Drug discovery is like molecular Tetris. Chemists snap atoms together, adjusting the pieces until everything fits, and ...

Researchers developed a machine-learning workflow that predicts how chemical reactions will form specific “handed” versions of molecules—critical for safe and effective drugs. Trained on small ...

Artificial intelligence (AI) is transforming the way scientists discover and design new materials. In a specially invited review published in Angewandte Chemie International Edition, Tohoku University ...

A team led by Abigail Doyle at the University of California, Los Angeles, found that phosphines can show transition- metal-like reactivity in a light-driven reaction between amine-containing rings and ...

Fortunately, these giant rings are about to become a lot easier to access. Helma Wennemers and her team at ETH Zurich have ...

AI is beginning to make inroads into designing and managing programmable logic, where it can be used to simplify and speed up portions of the design process. FPGAs and DSPs are st ...

The RVSoC Project was the origin, serving as a research and development project of the RISC-V computer system targeting FPGAs in Verilog HDL at Arch Lab, Tokyo Tech. Building on this foundation, we ...

Design teams face rising pressure to deliver larger chips with higher transistor densities on tighter schedules using advanced node processing. The computing demands of modern applications, especially ...

Cochrane, the Campbell Collaboration, JBI, and the Collaboration for Environmental Evidence have published a joint position statement on the responsible use of artificial intelligence (AI) in evidence ...

We describe our second-generation approach toward the synthesis of dodecahedrane, exploiting dodecahedrane’s unique symmetry to guide our retrosynthetic analysis. We describe a photochemical ...