Microsoft is betting on glass data storage for the kind of files you can’t afford to lose, the records that have to survive hardware refreshes, format changes, and decades of time. Its Project Silica research says laser-etched silica glass can hold data for 10,000 years, with room for longer lifespans in normal storage conditions.
Data gets written inside a small glass plate with ultra-fast lasers, then imaging and decoding software reconstructs it later. Microsoft has also pointed to a peer-reviewed Nature paper as evidence it can reliably write, read, and decode what it stores. This is aimed at archives, not your personal photo drive.
Still, it’s early. Access depends on purpose-built read equipment, and the system needs to prove it can raise write throughput and scale manufacturing beyond demonstrations.
How Microsoft writes inside glass
Project Silica converts bits into symbols and maps them to tiny 3D points called voxels. A high-powered laser inscribes those voxels inside a square silica glass plate about the size of a CD, stacking layers through the thickness of the glass.
Retrieval is a two-part process. Microscopy captures images of each layer, then software reconstructs the patterns and an AI-based decoder translates them back into usable data. That decoding step matters because the storage is physical, but the meaning of what’s stored lives in the math.
Why this matters for long-term archives
For institutions that keep records for decades, glass data storage promises fewer migrations. Traditional media needs periodic replacement, plus ongoing monitoring to manage failures, aging, and environmental risk. Microsoft estimates more than 10,000 years of retention even at 290C, and it frames silica glass as resistant to moisture, electromagnetic interference, and routine handling.
It won’t erase every long-term hazard. Archives still need disciplined processes, verification, and redundancy. But reducing how often the underlying media gets swapped could cut cost and complexity over time.
What you should watch next
The next hurdle is making it practical at scale. Laser writing has to get faster, and the ecosystem around plates and readers has to be affordable for organizations that don’t want a bespoke setup.
Long-term accessibility is the other test. Even if the glass lasts for millennia, future access depends on preserved specs, stable decoding methods, and software that can still translate what’s stored.
For now, treat Project Silica as a signal that archival storage is changing. If you’re planning for longevity today, keep multiple copies on proven media, and watch for a clear service model with pricing, throughput, and reader availability.
