Is there a family $\mathcal{P}$ of integral polytopes such that for every $n\in\mathbb N_{>1}$ $\exists p\in\mathcal{P}:vol(p)=n$ and
- $\forall q\in\mathcal{P}\backslash\{p\}\quad vol(q)\neq n$
- coordinates of $p$ are $b$ bits in length with $b=O(\log\log n)$ in bit length
- dimension $p$ satisfies upper bound $b\cdot p=O({\log n})$
- closed in the sense if $vol(p)=ab$ such that $a,b>1\in\mathbb N_{>1}$ then $p=p_1\star p_2$ for a polytope product $\star$ where $vol(p_1)=a$ and $vol(p_2)=b$ and so if $p\in\mathcal P$ represents a prime by volume it cannot be decomposed?
Is there any way to describe such a family so that given $n\in\mathbb N_{>1}$
- $p$ cannot be described in polynomial time from $n$?