November 20, 2025 News
Finnish Startup NestAI Raises €100M to Develop Physical AI for European Defense Applications
Finnish startup NestAI has secured €100 million in funding led by Finland's sovereign fund and Nokia to develop AI products for defense applications, including unmanned vehicles and autonomous operations. The company is partnering with Nokia to build "physical AI" solutions that apply large language models to robotics and real-world applications, with a focus on European technological sovereignty. NestAI aims to become Europe's leading physical AI lab, with backing from Peter Sarlin, who previously sold AI startup Silo AI to AMD for $665 million.
Skynet Chance (+0.06%): Development of autonomous AI systems for military applications, including unmanned vehicles and command-and-control platforms, increases risks associated with weaponized AI and potential loss of human oversight in critical defense scenarios. The focus on physical AI combined with defense applications represents a concrete step toward autonomous systems with real-world impact capabilities.
Skynet Date (-1 days): Significant funding and partnership infrastructure accelerates the deployment of autonomous AI in defense contexts, bringing potential risks associated with military AI applications closer to realization. The €100M investment and Nokia partnership provide resources to rapidly advance physical AI development.
AGI Progress (+0.04%): Physical AI development that bridges large language models with robotics and real-world applications represents meaningful progress toward embodied intelligence, a key component of AGI. The focus on autonomous operations and command-and-control systems demonstrates advancement in AI systems that can perceive, reason, and act in physical environments.
AGI Date (-1 days): The substantial funding round and established corporate partnership with Nokia accelerates physical AI research and development in Europe, adding momentum to the global race toward embodied AI systems. The focus on practical deployment in defense applications will likely drive rapid iteration and capability improvements.