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

Consciousness may emerge not from code, but from the way living brains physically compute.

Explore how neuromorphic chips and brain-inspired computing bring low-power, efficient intelligence to edge AI, robotics, and ...

A detailed overview of JPMorgan Chase within diversified banking, outlining operations, regulatory context, institutional ...

Aravalli ridges play a key role in moderating heat and reducing the intensity of dust storms in Delhi, Gurugram, Jaipur. One of the most crucial concerns is environmental impact ...

Artificial intelligence is no longer a side project in corporate finance, it is rapidly becoming the operating layer that ...

Physicists have long relied on elegant theorems to connect the abstract math of quantum theory with the tangible behavior of ...

Right now, the debate about consciousness often feels frozen between two entrenched positions. On one side sits computational ...

Data quality and interoperability become critical enablers. Agentic systems rely on timely, accurate information from across ...

Market onlookers from Pico, Bruce Markets and Nasdaq provide an additional view on how they believe discussions around 24/7 ...

A new theoretical framework argues that the long-standing split between computational functionalism and biological naturalism misses how real brains actually compute.

The familiar fight between “mind as software” and “mind as biology” may be a false choice. This work proposes biological computationalism: the idea that brains compute, but not in the abstract, symbol ...