The number of supergreedy linear extensions of a poset.
A linear extension of a poset P with elements $\{x_1,\dots,x_n\}$ is supergreedy, if it can be obtained by the following algorithm:

• Step 1. Choose a minimal element $x_1$.
• Step 2. Suppose $X=\{x_1,\dots,x_i\}$ have been chosen, let $M$ be the set of minimal elements of $P\setminus X$. If there is an element of $M$ which covers an element $x_j$ in $X$, then let $x_{i+1}$ be one of these such that $j$ is maximal; otherwise, choose $x_{i+1}$ to be any element of $M$.

This statistic records the number of supergreedy linear extensions.

The semistandard tableau corresponding the monotone triangle of an alternating sign matrix.
This is obtained by interpreting each row of the monotone triangle as an integer partition, and filling the cells of the smallest partition with ones, the second smallest with twos, and so on.

The underlying poset of the subcrystal obtained by applying the raising operators to a semistandard tableau.

The diagonally symmetric alternating sign matrix corresponding to a Dyck path.