Existing tissue-derived liver organoid models consist of only one cell type and fail to replicate the complex cellular composition and tissue architecture, such as the liver periportal region.

Intelligence at scale requires more than data scientists; it demands operational maturity to manage the complete lifecycle of your AI systems.

Sakana introduces new AI architecture, ‘Continuous Thought Machines’ to make models reason with less guidance — like human brains ...

To flexibly and robustly handle diverse problems, AI systems can leverage dual-process theories of human cognition that ...

Large language models are not just the future of cybersecurity—they’re the context engine that makes the rest of your ...

That’s the asymptotic illusion. AI doesn’t need to be intelligent. It just needs to act the part. And do it at scale, with ...

Learn how to build your own GPT-style AI model with this step-by-step guide. Demystify large language models and unlock their ...

Researchers unveil MemOS, a breakthrough "memory operating system" for AI that delivers 159% improvement in reasoning tasks and enables persistent memory across sessions.

UB researchers are taking inspiration from the human brain to develop computing architecture that can support the growing ...

Researchers have unveiled the All-Topographic Neural Network (All-TNN), a new AI vision model type that mimics human brain ...

Image generators are designed to mimic their training data, so where does their apparent creativity come from? A recent study ...

New tissue-derived organoid model: A next-generation organoid model, composed of three liver cell types – adult hepatocytes, cholangiocytes, and liver mesenchymal cells – reconstructs ...