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hilbertSamuelFunction -- Computes the Hilbert-Samuel Function of Modules over Local Rings

Synopsis

Description

Given a module over a local ring, a parameter ideal, and an integer, this method computes the Hilbert-Samuel function for the module. If parameter ideal is not given, the maximal ideal is assumed.

Note: If computing at index n is fast but slows down at n+1, try computing at range (n, n+1). On the other hand, if computing at range (n, n+m) is slow, try breaking up the range.

To learn more read Eisenbud, Commutative Algebra, Chapter 12.

Here is an example from Computations in Algebraic Geometry with Macaulay2, pp. 61:

i1 : R = QQ[x,y,z];
i2 : RP = localRing(R, ideal gens R);
i3 : I = ideal"x5+y3+z3,x3+y5+z3,x3+y3+z5"

             5    3    3   5    3    3   5    3    3
o3 = ideal (x  + y  + z , y  + x  + z , z  + x  + y )

o3 : Ideal of RP
i4 : M = RP^1/I

o4 = cokernel | x5+y3+z3 y5+x3+z3 z5+x3+y3 |

                              1
o4 : RP-module, quotient of RP
i5 : elapsedTime hilbertSamuelFunction(M, 0, 6)
 -- 0.228563 seconds elapsed

o5 = {1, 3, 6, 7, 6, 3, 1}

o5 : List
i6 : oo//sum

o6 = 27

An example of using a parameter ideal:

i7 : R = ZZ/32003[x,y];
i8 : RP = localRing(R, ideal gens R);
i9 : N = RP^1

       1
o9 = RP

o9 : RP-module, free
i10 : q = ideal"x2,y3"

              2   3
o10 = ideal (x , y )

o10 : Ideal of RP
i11 : elapsedTime hilbertSamuelFunction(N, 0, 5) -- n+1 -- 0.02 seconds
 -- 0.0384421 seconds elapsed

o11 = {1, 2, 3, 4, 5, 6}

o11 : List
i12 : elapsedTime hilbertSamuelFunction(q, N, 0, 5) -- 6(n+1) -- 0.32 seconds
 -- 0.244885 seconds elapsed

o12 = {6, 12, 18, 24, 30, 36}

o12 : List

Caveat

Hilbert-Samuel function with respect to a parameter ideal other than the maximal ideal can be slower.

See also

Ways to use hilbertSamuelFunction :

For the programmer

The object hilbertSamuelFunction is a method function.