Anand Jayapalan: What You Should Know about DNA Storage
The data storage industry is going through a major shift—multiple factors, including the need for security, speed, efficiency, and lower costs, cause this. To spot and understand these factors, you must see things like an expert in the field, such as Anand Jayapalan.
IT experts and researchers foresee a 23-times growth in shipped petabytes through 2030. This trajectory promises to reshape and redefine current operations in data centers monumentally. One of the looming game-changers is DNA storage. DNA, when utilized as a data storage medium, has the potential to reach a far higher capacity and a more resilient storage environment than traditional storage architecture. This type of storage allows molecular-level data storage. It means it can archive information directly into DNA molecules. The two advantages of DNA-based data storage are density and stability. It is estimated that a single gram of DNA can store roughly 215 petabytes of data in a minimum life span of a staggering 500 years. The only thing that can ruin the data are UV rays from the sun since they can break down DNA. It's also important to note that this trend is long-term and nothing short of dream tech for IT experts such as Anand Jayapalan.
It's quite exciting since DNA storage development is also rapidly advancing. DNA media is not likely to enter the mainstream for quite some time. There's currently no definite timeline for DNA storage availability. Some optimists, however, hope it may become commercially available by the end of the 2020s.
Today's DNA sequencing and synthesis technologies are too expensive to be brought to the masses. They are also too slow compared to traditional infrastructure in terms of storage. Access latency is still very high, measured in minutes to hours. It is the maximum write throughput of kilobits per second. Moreover, a DNA drive competitive with tape archival has supported a write throughput of gigabits per second. Achieving such speed would require DNA synthesis or writing to become six times faster. On the other hand, DNA sequencing, or the reading process, must become twice or thrice as fast.
Even if access latency and throughput challenges can be resolved, experts believe the project's overall expense may be too steep. In the IT industry, tape storage media costs between $16 and $20 per terabyte. DNA synthesis and sequencing costs are in the area of a whopping $800 million per terabyte. Pricing has always been a huge issue for visionaries, which is why to be successful at this, you have to see the industry like an expert such as Anand Jayapalan.
Read more insights on data storage by visiting this Anand Jayapalan page.
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AuthorHighly seasoned industry expert boasting over two decades of expertise in the fields of storage and semiconductors. Demonstrates exceptional proficiency in technology innovation, product development, go-to-market strategy, and general management. Archives
April 2024
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