deviations -- Computes the deviations of the input ring, complex, or power series.

Synopsis

Usage:

devTally = deviations(R)
Inputs:
- R, a ring,
Optional inputs:
- DegreeLimit => ..., default value 3, Option to specify the maximum degree to look for generators when computing the deviations
Outputs:
- devTally, a tally,

Description

This command computes the deviations of a Ring, a ChainComplex, or a power series in the form of a RingElement. The deviations are the same as the degrees of the generators of the acyclic closure of R, or the degrees of the generators of the Tor algebra of R. This function takes an option called Limit (default value 3) that specifies the largest deviation to compute.

i1 : R = ZZ/101[a,b,c,d]/ideal {a^3,b^3,c^3,d^3}

o1 = R

o1 : QuotientRing

i2 : deviations(R)

o2 = HashTable{(1, {1}) => 4}
               (2, {3}) => 4

o2 : HashTable

i3 : deviations(R,DegreeLimit=>4)

o3 = HashTable{(1, {1}) => 4}
               (2, {3}) => 4

o3 : HashTable

i4 : S = R/ideal{a^2*b^2*c^2*d^2}

o4 = S

o4 : QuotientRing

i5 : deviations(S,DegreeLimit=>4)

o5 = HashTable{(1, {1}) => 4 }
               (2, {3}) => 4
               (2, {8}) => 1
               (3, {9}) => 4
               (4, {10}) => 6
               (4, {11}) => 4

o5 : HashTable

i6 : T = ZZ/101[a,b]/ideal {a^2-b^3}

o6 = T

o6 : QuotientRing

i7 : deviations(T,DegreeLimit=>4)
warning: clearing value of symbol T to allow access to subscripted variables based on it
       : debug with expression   debug 6944   or with command line option   --debug 6944

o7 = HashTable{1 => 2}
               2 => 1

o7 : HashTable

Note that the deviations of T are not graded, since T is not graded. When calling deviations on a ChainComplex, the zeroth free module must be cyclic, and this is checked. The same goes for the case of a RingElement.

i8 : R = ZZ/101[a,b,c,d]/ideal {a^3,b^3,c^3,d^3}

o8 = R

o8 : QuotientRing

i9 : A = degreesRing R

o9 = A

o9 : PolynomialRing

i10 : kRes = res coker vars R

       1      4      10      20      35      56
o10 = R  <-- R  <-- R   <-- R   <-- R   <-- R
                                             
      0      1      2       3       4       5

o10 : ChainComplex

i11 : pSeries = poincareN kRes
warning: clearing value of symbol T to allow access to subscripted variables based on it
       : debug with expression   debug 6944   or with command line option   --debug 6944

                    2 2     2 3     3 3      3 4    4 4      4 5      4 6  
o11 = 1 + 4S*T  + 6S T  + 4S T  + 4S T  + 16S T  + S T  + 24S T  + 10S T  +
              0       0       0       0        0      0        0        0  
      -----------------------------------------------------------------------
         5 6      5 7
      16S T  + 40S T
           0        0

o11 : ZZ[S, T ]
             0

i12 : devA = deviations(R,DegreeLimit=>5)

o12 = HashTable{(1, {1}) => 4}
                (2, {3}) => 4

o12 : HashTable

i13 : devB = deviations(kRes,DegreeLimit=>5)

o13 = HashTable{(1, {1}) => 4}
                (2, {3}) => 4

o13 : HashTable

i14 : devC = deviations(pSeries,degrees R, DegreeLimit=>5)

o14 = HashTable{(1, {1}) => 4}
                (2, {3}) => 4

o14 : HashTable

i15 : devA === devB and devB === devC

o15 = true

Ways to use deviations :

deviations(ChainComplex)
deviations(Ring)
deviations(RingElement,List)

For the programmer

The object deviations is a method function with options.