How we can store digital data in DNA | Dina Zielinski

TED

21 Mar 201912:55

Summary

TLDRThis TED talk explores the future of digital storage, highlighting the immense challenge of managing the ever-growing volume of data humanity produces. It introduces DNA as a revolutionary medium for storing information, far surpassing traditional technologies like hard drives. DNA's remarkable durability, minuscule size, and capacity to hold vast amounts of data make it an ideal long-term storage solution. The talk explains how scientists can encode, store, and retrieve digital data using DNA, offering a glimpse into a future where our collective memories and knowledge could be preserved for generations to come.

Takeaways

😀 The amount of digital data generated in recent years surpasses all of human history, creating challenges in storage and accessibility.
😀 Digital storage technology is expensive and unreliable, with devices becoming obsolete over time, leading to the risk of data loss.
😀 While we use 'the cloud' for storage, it's just a collection of hard drives, and the underlying storage problem persists.
😀 DNA, nature's oldest and most efficient storage device, can store massive amounts of data in incredibly small spaces without the need for electricity.
😀 A single human genome contains enough data to fill hundreds of meters of paper if printed, yet it only takes a few gigs of storage in digital form.
😀 DNA is durable and has been used by nature for billions of years to preserve genetic information, with recovered DNA from ancient humans still intact.
😀 Unlike man-made storage devices, DNA does not require new technology to read and will remain accessible for as long as we can sequence it.
😀 Storing data on DNA involves converting binary data (0s and 1s) into DNA's nucleotides (A, T, C, G), a process similar to printing text on paper.
😀 Data stored on DNA is retrieved by sequencing, which involves reading the nucleotides and converting them back into digital form.
😀 Despite the potential of DNA storage, practical challenges such as data retrieval errors and the need for error-correction algorithms remain, though these have been addressed with strategies like video streaming algorithms.

Q & A

Why is digital data storage becoming a growing problem?
-Digital data storage is becoming a growing problem because humanity is generating more data each year than in all of history before, and the current storage devices are not equipped to handle the increasing volume efficiently. Additionally, storage is expensive, and older devices are quickly becoming obsolete.
What is the 'cloud,' and why is it not a complete solution for data storage?
-The 'cloud' is a system of remotely located servers used to store digital data, but it's not a complete solution because it still relies on traditional hard drives. While convenient, the cloud doesn't address the underlying issue of physical storage limitations and the eventual obsolescence of these devices.
What role did the Internet Archive play in the speaker's exploration of data storage?
-The Internet Archive is a nonprofit organization that offers access to historical web pages, books, movies, and other digital content. The speaker used it as a resource to examine how digital content, such as TED Talks, has evolved over time, particularly in relation to digital storage technology.
What is the significance of IBM's first hard drive from 1956?
-IBM's first hard drive from 1956 holds significant historical value because it was a breakthrough in digital storage, but it could only hold the equivalent of one MP3 song and was incredibly bulky and expensive. It highlights how far storage technology has come in the last several decades.
How does DNA compare to traditional storage devices in terms of data storage capacity?
-DNA offers an incredibly high storage density. Each cell in the human body contains enough DNA to store several gigabytes of information, whereas traditional storage devices like hard drives and DVDs require much more space for the same amount of data.
Why is DNA considered a more durable storage medium than current digital devices?
-DNA is extremely durable because it can last for thousands of years without requiring electricity or special conditions for storage. In comparison, digital devices degrade over time and can become obsolete or difficult to read, which is not the case with DNA.
What is 'Photo 51,' and why is it important in the context of data storage?
-Photo 51 is the first-ever image of DNA, captured around 60 years ago, and it played a crucial role in the discovery of DNA's structure. This image is important because it marked the beginning of the understanding that DNA could be used as a medium for data storage, just like digital binary code.
How is digital data encoded into DNA for storage?
-To encode digital data into DNA, the data is first converted into binary code (zeroes and ones). Then, these binary digits are translated into the four bases of DNA (A's, T's, C's, and G's). The DNA is then synthesized by a company specializing in DNA synthesis, allowing the data to be stored in a compact and durable format.
What challenges exist in retrieving data from DNA, and how are they addressed?
-One of the challenges of retrieving data from DNA is that the sequencing process can introduce errors. To overcome this, the researchers used error-correction algorithms, similar to those used in video streaming, to ensure accurate data recovery, even with millions or trillions of copies of the data.
What is the 'Memory of the World' program, and how does it relate to DNA data storage?
-The 'Memory of the World' program by UNESCO is designed to preserve materials that are culturally and historically significant for humanity. DNA data storage can play a role in this by enabling the preservation of vast amounts of data, including important historical records, for future generations without needing to decide today what will be significant.