Small group number 30 of order 64

G is the group 64gp30

The Hall-Senior number of this group is 133.

G has 2 minimal generators, rank 3 and exponent 16. The centre has rank 1.

There is one conjugacy class of maximal elementary abelian subgroups. Each maximal elementary abelian has rank 3.

This cohomology ring calculation is complete.

Ring structure | Completion information | Koszul information | Restriction information | Poincaré series

Ring structure

The cohomology ring has 12 generators:

y₁ in degree 1, a nilpotent element
y₂ in degree 1
x₁ in degree 2, a nilpotent element
x₂ in degree 2
w in degree 3, a nilpotent element
v in degree 4, a nilpotent element
u₁ in degree 5, a nilpotent element
u₂ in degree 5
t in degree 6, a nilpotent element
s in degree 7, a nilpotent element
r₁ in degree 8, a nilpotent element
r₂ in degree 8, a regular element

There are 52 minimal relations:

y₁.y₂ = 0
y₁² = 0
y₂.x₁ = y₁.x₂
y₁.x₁ = 0
x₁.x₂ = y₂.w
x₁² = 0
y₁.w = 0
y₁.x₂² = 0
x₁.w = 0
y₁.v = 0
y₂.u₁ = 0
y₁.u₂ = 0
w² = 0
x₁.v = 0
y₁.u₁ = 0
x₂.u₁ = y₂.t
x₁.u₂ = y₂.t
w.v = 0
x₁.u₁ = 0
y₁.t = 0
w.u₂ = x₂².v + y₂.s + y₂.x₂².w
x₂.t = x₂².v + y₂.s
v² = 0
w.u₁ = 0
x₁.t = 0
y₁.s = 0
v.u₂ = x₂³.w + y₂.r₁
v.u₁ = 0
w.t = 0
x₁.s = 0
y₁.r₁ = 0
u₂² = x₂⁵ + y₂.x₂².u₂ + y₂².x₂⁴ + y₂⁴.x₂³ + y₂⁵.u₂ + y₂⁶.x₂² + y₂².r₁ + y₂⁴.x₂.v + y₂².r₂
u₁.u₂ = y₂.x₂³.w
u₁² = 0
v.t = 0
w.s = 0
x₁.r₁ = 0
u₂.t = x₂⁴.w + y₁.x₂.r₂
u₁.t = 0
v.s = 0
w.r₁ = 0
u₂.s = x₂².r₁ + y₂.x₂⁴.w + y₂.w.r₂
t² = 0
u₁.s = 0
v.r₁ = 0
u₂.r₁ = x₂³.s + y₂.x₂².r₁ + y₂.x₂⁴.v + y₂⁴.x₂.s + y₂⁵.r₁ + y₂⁶.s + y₂.v.r₂
t.s = 0
u₁.r₁ = 0
s² = 0
t.r₁ = 0
s.r₁ = 0
r₁² = 0

A minimal Gröbner basis for the relations ideal consists of this minimal generating set, together with the following redundant relations:

y₂².w = y₁.x₂²
y₂².t = 0
y₂².x₂².v = y₂³.s

Completion information

This cohomology ring was obtained from a calculation out to degree 16. The cohomology ring approximation is stable from degree 16 onwards, and Benson's tests detect stability from degree 16 onwards.

This cohomology ring has dimension 3 and depth 1. Here is a homogeneous system of parameters:

h₁ = r₂ in degree 8
h₂ = x₂ + y₂² in degree 2
h₃ = y₂ in degree 1

The first term h₁ forms a regular sequence of maximum length.

The first term h₁ forms a complete Duflot regular sequence. That is, its restriction to the greatest central elementary abelian subgroup forms a regular sequence of maximal length.

Data for Benson's test:

Raw filter degree type: -1, 3, 7, 8.
Filter degree type: -1, -2, -3, -3.
α = 0
The system of parameters is very strongly quasi-regular.
The regularity conjecture is satisfied.

Koszul information

A basis for R/(h₁, h₂, h₃) is as follows.

1 in degree 0
y₁ in degree 1
x₁ in degree 2
w in degree 3
v in degree 4
u₂ in degree 5
u₁ in degree 5
t in degree 6
s in degree 7
r in degree 8

A basis for Ann_{R/(h₁, h₂)}(h₃) is as follows.

y₁ in degree 1
x₁ in degree 2
w in degree 3
u₁ in degree 5
t in degree 6
s + v.h³ in degree 7

A basis for Ann_R/(h₁)(h₂) is as follows.

y₁.h in degree 3

Restriction information

Restriction to special subgroup number 1, which is 2gp1

y₁ restricts to 0
y₂ restricts to 0
x₁ restricts to 0
x₂ restricts to 0
w restricts to 0
v restricts to 0
u₁ restricts to 0
u₂ restricts to 0
t restricts to 0
s restricts to 0
r₁ restricts to 0
r₂ restricts to y⁸

Restriction to special subgroup number 2, which is 8gp5

y₁ restricts to 0
y₂ restricts to y₂
x₁ restricts to 0
x₂ restricts to y₃² + y₂.y₃
w restricts to 0
v restricts to 0
u₁ restricts to 0
u₂ restricts to y₃⁵ + y₂².y₃³ + y₁².y₂³ + y₁⁴.y₂
t restricts to 0
s restricts to 0
r₁ restricts to 0
r₂ restricts to y₃⁸ + y₂².y₃⁶ + y₂⁴.y₃⁴ + y₂⁶.y₃² + y₁².y₂².y₃⁴ + y₁².y₂⁴.y₃² + y₁².y₂⁶ + y₁⁴.y₃⁴ + y₁⁴.y₂².y₃² + y₁⁸

Poincaré series

(1 + t + t⁵ + t⁶) / (1 - t) (1 - t²) (1 - t⁸)

Back to the groups of order 64