The projective dimension of the socle of the regular module as a bimodule in the Nakayama algebra corresponding to the Dyck path.

The length of the longest run of ones in a binary word.

The biclique partition number of a graph. The biclique partition number of a graph is the minimum number of pairwise edge disjoint complete bipartite subgraphs so that each edge belongs to exactly one of them. A theorem of Graham and Pollak [1] asserts that the complete graph $K_n$ has biclique partition number $n - 1$.

The number of exclusive left-to-right maxima of a permutation. This is the number of left-to-right maxima that are not right-to-left minima.

The number of Bastidas - Hohlweg - Saliola excedances of a signed permutation. For a signed permutation $\sigma$, this equals $$ \left\lfloor \dfrac{fexc(\sigma)+1}{2} \right\rfloor = exc(\sigma) + \left\lfloor \dfrac{neg(\sigma)+1}{2} \right\rfloor, $$ where $$fexc(\sigma) = 2exc(\sigma) + neg(\sigma),$$ $$exc(\sigma) = |\{i \in [n-1] \,:\, \sigma(i) > i\}|,$$ $$neg(\sigma) = |\{i \in [n] \,:\, \sigma(i) < 0\}|.$$ This statistic has the same distribution as the descent statistic [[St001427]].

The dimension of a graph. The dimension of a graph is the least integer $n$ such that there exists a representation of the graph in the Euclidean space of dimension $n$ with all vertices distinct and all edges having unit length. Edges are allowed to intersect, however.

The number of ones in a binary word. This is also known as the Hamming weight of the word.