Australian researchers are turning to nature for the next computing revolution, harnessing living cells and biological systems as potential replacements for traditional silicon chips. A new paper from ...

On the left side, in vitro preassembled DNA circuits are delivered into living cells. Alternatively, on the right side, RNA pregates are autonomously transcribed from the chromosome or plasmids to be ...

As the quest for AI’s breakthrough use case is ongoing, the ubiquity of AI tools is already clear—embedded in our personal devices and set to transform all aspects of our lives. Yet this rise collides ...

Graphics processing units (GPUs), the expensive computer chips made by companies like Nvidia, AMD, and Sima.ai, are no longer the only way to train and deploy artificial intelligence. Biological Black ...

Silicon-based artificial intelligence has come a very long way in a very short space of time, driving massive advances in the large language models that sit at the heart of today’s generative AI ...

Funding accelerates deployment of biological computing systems as co-founders open flagship San Francisco lab SAN FRANCISCO, Feb. 12, 2026 /PRNewswire/ -- The Biological Computing Co. (TBC), the ...

TL;DR: Research in both biocomputing and neuromorphic computing may hold the key to better computer energy efficiency. By drawing inspiration from nature's own efficient systems, such as the human ...

MIT has taken a big step toward the ability to use engineered life-forms as a means of sensing, tracking, and even doing basic computing of information. Share on Facebook (opens in a new window) Share ...

Sustained progress across all areas of science and technology over the last half-century has transformed the expectations of society in many ways. Yet, even in this context of extraordinary advances, ...

Silicon-based artificial intelligence has come a very long way in a very short space of time, driving massive advances in the large language models that sit at the heart of today’s generative AI ...