbmr"
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(i) X is of STRING type. Every letters in X MUST appear only once. The order of letters in X is very important, since it induces a term ordering later. For example, X:="abc"; Order:="LLEX"; means a length-lexicographic ordering induced by a>b>c. | (i) X is of STRING type. Every letters in X MUST appear only once. The order of letters in X is very important, since it induces a term ordering later. For example, X:="abc"; Order:="LLEX"; means a length-lexicographic ordering induced by a>b>c. | ||
− | (ii) R is of LIST type. Each element in R has form [w_{l}, w_{r}], where w_{l} and w_{r} are terms in M. Each term in M is represented as a STRING. For example, xy^2x is represented as "xyyx", identity element is represented as | + | (ii) R is of LIST type. Each element in R has form [w_{l}, w_{r}], where w_{l} and w_{r} are terms in M. Each term in M is represented as a STRING. For example, xy^2x is represented as "xyyx", identity element is represented as an empty STRING "", and relation (yx, xy) is represented as ["yx", "xy"]. |
(iii) Each polynomial in Q[M] is represented as a LIST of LISTs, which are pairs of form [a_{i}, w_{i}]. For example, polynomial F:=xy-y+1 is represented as F:=[[1,"xy"], [-1, "y"], [1,""]]. Zero polynomial is represented as an empty LIST []. | (iii) Each polynomial in Q[M] is represented as a LIST of LISTs, which are pairs of form [a_{i}, w_{i}]. For example, polynomial F:=xy-y+1 is represented as F:=[[1,"xy"], [-1, "y"], [1,""]]. Zero polynomial is represented as an empty LIST []. |
Revision as of 08:41, 27 May 2010
Package gbmr is designed to provide basic operations (addition, subtraction, multiplication) over monoid rings and Groebner basis computations for finite generated (one and two-sided) ideals.
Let Q be rational field and M=<X, R> be a finited presented monoid, where X is a finite set of letters and R is a finite set of relations. A monoid ring of M over Q, denoted by Q[M], is a ing of all finite formal sums (called polynomials) a_{1}*w_{1}+ a_{2}*w_{2} +...+a_{n}*w_{n} with coefficients a_{i} in Q\{0} and terms w_{i} in M.
Note that
(i) X is of STRING type. Every letters in X MUST appear only once. The order of letters in X is very important, since it induces a term ordering later. For example, X:="abc"; Order:="LLEX"; means a length-lexicographic ordering induced by a>b>c.
(ii) R is of LIST type. Each element in R has form [w_{l}, w_{r}], where w_{l} and w_{r} are terms in M. Each term in M is represented as a STRING. For example, xy^2x is represented as "xyyx", identity element is represented as an empty STRING "", and relation (yx, xy) is represented as ["yx", "xy"].
(iii) Each polynomial in Q[M] is represented as a LIST of LISTs, which are pairs of form [a_{i}, w_{i}]. For example, polynomial F:=xy-y+1 is represented as F:=[[1,"xy"], [-1, "y"], [1,""]]. Zero polynomial is represented as an empty LIST [].
(iv) Ordering is of STRING type, which is an abbreviated name of a term ordering. For exapme, "LLEX" stands for a length-lexicographic ordering and "ELIM" stands for an elimination ordering. These two term orderings are the only orderings supported by the package currently.
Please note: The function(s) explained on this page is/are using the ApCoCoAServer. You will have to start the ApCoCoAServer in order to use it/them.
Pages in category "ApCoCoA-1:Package gbmr"
The following 59 pages are in this category, out of 59 total.
N
- ApCoCoA-1:NCo.Add
- ApCoCoA-1:NCo.AdMatrix
- ApCoCoA-1:NCo.BAdd
- ApCoCoA-1:NCo.BDeg
- ApCoCoA-1:NCo.BGB
- ApCoCoA-1:NCo.BHF
- ApCoCoA-1:NCo.BInterreduction
- ApCoCoA-1:NCo.BIsGB
- ApCoCoA-1:NCo.BLC
- ApCoCoA-1:NCo.BLW
- ApCoCoA-1:NCo.BMB
- ApCoCoA-1:NCo.BMultiply
- ApCoCoA-1:NCo.BNR
- ApCoCoA-1:NCo.BReducedGB
- ApCoCoA-1:NCo.BSubtract
- ApCoCoA-1:NCo.BTruncatedGB
- ApCoCoA-1:NCo.Deg
- ApCoCoA-1:NCo.FindPolynomials
- ApCoCoA-1:NCo.GB
- ApCoCoA-1:NCo.HF
- ApCoCoA-1:NCo.Interreduction
- ApCoCoA-1:NCo.Intersection
- ApCoCoA-1:NCo.IsFinite
- ApCoCoA-1:NCo.IsGB
- ApCoCoA-1:NCo.IsHomog
- ApCoCoA-1:NCo.KernelOfHomomorphism
- ApCoCoA-1:NCo.LC
- ApCoCoA-1:NCo.LW
- ApCoCoA-1:NCo.LWIdeal
- ApCoCoA-1:NCo.MB
- ApCoCoA-1:NCo.MRAdd
- ApCoCoA-1:NCo.MRDeg
- ApCoCoA-1:NCo.MRGB
- ApCoCoA-1:NCo.MRHF
- ApCoCoA-1:NCo.MRInterreduction
- ApCoCoA-1:NCo.MRIsGB
- ApCoCoA-1:NCo.MRLC
- ApCoCoA-1:NCo.MRLW
- ApCoCoA-1:NCo.MRMB
- ApCoCoA-1:NCo.MRMultiply
- ApCoCoA-1:NCo.MRNR
- ApCoCoA-1:NCo.MRReducedGB
- ApCoCoA-1:NCo.MRSubtract
- ApCoCoA-1:NCo.Multiply
- ApCoCoA-1:NCo.NR
- ApCoCoA-1:NCo.PrefixGB
- ApCoCoA-1:NCo.PrefixInterreduction
- ApCoCoA-1:NCo.PrefixNR
- ApCoCoA-1:NCo.PrefixReducedGB
- ApCoCoA-1:NCo.PrefixSaturation
- ApCoCoA-1:NCo.ReducedGB
- ApCoCoA-1:NCo.SetFp
- ApCoCoA-1:NCo.SetOrdering
- ApCoCoA-1:NCo.SetRelations
- ApCoCoA-1:NCo.SetX
- ApCoCoA-1:NCo.Subtract
- ApCoCoA-1:NCo.TruncatedGB
- ApCoCoA-1:NCo.UnsetFp
- ApCoCoA-1:NCo.UnsetRelations