Demodogs from the Upside-down have attacked Hawkins again. El wants to reach Mike and also kill as many Demodogs in the way as possible.

Hawkins can be represented as an $$$n \times n$$$ grid. The number of Demodogs in a cell at the $$$i$$$-th row and the $$$j$$$-th column is $$$i \cdot j$$$. El is at position $$$(1, 1)$$$ of the grid, and she has to reach $$$(n, n)$$$ where she can find Mike.

The only directions she can move are the right (from $$$(i, j)$$$ to $$$(i, j + 1)$$$) and the down (from $$$(i, j)$$$ to $$$(i + 1, j)$$$). She can't go out of the grid, as there are doors to the Upside-down at the boundaries.

Calculate the maximum possible number of Demodogs $$$\mathrm{ans}$$$ she can kill on the way, considering that she kills all Demodogs in cells she visits (including starting and finishing cells).

Print $$$2022 \cdot \mathrm{ans}$$$ modulo $$$10^9 + 7$$$. Modulo $$$10^9 + 7$$$ because the result can be too large and multiplied by $$$2022$$$ because we are never gonna see it again!

(Note, you firstly multiply by $$$2022$$$ and only after that take the remainder.)