Your brain begins as a single cell. When all is said and done, it will house an incredibly complex and powerful network of some 170 billion cells. How does it organize itself along the way? Cold ...

Support vector machines improve classification by mapping inseparable signals into higher-dimensional spaces. Random forest models, through ensemble decision trees, increase robustness against ...

Imagine a vibrant sunset — the light slowly passing the horizon in a symphony of color before revealing a stunning, starry sky. As it turns out, beautiful imagery such as this, according to a study ...

In an agentic world, defensibility shifts from features to flow control. From owning a category to owning a node in the ...

Three new neural network-based tools enable fast, accurate alignment and annotation of images even in very wiggly subjects.

BrainAlignNet, AutoCellLabeler, and CellDiscoveryNet—to automatically track and identify neurons in moving worms and jellyfish.

The company open sourced an 8-billion-parameter LLM, Steerling-8B, trained with a new architecture designed to make its ...

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: ...

Jellyfish, lacking a central brain, exhibit remarkable coordination through decentralized nerve nets and specialized sensory structures called rhopalia. These ancient creatures effectively swim, hunt, ...

Another theory held that the forces between two particles falls off exponentially in direct relationship to the distance between two particles and that the factor by which it drops is not dependent on ...

Scientists have built a "thermodynamic computer" that can produce images from random disturbances in data, that is, noise. In ...