International Association
for Cryptologic Research

Recently, $\mathsf{NTRU}$+$\mathsf{Sign}$ was proposed as a new compact signature scheme, following `Fiat-Shamir with Aborts' (FSwA) framework. Its compactness is mainly based on their novel NTRU-based key structure that fits well with bimodal distributions in the FSwA framework. However, despite its compactness, $\mathsf{NTRU}$+$\mathsf{Sign}$ fails to provide a diverse set of parameters that can meet some desired security levels. This limitation stems from its reliance on a ring $\mathbb{Z}_q[x]/\langle x^n+1 \rangle$, where $n$ is restricted to powers of two, limiting the flexibility in selecting appropriate security levels. To overcome this limitation, we propose a revised version of $\mathsf{NTRU}$+$\mathsf{Sign}$ by adopting a ring $\mathbb{Z}_q[x]/\langle x^n-x^{n/2}+1\rangle$ from cyclotomic trinomials, where $n=2^{i}3^{j}$ for some positive integers $i$ and $j$. Our parameterization offers three distinct security levels: approximately $120$, $190$, and $260$ bits, while preserving the compactness in $\mathbb{Z}_q[x]/\langle x^n+1 \rangle$. We implement these re-parameterized $\mathsf{NTRU}$+$\mathsf{Sign}$ schemes, showing that the performance of $\mathsf{NTRU}$+$\mathsf{Sign}$ from cyclotomic trinomials is still comparable to previous lattice-based signature schemes such as $\mathsf{Dilithium}$ and $\mathsf{HAETAE}$.