Almost optimum $\ell$-covering of $\mathbb{Z}_n$

Abstract: A subset $B$ of the ring $\mathbb{Z}_n$ is referred to as a $\ell$-covering set if ${ ab \pmod n | 0\leq a \leq \ell, b\in B} = \mathbb{Z}_n$. We show that there exists a $\ell$-covering set of $\mathbb{Z}_n$ of size $O(\frac{n}{\ell}\log n)$ for all $n$ and $\ell$, and how to construct such a set. We also provide examples where any $\ell$-covering set must have a size of $\Omega(\frac{n}{\ell}\frac{\log n}{\log \log n})$. The proof employs a refined bound for the relative totient function obtained through sieve theory and the existence of a large divisor with a linear divisor sum. The result can be used to simplify a modular subset sum algorithm.