Optimizing the Decoding Probability and Coverage Ratio of Composite DNA
Information Theory
2025-05-15 v1 math.IT
Abstract
This paper studies two problems that are motivated by the novel recent approach of composite DNA that takes advantage of the DNA synthesis property which generates a huge number of copies for every synthesized strand. Under this paradigm, every composite symbols does not store a single nucleotide but a mixture of the four DNA nucleotides. The first problem studies the expected number of strand reads in order to decode a composite strand or a group of composite strands. In the second problem, our goal is study how to carefully choose a fixed number of mixtures of the DNA nucleotides such that the decoding probability by the maximum likelihood decoder is maximized.
Keywords
Cite
@article{arxiv.2505.09533,
title = {Optimizing the Decoding Probability and Coverage Ratio of Composite DNA},
author = {Tomer Cohen and Eitan Yaakobi},
journal= {arXiv preprint arXiv:2505.09533},
year = {2025}
}