Microsoft's glass storage breakthrough promises 10,000-year data retention

Researchers at Microsoft have developed a laser-based technology to store data in glass, potentially revolutionizing data centres with durable, sustainable archives. The method encodes information into nanostructures within glass layers, offering stability for over 10,000 years under extreme conditions. This advancement builds on earlier work and aims for scalable, robotic data libraries.

December 30, 2025 Reported by AI

In 2025, scientists revived the cassette tape using DNA to store vast amounts of data, far surpassing traditional versions. The innovation, developed in China, can hold every song ever recorded on just 100 meters of tape. Researchers aim to bring the technology to market within five years.

Global MLC NAND capacity is projected to drop more than 40% year-over-year in 2026, as TLC and QLC SSDs gain dominance. This shift is driven by increasing demand from AI workloads. The change marks MLC's retreat to niche markets.

February 25, 2026 Reported by AI

A new NASA study indicates that traces of ancient life on Mars could survive for over 50 million years in pure ice, protected from cosmic radiation. Researchers recommend future missions focus on drilling into clean ice deposits rather than rocks or soil. The findings, based on lab simulations, highlight pure ice as a potential preserve for organic material.

Researchers have produced the most intricate time crystal to date using an IBM superconducting quantum computer. This two-dimensional quantum material repeats its structure in time, cycling through configurations indefinitely. The achievement advances understanding of quantum systems and their potential for material design.

February 04, 2026 Reported by AI

Scientists in Australia have developed the largest quantum simulator to date, using 15,000 qubits to model exotic quantum materials. This device, known as Quantum Twins, could help optimize superconductors and other advanced substances. Built by embedding phosphorus atoms in silicon chips, it offers unprecedented control over electron properties.