The researchers say the data could be retrieved from the glass in 10,000 years.
Most of the world’s information is stored digitally right now. Every year, we generate more data than we did the year before. Now, with AI in the picture, a technology that relies on a whole lot of data, the amount of digital information we save is increasing exponentially.
The research arm of Microsoft has been working on a method for data storage that uses a laser to write inside glass. The researchers say that the information written in the glass will last for 10,000 years.
If this method can be scaled for commercial use, it could change how we store the world’s information. Data rot — losing information due to old storage systems — means we have to transfer data at least once every generation to keep it. Otherwise, it gets corrupted with age.
Microsoft’s Project Silica research director Richard Black tells CNET that its work shows long-term digital storage in glass is practical, not just a science experiment.
“One of the biggest challenges with today’s storage is that media wears out and has to be replaced regularly,” Black says. “Glass doesn’t have that problem.”
Using a laser to modify pieces of glass to keep data safe for many lifetimes could have a drastic and lasting impact on all of the information we decide to keep.
Glass memory
Storing data in glass instead of using traditional digital systems is a project Microsoft has been working on for quite a while. Here’s a video that CNET made of the project six years ago, when it was just an idea.
On Feb. 18, Microsoft’s Project Silica published a paper in the science journal Nature that shows real advances in this long-term project. One of the big advances is writing the information on a less expensive material, which makes this technique more affordable.
Originally, the researchers used glass called fused silica. But this material, which is used for components in lasers and semiconductors, is expensive to manufacture, which could make the storage technology cost-prohibitive for many purposes.
Now, the researchers figured out how to store information in a sturdy glass that’s used for kitchen cookware, called borosilicate glass. This material cuts down the cost significantly.
Writing with lasers
To write in the glass, Project Silica has been using femtosecond lasers. A femtosecond is one quadrillionth of a second. This kind of laser emits super-fast pulses. It’s commonly used for eye surgeries because it can cut underneath without damaging the surface.
Close-up of Writer showing high-speed multi-beam data encoding on laser pulses.
Microsoft ResearchTo store information, the laser cuts voxels inside the glass. A voxel is like a pixel, but it stores information in three dimensions, like a cube, instead of in two dimensions. The video game Minecraft famously uses voxels to create its worlds.
“The key breakthrough is something the team calls phase voxels: tiny, controlled changes written inside ordinary borosilicate glass using a single laser pulse,” Black says. “This makes writing and reading data simpler and faster, and allows the use of low-cost glass rather than specialized materials.”
Because glass is a hard material, it’s not going to change over time. That’s why this storage method could maintain the integrity of the data for much longer than a standard computer system.
To retrieve the information, Project Silica has devised archives to hold the pieces of glass. Robots retrieve the glass, and then a neural network reads the data that’s written inside. Microsoft has a website that shows the robots zooming across the archive to retrieve the glass.
Perpetual storage
Microsoft has already used this storage technique in proofs of concept. In 2019, Project Silica stored the 1978 Superman film inside a piece of glass the size of a drink coaster.
In Svalbard, Norway, this technology is being used for the Global Music Vault project, which is designed to “future-proof” a wide variety of music. Microsoft also says this technology could complement projects like the Global Seed Vault in Svalbard, a doomsday vault that has a repository of seeds from different plants around the world.
“Glass is extremely durable and can tolerate heat, humidity, electromagnetic interference and physical damage much better than hard drives or magnetic tape,” Black says. “It also lasts far longer, meaning data doesn’t need to be recopied every few years.
“Because it’s naturally resistant to tampering and doesn’t require ongoing power or frequent replacement, it’s especially well suited for archives,” he continues. “Over long time scales, it can also be more sustainable than today’s storage technologies.”