TL;DR: Microsoft is developing ultra-durable data storage using borosilicate glass and femtosecond lasers, enabling 4.8TB capacity on a small, heat- and damage-resistant medium. This archival ...

Pure Storage (PSTG) has rebranded itself as Everpure to better reflect the company's transition to defining the future of data management in an increasingly AI-powered world. The name Everpure will ...

Pure Storage has rebranded to Everpure. The one-time flash storage hardware supplier characterised the move as an “expansion of the brand” based on the growing importance of data management. It will ...

For roughly a decade, Microsoft has been perfecting a high-density storage technology that uses glass, lasers, and cameras, and ensures it stays intact for millennia. That's a huge improvement over ...

As the industry looks toward 2026, data center architects and system designers face a convergence of pressures that make storage design more critical than ever. AI workloads continue to drive ...

Microsoft Unveils Glass Storage That Could Preserve Data for 10,000 Years Your email has been sent Microsoft has just hit a major milestone in a project that could end the digital dark age. Their ...

In this article, we will discuss the 12 Best Data Storage Stocks to Buy Right Now. Data storage stocks are emerging as one of the clearest ways to capitalize on the AI-driven infrastructure boom ...

Scientists at Microsoft Research in the United States have demonstrated a system called Silica for writing and reading information in ordinary pieces of glass which can store two million books' worth ...

Alex Fuerbach received/receives funding from the Australian Research Council, the Australian Department of Defence, The US Office of Aerospace Research and Development, Arthrolase, HB11 Energy and ...

PCWorld examines Microsoft’s Project Silica breakthrough, which now uses common borosilicate glass like Pyrex for ultra-long-term data storage lasting over 10,000 years. This technology addresses ...

Archival storage poses lots of challenges. We want media that is extremely dense and stable for centuries or more, and, ideally, doesn’t consume any energy when not being accessed. Lots of ideas have ...