Guzzling, devouring, the words fail to reflect the enormity of it all. Data storage eats up cities’ worth of power. Back in March, 3M ran a presentation about data, reminding us there was not going to be anything like a slowing down of data, and then posed the question, ok, so how do we swallow that and at the same time envision a sustainable future?
Cambridge Consultants said by 2025, the likes of storage in data centers will not be adequate to meet our data storage needs.
The Engineer on Wednesday: “According to Cambridge Consultants, conventional mediums of storing data – hard drives in data centres, often accessed as cloud services – will no longer be capable of meeting current data storage needs by as early as 2025.”
What to do? Kicking those data centers off the globe is tempting—what with their large footprint and enormous consumption of energy in maintaining their conditions, as in cooling—but what could replace them?
Cambridge Consultants posted an answer in a video on October 2. Long and short: DNA storage—using synthetic DNA—for fitting enormous quantities of data into a tiny footprint. They along with Boston, Massachusetts-based Catalog Technologies are on a mission to encode all the world’s information in DNA.
The two, Catalog Technologies along with UK firm Cambridge Consultants, have a partnership and plans for a machine that will encode data in DNA. In doing so, said The Engineer, one could be looking at “a DNA storage solution that could potentially hold all the world’s digital data in a space the size of a wardrobe.”
What does Cambridge Consultants mean when talking about DNA regarding data storage?
DNA is nature’s data storage is their answer. Its chemical stability means information can be stored securely for thousands of years. Antonio Regalado in MIT Technology Review: “DNA can last for thousands of years so long as it’s kept relatively cool and dry.”
To that end, the goal is a machine, to make the storage fast and commercially viable.
DNA data storage is not a just-discovered concept but they want to take it to the next practical level—like some time next year. According to Park, said Regalado, a single prototype machine will be completed at that time.
“The machine will scale the encoding process, making it affordable and fast enough for commercial pilots slated for next year,” the news release stated.
The machine will consume 1 terabit in 24 hours. They consider this number, however, a “stepping stone” to faster speeds. Hyunjun Park, co-founder and CEO, Catalog Technologies, was quoted in The Engineer. “The machine we are developing with Cambridge Consultants will bring DNA data storage out of the research lab and into the real world.”
Antonio Regalado in MIT Technology Review on Tuesday similarly explained the problem, saying that “converting bits into the As, Gs, Cs, and Ts of the genetic code is slow, and it’s a laborious process to retrieve the data. The cost of manufacturing customized DNA is also high, running near a million dollars to store a couple of high-resolution DVDs.”
Catalog has worked up a proprietary method for encoding data in DNA. Imagine the information content of entire data centers fitting in the palm of your hand.
The Catalog method veers from traditional thinking on DNA data storage. “As an analogy, assume the information to be stored is a book, which can be stored by copying it. The traditional approach would go about this by transcribing the book from start to finish, letter for letter.” Then, “if you want to store a different book, you have to start again from scratch, meaning the cost would be doubled.”
Instead, their team’s approach is like “building a printing press with typefaces.” They said that the company rearranges the typefaces, pre-made DNA molecules, to match the contents of the book.
Regalado explained their approach, saying that “the process involves combining inexpensive, short, premade DNA strands into longer bits of DNA that carry information.”
A faster, cheaper process results.
Back to the machine. This is no miniaturized sci-fi wonder with an other-worldly glow. Quipped Regalado: “…this thing is huge. It’s no flash drive.” Picture “a hulking school-bus-size machine that could one day convert movies or data archives into invisible pellets of DNA.” That is how Regalado described it.