In the framework of write-once memory (WOM) codes, it is important to
distinguish between codes that can be decoded directly and those that require
that the decoder knows the current generation to successfully decode the state
of the memory. A widely used approach to construct WOM codes is to design first
nondecodable codes that approach the boundaries of the capacity region, and
then make them decodable by appending additional cells that store the current
generation, at an expense of a rate loss. In this paper, we propose an
alternative method to make nondecodable WOM codes decodable by appending cells
that also store some additional data. The key idea is to append to the original
(nondecodable) code a short synchronous WOM code and write generations of the
original code and of the synchronous code simultaneously. We consider both the
binary and the nonbinary case. Furthermore, we propose a construction of
synchronous WOM codes, which are then used to make nondecodable codes
decodable. For short-to-moderate block lengths, the proposed method
significantly reduces the rate loss as compared to the standard method.Comment: To appear in IEEE Transactions on Communications. The material in
this paper was presented in part at the 2012 IEEE International Symposium on
Information Theory, Cambridge, MA, July 201