What if your data could outlive human civilization? In this video, we dive into SPhotonix, a UK startup claiming its 5D glass “memory crystals” can safely store data for up to 13.8 billion years—about as long as the universe has existed. We break down how a five-inch fused-silica disc can hold up to 360 TB of information written by femtosecond lasers, why the data needs no power, cooling, or rewrites, and how five-dimensional optical storage (position, depth, orientation, and light intensity) turns glass into a true “write once, store forever” medium for cold archives. We also examine Microsoft’s decade-long Project Silica, which is developing a glass-based archival layer for Azure data centers using robotic libraries, laser-written quartz plates, and ML-powered readers that can withstand boiling heat, water, radiation, and EM pulses. From SPhotonix’s aggressive roadmap to reach 500 MB/s glass drives within a few years, to Microsoft’s movie-scale Superman demo, to competitors like Cerabyte exploring ceramic laser storage, this episode explains why tape and spinning disks may finally be on the clock. In the end, we ask the key question: in the race between a tiny UK spin-out and a trillion-dollar giant, who will actually ship the future of permanent data storage first? And if you want the real story behind the world’s fastest-moving tech and AI breakthroughs, make sure to like and subscribe to Evolving AI for daily coverage.
Credit to : Evolving AI