In a small lab at the University of California, Santa Cruz, clusters of mouse brain cells have taken on a task normally reserved for computer algorithms: ...

Cortical Labs, a startup based in Australia, has developed what it describes as a "code-deployable biological computer." Called CL1, the technology is a type of synthetic biological intelligence ...

As prominent artificial intelligence (AI) researchers eye limits to the current phase of the technology, a different approach is gaining attention: using living human brain cells as computational ...

The technology is still in its infancy. But its trajectory suggests that ethical conversations may become pressing far sooner than expected. These “biocomputers” are still in their early days. They ...

Flight cuts to hit 40 busiest U.S. airports due to government shutdown, computer chips in our bodies could be the future of medicine, and more Length: Long Speed: 1.0x It's been a long time since ...

The Johns Hopkins-created maps provide higher resolution and better coverage of gray matter than previously published maps, ...

Researchers have demonstrated that brain cells learn faster and carry out complex networking more effectively than machine learning by comparing how both a Synthetic Biological Intelligence (SBI) ...

Forbes contributors publish independent expert analyses and insights. I write about the big picture of artificial intelligence. We stand at the cusp of a massive technology paradigm shift that ...

Imagine balancing a ruler vertically in the palm of your hand: you have to constantly pay attention to the angle of the ruler and make many small adjustments to make sure it doesn't fall over. It ...

Imagine balancing a ruler upright in the palm of the hand: There is a need to continually pay attention to the angle of the ...

Forbes contributors publish independent expert analyses and insights. Jason Alan Snyder is a technologist covering AI and innovation. New research shows brain-computer interfaces can decode inner ...

The Challenge with BCIs: Inflammation, scarring, and programmed cell death undermine performance over time Implantable electrodes within the brain have enabled remarkable achievements—e.g., paralyzed ...