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Abstract

In this paper, we present a new family of MDS codes derived from elliptic curves. These codes attain lengths close to the theoretical maximum and are provably inequivalent to Reed-Solomon (RS) codes. Unlike many previous constructions that rely on the point at infinity, our approach allows for more general choices: we consider divisors supported on affine points and divisors consisting of multiple distinct points. This broader framework enables the construction of codes with length approximately $(q + 1 + \lfloor 2\sqrt{q} \rfloor)/2$, further illustrating the tightness of known upper bounds on elliptic MDS code lengths. A detailed comparison shows that our codes are not covered by earlier results. Moreover, we show that their inequivalence to RS codes by explicitly computing the rank of the Schur product of their generator matrices.