While headlines focus on advanced chips, China’s real leverage comes from its strategic control over less glamorous but essential upstream inputs like rare earths and magnets. It has even banned the export of magnet-making technology, creating critical, hard-to-solve bottlenecks for Western manufacturing.
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From China's perspective, producing more than it needs and exporting at cutthroat prices is a strategic tool, not an economic problem. This form of industrial warfare is designed to weaken other nations' manufacturing bases, prioritizing geopolitical goals over profit.
The belief that China's manufacturing advantage is cheap labor is dangerously outdated. Its true dominance lies in a 20-year head start on manufacturing autonomy, with production for complex products like the PlayStation 5 being 90% automated. The US outsourced innovation instead of automating domestically.
China is restricting exports of essential rare earth minerals and EV battery manufacturing equipment. This is a strategic move to protect its global dominance in these critical industries, leveraging the fact that other countries have outsourced environmentally harmful mining to them for decades.
Contrary to their intent, U.S. export controls on AI chips have backfired. Instead of crippling China's AI development, the restrictions provided the necessary incentive for China to aggressively invest in and accelerate its own semiconductor industry, potentially eroding the U.S.'s long-term competitive advantage.
While semiconductor access is a critical choke point, the long-term constraint on U.S. AI dominance is energy. Building massive data centers requires vast, stable power, but the U.S. faces supply chain issues for energy hardware and lacks a unified grid. China, in contrast, is strategically building out its energy infrastructure to support its AI ambitions.
China is explicitly subsidizing domestic semiconductor firms through its National Integrated Circuit Industry Investment Fund. This state-backed capital is the key driver behind its policy to achieve technological independence and replace foreign companies like NVIDIA.
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.
While the West may lead in AI models, China's key strategic advantage is its ability to 'embody' AI in hardware. Decades of de-industrialization in the U.S. have left a gap, while China's manufacturing dominance allows it to integrate AI into cars, drones, and robots at a scale the West cannot currently match.
Beyond raw materials, China's national ambition is to achieve near-total self-sufficiency. The prevailing mood is that there is "nothing for which it wants to rely on foreigners a single day longer than it has to." This philosophy of aggressive import substitution signals a fundamental break with the logic of reciprocal global trade.
U.S. export controls on advanced semiconductors, intended to slow China, have instead galvanized its domestic industry. The restrictions accelerated China's existing push for self-sufficiency, forcing local companies to innovate with less advanced chips and develop their own GPU and manufacturing capabilities, diminishing the policy's long-term effectiveness.