Nvidia(US:NVDA)2025-09-03 14:46Summary of Liquid Cooling Technology Trends and Product Pricing Industry Overview - The liquid cooling technology is becoming a necessary choice for high-power data center cooling, driven by strict policy requirements for data center PUE values, which must reach 1.3 for new data centers and below 1.25 for national projects [1][4] - Liquid cooling significantly reduces operational costs, as demonstrated by a client in Beijing who saved 57.5% in annual electricity consumption after upgrading [1][4] Key Points and Arguments 1. Demand Drivers: - The demand for liquid cooling technology arises from the need for high-power chip modules (e.g., AI chips, GPUs, ASICs) and high-performance memory and optical modules [3][4] - Domestic GPU manufacturers are increasing density and quantity to compensate for single-chip performance gaps, with companies like Huawei launching systems to compete with NVIDIA's NVL72 architecture [3][12] 2. Liquid Cooling Solutions: - Mainstream liquid cooling solutions include direct contact, immersion, and spray cooling, each with its advantages and disadvantages [7][8] - Direct contact cooling is cost-effective, costing approximately 3,000 to 4,000 RMB per kW, while immersion cooling is more efficient but at a higher cost [3][16] 3. NVIDIA's Product Development: - NVIDIA's roadmap shows a strong demand for liquid cooling, with power consumption of the Rubin series expected to reach 1,800 watts in 2026 and 3,600 watts in 2027 [1][4][5] - The GB300 liquid cooling system's value increased by approximately 23% compared to the GB200, reaching $85,000 [10] 4. Market Trends: - The expected shipment volume for the GB200 cabinet in 2025 is between 25,000 to 30,000 units, primarily to North American cloud providers [2][11] - Domestic liquid cooling manufacturers are gaining recognition and certification from major companies like NVIDIA, with firms like BYD actively participating in the market [21] 5. Challenges and Innovations: - The use of fluorinated liquids poses environmental and safety concerns, prompting companies like Intel to explore new mineral oil alternatives [17] - The cost of immersion systems is high due to the need for large quantities of specialized liquids, which limits widespread adoption [18] 6. Comparative Analysis: - Compared to NVIDIA, other major players like Intel and AMD are progressing more slowly in high-power, high-density cooling solutions, relying more on traditional air cooling methods [6] 7. Future Outlook: - Domestic manufacturers are expected to achieve greater breakthroughs in the future as brand recognition increases and they establish long-term partnerships with leading clients in North America [21] Additional Important Content - The liquid cooling technology is widely applied in memory modules, optical modules, ASIC chips, and switch chips, with increasing power consumption necessitating these solutions [15] - The market share of traditional cooling methods remains significant, accounting for 70% to 80% of the market, due to lower modification costs and higher power density [18][20]