As biocomputing advances, we must rethink not just how we build machines, but what it means for a machine to be “alive.”
Highlights from a groundbreaking event that brought together top minds exploring the intersection of organic tissue and computing.
A closer look at how researchers are training mini-brains using input signals, with early signs of memory formation and learning behavior.
Brain-on-a-Chip: The Frontier of Organoid Intelligence and Neurocomputing As organoid intelligence (OI) research advances, one of the most groundbreaking developments is the creation of brain-on-a-chip platforms—miniaturized neural systems engineered on microchips that replicate key features of human brain activity. These devices allow…
The development of organoid intelligence demands not only technical skill, but also strategic collaboration across disciplines. Increasingly, we’re witnessing cross-collaborations between leading AI companies and biotech startups as they race to dominate this transformative field. AI giants bring powerful computing frameworks, algorithmic…
Organoid Intelligence isn’t just a theoretical pursuit—it’s an emerging reality with wide-reaching applications across fields like medicine, computing, education, and defense. As neural organoids become more sophisticated, their use cases grow more compelling and diverse. In this in-depth feature, we break down…
As science pushes the boundaries of what is possible with organoid computing—creating brain-like tissues in the lab that can perform computational tasks—the ethical challenges multiply in complexity. Unlike traditional silicon-based computers, these systems are made from living, human-derived cells, often stem cells,…
As traditional silicon-based computing hits physical and energy-efficiency limits, researchers are turning to brain organoids as a radical new direction.
What if the future of artificial intelligence isn’t artificial at all? Organoids may offer a pathway to energy-conscious, self-learning platforms that mimic the brain’s flexibility.
We explore how researchers are successfully engineering brain-like structures to better understand neurological conditions and cognitive development.