Coding for Optimized Writing Rate in DNA Storage

  title={Coding for Optimized Writing Rate in DNA Storage},
  author={S. Jain and Farzad Farnoud and M. Schwartz and Jehoshua Bruck},
  journal={2020 IEEE International Symposium on Information Theory (ISIT)},
  • S. Jain, Farzad Farnoud, +1 author Jehoshua Bruck
  • Published 2020
  • Computer Science, Mathematics
  • 2020 IEEE International Symposium on Information Theory (ISIT)
  • A method for encoding information in DNA sequences is described. The method is based on the precisionresolution framework, and is aimed to work in conjunction with a recently suggested terminator-free template independent DNA synthesis method. The suggested method optimizes the amount of information bits per synthesis time unit, namely, the writing rate. Additionally, the encoding scheme studied here takes into account the existence of multiple copies of the DNA sequence, which are… CONTINUE READING
    4 Citations

    Figures and Topics from this paper.

    Improved Coding over Sets for DNA-Based Data Storage
    Error-correcting Codes for Short Tandem Duplication and Substitution Errors
    On Lattice Packings and Coverings of Asymmetric Limited-Magnitude Balls
    • 1
    • PDF


    Terminator-free template-independent enzymatic DNA synthesis for digital information storage
    • 32
    • Highly Influential
    • PDF
    A Rewritable, Random-Access DNA-Based Storage System
    • 162
    • PDF
    Next-Generation Digital Information Storage in DNA
    • 576
    • PDF
    Duplication-correcting codes for data storage in the DNA of living organisms
    • 48
    • PDF
    Random access in large-scale DNA data storage
    • 160
    Towards practical, high-capacity, low-maintenance information storage in synthesized DNA
    • 478
    • PDF
    Portable and Error-Free DNA-Based Data Storage
    • 101
    • PDF
    On Coding Over Sliced Information
    • 19
    • PDF
    CRISPR-Cas encoding of a digital movie into the genomes of a population of living bacteria
    • 134
    • PDF