That’s a nine-fold expansion in four years. No segment in chip history has ever scaled that fast at that size. By 2026, memory alone is projected to reach $550 million to $570 billion — roughly 55% to ...

An international collaborative research team has discovered that G-quadraplex DNA (G4-DNA) accumulates in neurons and dynamically controls the activation and repression of genes underlying long-term ...

As AI agents move into production, teams are rethinking memory. Mastra’s open-source observational memory shows how stable ...

A new type of universal computer memory - ULTRARAM™ - has taken a step closer towards development with a successful experiment. 'Universal memory' is a memory where the data is robustly stored, but ...

Dynamic random access memory (DRAM) remains a cornerstone of modern electronic systems, enabling rapid data storage and retrieval. Recent developments have focused on capacitorless designs – notably ...

Nvidia researchers developed dynamic memory sparsification (DMS), a technique that compresses the KV cache in large language models by up to 8x while maintaining reasoning accuracy — and it can be ...

Dr. Ranganath is a professor of psychology and neuroscience and the director of the Dynamic Memory Lab at the University of California, Davis, and the author of the forthcoming book “Why We Remember: ...

IBM Research has been working on new non-volatile magnetic memory for over two decades. Non-volatile memory is wonderful for retaining data without power, but it is extremely slow, and does not last ...

The memory shortage risks becoming a broader supply-chain problem. Unlike the pandemic-era chip crunch, which was driven largely by logistics and temporary disruptions, today’s shortage stems from a s ...