Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of cancer-related substances. However, these systems have faced a key limitation: once a ...

Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of cancer-related substances. However, these systems have faced a key limitation: once a ...

An engineering researcher at RIT has discovered the means to process data using DNA. Their biocomputing design is a breakthrough that builds on innovative DNA engineering and computing system advances ...

A label-free nanopore platform uses programmable DNA circuits to build versatile molecular logic gates, forming a universal basis for scalable DNA computing and advanced biosensing applications.

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 ...

A DNA-based computer has solved a logic problem that no person could complete by hand, setting a new milestone for this infant technology that could someday surpass the electronic digital computer in ...

A new DNA-based molecular computer from KAIST operates at 0.34nm, combining logic and memory in a reusable system and pointing toward future biological computing.

Olympus Optical Co. Ltd. has developed what the company claims is the first commercially practical DNA (deoxyribonucleic acid) computer that specializes in gene analysis, the company announced earlier ...

A team at KAIST has developed a DNA-based bio-transistor capable of both computation and memory. The study, published in ...