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Have you ever wondered how to store the growing amount of digital data we generate every day? Imagine a world where billions of data fit into a capsule as small as a pill. This is the fascinating promise offered by Atlas Data Storage with its new DNA storage system. Discover how this technology could transform the way we preserve our most valuable information.
The 3 key facts not to miss
The Atlas Eon 100 system, presented by Atlas Data Storage, represents a major advancement in the field of data storage. Thanks to the use of synthetic DNA, this solution offers unmatched storage density. Compared to current technologies like hard drives or magnetic tapes, synthetic DNA can preserve data for several centuries, even in extreme climatic conditions.
Atlas Eon 100 offers exceptional storage capacity. A single liter of DNA solution can hold 60 petabytes of data. This is equivalent to 10 billion music tracks or 12 million high-definition movies. This phenomenal capacity is made possible by converting binary codes into DNA sequences, a method that allows massive amounts of information to be stored in a small space.
Despite its advantages, DNA storage is not without challenges. The process of synthesizing and sequencing data is both slow and costly. In fact, it takes up to a week to record information on DNA, and the cost amounts to several tens of dollars per gigabyte stored. These financial and time constraints are an obstacle to the democratization of this technology.
The DNA Data Storage Alliance envisions large-scale deployment of DNA storage by the end of the decade. This system could represent a viable solution for managing the astronomical amount of data produced every minute around the world. However, the industry still needs to find ways to make this technology more accessible and cost-effective.
Atlas Data Storage, an American company specializing in biotechnology, stands out for its innovations in the field of data storage. With the launch of Atlas Eon 100, it positions itself as a potential leader in the use of synthetic DNA for information preservation. This innovative approach is the result of extensive research aimed at meeting the growing storage capacity needs in an increasingly digital world.