Groups of order 128

This article gives information about, and links to more details on, groups of order 128
See pages on algebraic structures of order 128 | See pages on groups of a particular order

Statistics at a glance

To understand these in a broader context, see
groups of order 2^n|groups of prime-seventh order

Note that since prime power order implies nilpotent, and $128 = 2^{7}$ is a prime power, all groups of order 128 are nilpotent.

Quantity	Value	Explanation
Number of groups up to isomorphism	2328
Number of abelian groups up to isomorphism	15	Equal to the number of unordered integer partitions of $7$ , see classification of finite abelian groups
Number of groups of class exactly two up to isomorphism	947
Number of groups of class exactly three up to isomorphism	1137
Number of groups of class exactly four up to isomorphism	197
Number of groups of class exactly five up to isomorphism	29
Number of maximal class groups, i.e., groups of class exactly six up to isomorphism	3	The dihedral group, semidihedral group, and generalized quaternion group.

Arithmetic functions

Summary information

Here, the rows are arithmetic functions that take values between $0$ and $7$ , and the columns give the possible values of these functions. The entry in each cell is the number of isomorphism classes of groups for which the row arithmetic function takes the column value. Note that all the row value sums must equal $2328$ , which is the total number of groups of order $128$ .

Arithmetic function	Value 0	Value 1	Value 2	Value 3	Value 4	Value 5	Value 6	Value 7
prime-base logarithm of exponent	0	1	823	1269	202	27	5	1
Frattini length	0	1	816	1276	202	27	5	1
nilpotency class	0	15	947	1137	197	29	3	0
derived length	0	15	2299	14	0	0	0	0
minimum size of generating set	0	1	162	833	1153	169	9	1
rank of a p-group	0
normal rank of a p-group	0
characteristic rank of a p-group