The US AI strategy is dominated by a race to build a foundational "god in a box" Artificial General Intelligence (AGI). In contrast, China's state-directed approach currently prioritizes practical, narrow AI applications in manufacturing, agriculture, and healthcare to drive immediate economic productivity.

Facing semiconductor shortages, China is pursuing a unique AI development path. Instead of competing directly on compute power, its strategy leverages national strengths in vast data sets, a large talent pool, and significant power infrastructure to drive AI progress and a medium-term localization strategy.

Unable to compete globally on inference-as-a-service due to US chip sanctions, China has pivoted to releasing top-tier open-source models. This serves as a powerful soft power play, appealing to other nations and building a technological sphere of influence independent of the US.

A nation's advantage is its "intelligent capital stock": its total GPU compute power multiplied by the quality of its AI models. This explains the US restricting GPU sales to China, which counters by excelling in open-source models to close the gap.

A key strategic difference in the AI race is focus. US tech giants are 'AGI-pilled,' aiming to build a single, god-like general intelligence. In contrast, China's state-driven approach prioritizes deploying narrow AI to boost productivity in manufacturing, agriculture, and healthcare now.

While the U.S. AI strategy pursues a 'winner-take-all' model leading to high profits, China's state-backed approach aims to commoditize AI. By spreading resources across many players to create a low-cost, replicable model for export, it structurally limits the potential for monopoly profits to accrue to shareholders.

The US-China tech rivalry spans four arenas: creating technology, applying it, installing infrastructure, and self-sufficiency. While the U.S. excels at creating foundational tech like AI frameworks and semiconductors, China is leading in its practical application (e.g., robotics), installing digital infrastructure globally, and achieving resource independence.

China's semiconductor strategy is not merely to reverse-engineer Western technology like ASML's. It's a well-funded "primacy race" to develop novel, AI-driven lithography systems. This approach aims to create superior, not just parallel, manufacturing capabilities to gain global economic leverage.

China is compensating for its deficit in cutting-edge semiconductors by pursuing an asymmetric strategy. It focuses on massive 'superclusters' of less advanced domestic chips and creating hyper-efficient, open-source AI models. This approach prioritizes widespread, low-cost adoption over chasing the absolute peak of performance like the US.