DNA DATA STORAGE

Harshad Gawai; Vaibhav Shriramjwar; Nikita Mohod

doi:10.17605/OSF.IO/JZU3V

Authors

Harshad Gawai Final Year Student,Computer Science & Engineering, Sipna College of Engineering & Technology,Amravati, Maharashtra, India
Vaibhav Shriramjwar Final Year Student,Computer Science & Engineering, Sipna College of Engineering & Technology,Amravati, Maharashtra, India
Nikita Mohod Assistant Professor, Computer Science & Engineering, Sipna College of Engineering & Technology,Amravati, Maharashtra, India

DOI:

https://doi.org/10.17605/OSF.IO/JZU3V

Keywords:

Data Storage, DNA, SDDs, HDDs, Genes

Abstract

Human Beings have always tried to simplify the way of storing data maintaining both security and speed of access. This decade(2011-2020) is focusing on improving data storage devices. New technologies like SSDs (Solid State Drives), technical upgrades in SATA or IDE HDDs (Hard Disk Drives), etc with Terra Bytes of storage capabilities have come to light in recent past.

However, DNA Data Storage technology is the next generation of storage technique, which has a lots of storage capability. DNA Data Stor-age will reinvent the way of storing data. This paper discusses about this storage mechanism and emphasizes on the on-going re-search in this field.

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References

https://twistbioscience.com/company/blog/twistbiosiencednastoragefountain2]

https://www.microsoft.com/en-us/research/project/dna-storage/

https://twistbioscience.com/company/blog/could-dna-super-charge-the-digital-revolution

https://www.the-scientist.com/?articles.view/articleNo/32494/title/DNA-Data-Storage/

https://www.nature.com/news/how-dna-could-store-all-the-world-s-data-1.20496

https://www.microsoft.com/en-us/research/wp-content/uploads/2016/04/dnastorage asplos16.pdf

https://twistbioscience.com/products/storage

http://www.sciencemag.org/news/2017/03/dna-could-store-all-worlds-data-one-room

https://www.technologyreview.com/s/607880/microsoft-has-a-plan-to-add-dna-data storage-to-its-clou-d/

J. Gantz, D. Reinsel. “Extracting value from chaos”, International Data Corporation (IDC), Framingham (2011).

C. Bancroft, T. Bowler, B. Bloom, C. T. Clelland. “Long Term Storage of Information in DNA Science” (2001).

George M. Church, Yuan Gao, Sriram Kosuri. “Next Generation Digital Information Storage in DNA” (2012).

M. Burrows and D. J. Wheeler, “A block-sorting lossless data compression algorithm,” Digital System Research Center, USA, 1994.

G.C.Smith, C.C.Fiddes, J.P.Hawkins, and J.P.L.Cox, “Some possible codes for encrypting data in DNA”, 2003.

D. A. Huffman, “A method for the construction of minimum-redundancy codes,” 1952.

L. Adleman. Molecular computation of solutions to combinatorial problems. Science, 266(5187):1021–1024, 1994

M. E. Allentoft, M. Collins, D. Harker, J. Haile, C. L. Oskam, M. L. Hale, P. F. Campos, J. A. Samaniego, M. T. P. Gilbert, E. Willerslev, G. Zhang, R. P. Scofield, R. N. Holdaway, and M. Bunce. The half-life of DNA in bone: measuring decay kinetics in 158 dated fossils.

N. Goldman, P. Bertone, S. Chen, C. Dessimoz, E. M. Le Proust, B. Sipos, and E. Birney, “Towards practical, highcapacity, low-maintenance information storage in synthesized DNA,” 2013.

C. T. Clelland, et al., “Hiding messages in DNA microdots”, 1999.