Veronika Koren talks about pursuing a theory of neural coding that doesn’t fit a simple narrative, and the resilience it took to see it through.

Biology-inspired, silicon-based computing may boost AI efficiency; AMP2 instead uses AI to accelerate anaerobic biology.

Mathematicians uncover a method to control cellular noise, offering a new way to prevent cancer cells from surviving and ...

A new study has, for the first time, recorded and measured just how fast microplastics move through the gut passage of a key ...

Biological age tests measure how fast your body is aging compared to your actual age. These tests rely on biomarkers tied to ...

AI can now create genome viruses in laboratories and redesign toxins to evade controls, raising biosafety alert and rise of ...

Explore how AI-driven multiomics is reshaping drug discovery and personalized medicine development through innovative data ...

Why does cancer sometimes recur even after successful treatment, or why do some bacteria survive despite the use of powerful ...

A class of ultrasmall fluorescent core-shell silica nanoparticles developed at Cornell is showing an unexpected ability to rally the immune system against melanoma and dramatically improve the ...

The role will focus on monitoring emerging AI risks across computer security, biological use cases and the potential mental ...

Research reveals why AI systems can't become conscious—and what radically different computing substrates would be needed to bridge the gap.