DNA DATA STORAGE USING COMPOSITE FRAGMENTS

Organization Name

International Business Machines Corporation

Inventor(s)

Koji Masuda of Chuo (JP)

Toshiyuki Yamane of Setagaya (JP)

DNA DATA STORAGE USING COMPOSITE FRAGMENTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17533720 titled 'DNA DATA STORAGE USING COMPOSITE FRAGMENTS

Simplified Explanation

The abstract of the patent application describes a computer-implemented method for storing information into a polynucleotide. Here is a simplified explanation of the abstract:

• The method involves using multiple types of nucleotide fragments, each with a different sequence of bases.
• These nucleotide fragments are then combined to form composite fragments, with different ratios of the nucleotide fragments.
• An encoder is used to encode the information into these composite fragments.

Potential applications of this technology:

• Data storage: The ability to store information in polynucleotides could provide a highly dense and long-lasting data storage solution.
• DNA-based computing: The use of polynucleotides for information storage could open up new possibilities for DNA-based computing systems.

Problems solved by this technology:

• Data storage limitations: Traditional data storage methods may have limitations in terms of capacity and longevity. Storing information in polynucleotides could overcome these limitations.
• Information security: Polynucleotide-based storage could provide a more secure way of storing sensitive information, as DNA encryption techniques could be employed.

Benefits of this technology:

• High-density storage: Polynucleotides have the potential to store vast amounts of information in a compact form.
• Longevity: DNA is known for its stability, which could ensure the long-term preservation of stored information.
• Security: DNA-based storage could offer enhanced security measures, making it difficult for unauthorized access or tampering.

Original Abstract Submitted

A computer-implemented method for storing information into a polynucleotide is provided including using multiple types of nucleotide fragments, wherein each of the nucleotide fragments has an individually different sequence of bases, configuring multiple composite fragments, wherein each of the composite fragments has a set of the nucleotide fragments with different ratios of the nucleotide fragments, and encoding, via an encoder, the information into the composite fragments.