This Collection supports and amplifies research related to SDG 3 - Good Health and Well-Being and SDG 9 - Industry, Innovation and Infrastructure. The emergence of brain organoids and intelligent ...

Biocomputing sits at the frontier of technological innovation, using biological molecules, cells or tissues to carry out computational tasks rather than relying solely on silicon circuits. As a hybrid ...

Scientists and engineers at the Center for Biocomputing, Security and Society at the Biodesign Institute are applying interdisciplinary approaches to form cutting-edge solutions to problems in topics ...

The human brain is a master of computation. It’s no wonder that from brain-inspired algorithms to neuromorphic chips, scientists are borrowing the brain’s playbook to give machines a boost. Yet the ...

A new study published in Frontiers in Science introduces biocomputing with “organoid intelligence” (OI), an emerging multidisciplinary field at the intersection of artificial intelligence (AI), ...

The first computers were biological: they had two arms, two legs and 10 fingers. “Computer” was a job title, not the name of a machine. The occupation vanished after programmable, electric calculating ...

Our brain is an energy-efficient marvel, with 86 billion neurons and trillions of connections running on just 20 watts—the energy of a single lightbulb. Swiss innovators at Final Spark are ...

In 2021, a dish of living human brain cells figured out how to play the 1970s arcade game Pong. It took just five minutes for the collection of neurons, called DishBrain, to learn how to move the ...

The first computers were biological: they had two arms, two legs and 10 fingers. “Computer” was a job title, not the name of a machine. The occupation vanished after programmable, electric calculating ...