Error-Correcting Codes for the Sum Channel

Abstract

We introduce the sum channel, a new channel model motivated by applications in distributed storage and DNA data storage. In the error-free case, it takes as input an -row binary matrix and outputs an (+1)-row matrix whose first rows equal the input and whose last row is their parity (sum) row. We construct a two-deletion-correcting code with redundancy 222 n + O(2) for -row inputs. When =2, we establish an upper bound of 22 n + O(1), implying that our redundancy is optimal up to a factor of 2. We also present a code correcting a single substitution with 2(+1) redundant bits and prove that it is within one bit of optimality.