A new study uses neural networks to prove that memory and individual recognition allow cooperation to defeat selfishness in the prisoner's dilemma.

The "prisoner's dilemma" is one of the most famous ideas in game theory. For decades, this game has been used to explain why selfishness often beats cooperation. In the prisoner's dilemma, two players ...

Gaming has become a vital research area in the most advanced forms of decision algorithms, optimization, and procedural ...

Citi Wealth philanthropic advisory chief Karen Kardos explains how wealthy families can build charitable giving strategies ...

Elizabeth Smart has spent more than two decades reclaiming her story — first as a kidnapping survivor, then as a wife, mother ...

Mastering a complex strategy game used to take years of trial, error, and expensive coaching. Today, artificial ...

On May 20, OpenAI said an internal reasoning model had produced a counterexample to Paul Erdős’s 1946 unit distance ...

Gemini 3.5 Flash, Gemini Spark and a reimagined Antigravity are designed to use AI to actually do things. Jon covers ...

At Google I/O 2026, Google unveiled the latest generation Gemini 3.5 Flash AI model, along with its agentic AI integrations ...

Google today announced Gemini 3.5 Flash, its most capable Flash-series model to date. The company says it outperforms Gemini 3.1 Pro on coding and agentic benchmarks and runs at four times the speed ...

The Thunder are the NBA's current standard-bearer, but they didn't need multiple high lottery picks to get there.

Thanks to some surprising advances, mathematicians are starting to realize that artificial intelligence could radically alter ...