cp's OEIS Frontend

By a result of Karhumaki and Lifshits, this is also the number of polynomials p(x) with coefficients in {0,1} that divide x^n-1 and such that (x^n-1)/ {(x-1)p(x)} has all coefficients in {0,1}.

The number of tiles of a discrete interval of length n (an interval of Z). - Eric H. Rivals (rivals(AT)lirmm.fr), Mar 13 2007

Bodini and Rivals proved this is the number of tiles of a discrete interval of length n and also is the number (A107067) of polynomials p(x) with coefficients in {0,1} that divide x^n-1 and such that (x^n-1)/ {(x-1)p(x)} has all coefficients in {0,1} (Bodini, Rivals, 2006). This structure of such tiles is also known as Krasner's factorization (Krasner and Ranulac, 1937). The proof also gives an algorithm to recognize if a set is a tile in optimal time and in this case, to compute the smallest interval it can tile (Bodini, Rivals, 2006). - Eric H. Rivals (rivals(AT)lirmm.fr), Mar 13 2007

Number of lone-child-avoiding rooted achiral (or generalized Bethe) trees with positive integer leaves summing to n, where a rooted tree is lone-child-avoiding if all terminal subtrees have at least two branches, and achiral if all branches directly under any given node are equal. For example, the a(6) = 6 trees are 6, (111111), (222), ((11)(11)(11)), (33), ((111)(111)). - Gus Wiseman, Jul 13 2018. Updated Aug 22 2020.

From Gus Wiseman, Aug 20 2020: (Start)

Also the number of strict chains of divisors starting with n. For example, the a(n) chains for n = 1, 2, 4, 6, 8, 12 are:

1 2 4 6 8 12

2/1 4/1 6/1 8/1 12/1

4/2 6/2 8/2 12/2

4/2/1 6/3 8/4 12/3

6/2/1 8/2/1 12/4

6/3/1 8/4/1 12/6

8/4/2 12/2/1

8/4/2/1 12/3/1

12/4/1

12/4/2

12/6/1

12/6/2

12/6/3

12/4/2/1

12/6/2/1

12/6/3/1

(End)

a(n) is the number of chains including n of the divisor lattice of divisors of n, which is to say, a(n) is the number of (d_1,d_2,...,d_k) such that d_1 < d_2 < ... < d_k = n and d_i divides d_{i+1} for 1 <= i <= k-1. Using this definition, the recurrence a(n) = 1 + Sum_{0 < d < n, d|n} a(d) is evident by enumerating the preceding element of n in the chains. If we count instead the chains whose LCM of members is n, then a(1) would be 2 because the empty chain is included, and we would obtain 2*A074206(n). - Jianing Song, Aug 21 2024

Row sums = A074206.

Row lengths give A086436.

T(n,2) = A070824(n).

T(n,3) = A200221(n).

Sum_{k>=1} k*T(n,k) = A254577.

For all n > 1, Sum_{k=1..A086436(n)} (-1)^k*T(n,k) = A008683(n). - Geoffrey Critzer, May 25 2018

From Gus Wiseman, Aug 21 2020: (Start)

Also the number of strict length k + 1 chains of divisors from n to 1. For example, row n = 24 counts the following chains:

24/1 24/2/1 24/4/2/1 24/8/4/2/1

24/3/1 24/6/2/1 24/12/4/2/1

24/4/1 24/6/3/1 24/12/6/2/1

24/6/1 24/8/2/1 24/12/6/3/1

24/8/1 24/8/4/1

24/12/1 24/12/2/1

24/12/3/1

24/12/4/1

24/12/6/1

(End)

The n-th superprimorial is A006939(n) = Product_{i = 1..n} prime(i)^(n - i + 1).

Support appears to be {0, 1, 2, 4, 6, 10}.

Row n > 1 appears to be row n! of A334996.

The n-th superprimorial is A006939(n) = Product_{i = 1..n} prime(i)^(n - i + 1).

Also the number of strict multiset partitions of {1,2,2,3,3,3,...,n}, a multiset with i copies of i for i = 1..n.

The support appears to be {0, 1, 2, 4, 6, 10}.