液冷与智算中心日报|2026-06-26
追踪液冷技术、AI 智算中心、数据中心能效、学术论文、产品发布、政策标准、投融资与供应链动态的每日中文报告。
1. 今日一句话总结
24小时内,资本继续加码智算中心,但电力、审批与能效约束已前置,液冷和算电协同正转为项目准入项。
从公开信号看,资本并未因为约束而降温,资本开支仍向AI数据中心与液冷环节集中,说明头部厂商和基础设施资本仍在前置锁定园区、容量和交付窗口;但与此同时,扩建继续推进,但电力、选址审批与能源获取仍是主约束,意味着行业竞争的关键变量已不再只是“拿到多少 GPU”,而是“能否把 GPU 放进一个可并网、可散热、可控成本、可持续运行的系统”。技术侧技术侧继续围绕高带宽互连与服务器能效优化,论文侧论文侧继续指向算电协同、液冷优化与能效度量重构,共同指向同一个趋势:单点器件优化的边际价值在下降,网络、供电、储能、液冷和调度软件的系统级协同正在上升为真正的产能约束。对产业链而言,未来更稀缺的不是单一硬件,而是把算力、热管理和能源调度耦合起来的工程交付能力。
学术与产业速览
将论文、视频、产业动态和政策项压缩为可快速扫描的标签;每个标签只保留题目、摘要和来源入口。
学术
论文、研究趋势、学术视频与方法论线索。
Revisiting "Cooler is Better": ITD-Aware Per-CPU Thermal Optimization for…
As data center energy demand approaches grid-level constraints, optimizing conventional server infrastructure is essential for sust…
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Revisiting "Cooler is Better": ITD-Aware Per-CPU Thermal Optimization for Sustainable Data Center Operation
- 发布时间
- 2026-06-10
- 作者
- Jason Crop、Hayden Moore、Sudeep Pasricha
- 主题
- 算电协同
摘要
As data center energy demand approaches grid-level constraints, optimizing conventional server infrastructure is essential for sustainable growth. The long-standing assumption that "cooler is better", i.e., lower CPU temperatures reduce power, does not fully hold for modern low-voltage CPUs, where inverse temperature dependence (ITD) drives higher supply voltages at lower temperatures. This creates a non-monotonic performance-per-watt curve where efficiency peaks at an intermediate thermal point. In this paper, for the first time, we empirically characterize ITD on production Intel Xeon CPUs and demonstrate that efficiency-optimal temperatures are CPU part-specific, and frequently higher than typical data center operating conditions. Measurements from commercial cloud data center platforms (Amazon, Equinix) reveal that approximately half of modern high-power CPUs operate about 10°C below their efficiency-optimal thermal point. By implementing ITD-aware thermal grouping of CPUs and inlet temperature adjustments, data center operators can optimize facility-level cooling and overall sustainability. Our case study shows that this approach can reduce total data center energy by 4-13% without sacrificing performance or reliability.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,算力负载与电网侧资源的协同调度正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用建模优化、调度分析或算法评估,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向AI 负载波动对电网设备寿命和调频边界的影响。意义:对日报读者而言,它可用于判断智算中心建设是否受电网容量、负载波动和调度机制约束。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Jason Crop, Hayden Moore, Sudeep Pasricha. Revisiting "Cooler is Better": ITD-Aware Per-CPU Thermal Optimization for Sustainable Data Center Operation[J/OL]. (2026-06-10)[2026-06-26]. http://arxiv.org/abs/2606.11163v1.
Hot AI in Cold Space: Thermal-Crosstalk-Aware Scheduling for Sustainable …
Terrestrial AI training faces an unsustainable energy and water crisis, positioning Orbital Data Centers (ODCs) as a "zero operatio…
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Hot AI in Cold Space: Thermal-Crosstalk-Aware Scheduling for Sustainable Orbital AI Clusters
- 发布时间
- 2026-06-23
- 作者
- Shuyi Chen、Zhengchang Hua、Nikos Tziritas、Georgios Theodoropoulos
- 主题
- AI 运维优化
摘要
Terrestrial AI training faces an unsustainable energy and water crisis, positioning Orbital Data Centers (ODCs) as a "zero operational carbon" alternative. However, the sub-$10μ\text{s}$ communication latency required for distributed Large Language Model (LLM) training forces ODCs into extreme physical density, triggering a critical "Proximity-Thermal Paradox." As these high-density systems scale into Monolithic Structures or Proximity Swarms, they suffer from intense thermal-fluid crosstalk (heat traps in shared cooling loops) and thermal-radiative crosstalk (mutual heating that blocks deep-space cooling radiators). If left unmitigated, this persistent heat stagnation not only triggers severe thermal throttling that degrades training throughput, but also induces severe thermal fatigue, drastically shortening hardware lifespans and generating premature space e-waste. To make orbital AI truly sustainable, this position paper challenges traditional uniform load-sharing. We propose the Thermal-Aware Heterogeneity Thesis, which treats spatial cooling variances as a primary resource management dimension. Building on this, we introduce Thermal-Load Balancing (TLB), a software framework that dynamically migrates LLM workloads to the coolest available units based on instantaneous fluid temperatures or absorbed radiation. Our analysis demonstrates that TLB resolves thermal bottlenecks to restore Model Flops Utilization (MFU), while simultaneously reducing physical thermal stress. Extending the operational lifespan of orbital hardware is crucial to amortize the massive embodied carbon of rocket launches, outlining a necessary pathway to scale orbital AI without accelerating e-waste.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,AI 运维、负载预测和设施调优正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用建模优化、调度分析或算法评估,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向AI 负载波动对电网设备寿命和调频边界的影响。意义:对日报读者而言,它可用于判断AI 工具是否能降低运维复杂度并提升可用性。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Shuyi Chen, Zhengchang Hua, Nikos Tziritas, 等. Hot AI in Cold Space: Thermal-Crosstalk-Aware Scheduling for Sustainable Orbital AI Clusters[J/OL]. (2026-06-23)[2026-06-26]. http://arxiv.org/abs/2606.26150v1.
Toward Next-Generation AI Data Centers: Power Delivery Architecture Shift…
The rapid growth of AI workloads is driving unprecedented increases in data center power demand, current transients, and thermal st…
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Toward Next-Generation AI Data Centers: Power Delivery Architecture Shifts, Emerging Technologies, and Challenges
- 发布时间
- 2026-06-24
- 作者
- Sangwhee Lee、Rafal P. Wojda、Cheol-Hee Jo、Shuntaro Inoue、Pedro Ribeiro、Gui-Jia Su、Mostak Mohammad、Himel Barua
- 主题
- 热管理与液冷
摘要
The rapid growth of AI workloads is driving unprecedented increases in data center power demand, current transients, and thermal stress, exposing fundamental limitations in traditional 48 V rack architectures, low-voltage AC distribution, and line-frequency transformer interfaces. This paper reviews the three stages of architectural shifts required to support next-generation AI data centers and identifies three enabling technological building blocks: high-voltage conversion-ratio DC/DC converters, facility-level low-voltage DC distribution, and medium-voltage solid-state transformers. The advantages, technical challenges, and potential solutions associated with each building block are reviewed. Finally, future research directions and open challenges are discussed.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,液冷、热管理和数据中心能效正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用综述归纳和指标比较,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向跨地域数据中心负载与电力资源之间的调度关系。意义:对日报读者而言,它可用于判断液冷方案、热管理路线和高密度部署节奏。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Sangwhee Lee, Rafal P. Wojda, Cheol-Hee Jo, 等. Toward Next-Generation AI Data Centers: Power Delivery Architecture Shifts, Emerging Technologies, and Challenges[J/OL]. (2026-06-24)[2026-06-26]. http://arxiv.org/abs/2606.25095v1.
A Bilevel Framework for Data Center-Grid Coordination with DLMPs in Unbal…
This paper proposes a grid-aware coordination framework between data centers and distribution grids using a DLMP-based bilevel opti…
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A Bilevel Framework for Data Center-Grid Coordination with DLMPs in Unbalanced Three-Phase Distribution Systems
- 发布时间
- 2026-06-25
- 作者
- Arash Baharvandi、Duong Tung Nguyen
- 主题
- 算电协同
摘要
This paper proposes a grid-aware coordination framework between data centers and distribution grids using a DLMP-based bilevel optimization model. The data center aggregator (DCA) determines active power demand in response to distribution locational marginal prices (DLMPs), while the distribution system operator (DSO) solves a network-constrained optimal power flow problem to determine DLMPs in an unbalanced three-phase system. The model incorporates both active and reactive power consumption of data centers to evaluate their impacts on voltage regulation and phase imbalance. To mitigate adverse network effects, two operating cases are analyzed: without reactive power compensation and with static var generator (SVG)-based compensation. The proposed approach is validated on the IEEE 37-bus unbalanced distribution test system. Simulation results show that DLMP-based coordination captures economically efficient data center operation, and phase- and location-dependent network conditions, while SVG-based compensation improves voltage profiles and reduces phase unbalance.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,算力负载与电网侧资源的协同调度正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用建模优化、调度分析或算法评估,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向AI 负载波动对电网设备寿命和调频边界的影响。意义:对日报读者而言,它可用于判断智算中心建设是否受电网容量、负载波动和调度机制约束。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Arash Baharvandi, Duong Tung Nguyen. A Bilevel Framework for Data Center-Grid Coordination with DLMPs in Unbalanced Three-Phase Distribution Systems[J/OL]. (2026-06-25)[2026-06-26]. http://arxiv.org/abs/2606.26328v1.
Learning Burst-Aware Early Warning Models for Capacity Stress under AI Wo…
The rapid growth of large-scale AI workloads, particularly Large Language Model (LLM) training and inference, is fundamentally resh…
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Learning Burst-Aware Early Warning Models for Capacity Stress under AI Workload Surges in Hyperscale Data Centers
- 发布时间
- 2026-06-19
- 作者
- Zihan Yu、Xianling Zeng、Zhiming Xue、Yalun Qi、Sichen Zhao
- 主题
- AI 运维优化
摘要
The rapid growth of large-scale AI workloads, particularly Large Language Model (LLM) training and inference, is fundamentally reshaping the operational dynamics of hyperscale data centers. Unlike traditional cloud workloads, AI-driven jobs exhibit bursty, high-intensity, and rapidly shifting resource demands, often leading to sudden capacity stress that cannot be effectively handled by reactive threshold-based mechanisms. In this paper, we propose a deployment-oriented, burst-aware early warning framework for proactive capacity stress prediction under AI workload surges. We formulate the problem as a high-recall forecasting task over multivariate telemetry windows, with the explicit goal of enabling operational intervention before system degradation occurs. The proposed framework integrates workload intensity, temporal variation, and system pressure signals, and employs a lightweight tree-based learning model to capture nonlinear interactions in highly imbalanced environments. To evaluate the system under realistic conditions, we introduce an AI workload surge injection methodology that simulates burst-driven demand patterns observed in large-scale AI systems. Our XGBoost-based model achieves an ROC AUC of 0.697 and an AP of 0.670, significantly outperforming baseline methods. Under deployment-oriented threshold selection, the framework achieves a Recall of 0.914, enabling the detection of the majority of stress-prone periods with acceptable false-alarm cost. Beyond predictive performance, we show how the proposed framework can be integrated into operational control loops to support proactive actions such as workload throttling and resource scaling. Our results highlight the practical value of high-recall, learning-based early warning systems in enabling resilient and adaptive data center operations in the era of AI-driven workloads.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,AI 运维、负载预测和设施调优正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用框架构建和频域/系统级分析,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向跨地域数据中心负载与电力资源之间的调度关系。意义:对日报读者而言,它可用于判断AI 工具是否能降低运维复杂度并提升可用性。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Zihan Yu, Xianling Zeng, Zhiming Xue, 等. Learning Burst-Aware Early Warning Models for Capacity Stress under AI Workload Surges in Hyperscale Data Centers[J/OL]. (2026-06-19)[2026-06-26]. http://arxiv.org/abs/2606.21130v1.
AI Data Centers and the Water Use Feedback Loop
AI data centres consume water for cooling, water scarcity constrains siting, and AI tools can improve water system efficiency. Thes…
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AI Data Centers and the Water Use Feedback Loop
- 发布时间
- 2026-06-20
- 作者
- Basit A. Akinade、Amobichukwu C. Amanambu、Jonathan M. Frame、Shaolei Ren
- 主题
- 热管理与液冷
摘要
AI data centres consume water for cooling, water scarcity constrains siting, and AI tools can improve water system efficiency. These dynamics are studied separately yet form a feedback loop. This review formalises the Water and AI Feedback Loop, introduces the Water Consumption Impact index to quantify community-scale utility burden, and demonstrates across ten US sites that burden spans three orders of magnitude, from 0.2% to 134% of host capacity.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,液冷、热管理和数据中心能效正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用综述归纳和指标比较,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向冷却效率、能源利用或运维策略的改进方向。意义:对日报读者而言,它可用于判断液冷方案、热管理路线和高密度部署节奏。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Basit A. Akinade, Amobichukwu C. Amanambu, Jonathan M. Frame, 等. AI Data Centers and the Water Use Feedback Loop[J/OL]. (2026-06-20)[2026-06-26]. http://arxiv.org/abs/2606.21760v1.
Power-Flexible AI Data Centers: A New Paradigm for Grid-Responsive Compute
The rapid expansion of artificial intelligence (AI) infrastructure is driving unprecedented growth in electricity demand from data …
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Power-Flexible AI Data Centers: A New Paradigm for Grid-Responsive Compute
- 发布时间
- 2026-06-24
- 作者
- Chris Williams、Philip Colangelo、Ayse Coskun、Ethan Levine、Andy Neale、Ciaran Roberts、Shayan Sengupta、Nikhil Shirolkar
- 主题
- 算电协同
摘要
The rapid expansion of artificial intelligence (AI) infrastructure is driving unprecedented growth in electricity demand from data centers. Traditional power-system planning treats large computing facilities as inflexible peak loads, leading to costly infrastructure upgrades and long delays in grid interconnection. Recent work has shown that AI clusters can reduce electricity consumption during peak demand through software-based workload orchestration. This article explores how modern GPU-based AI data centers can operate as grid-interactive assets that respond dynamically to power system conditions. We describe an architecture integrating grid signals, workload scheduling, and power telemetry for fine-grained cluster power control. Experimental results from a real-world deployment on a 130 kW GPU cluster demonstrate multiple forms of flexibility, including rapid load reduction, sustained curtailment, and carbon-aware operation while preserving service levels for priority jobs. We further demonstrate performance-aware load shifting across geographically distributed clusters, enabling workloads to migrate toward regions with lower grid stress. Together, these capabilities transform AI infrastructure from static electricity consumers into flexible resources that support grid reliability, accelerate interconnection, and improve computing sustainability.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,算力负载与电网侧资源的协同调度正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用建模优化、调度分析或算法评估,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向AI 负载波动对电网设备寿命和调频边界的影响。意义:对日报读者而言,它可用于判断智算中心建设是否受电网容量、负载波动和调度机制约束。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Chris Williams, Philip Colangelo, Ayse Coskun, 等. Power-Flexible AI Data Centers: A New Paradigm for Grid-Responsive Compute[J/OL]. (2026-06-24)[2026-06-26]. http://arxiv.org/abs/2606.25098v1.
GaN Power Devices and Converter Architectures for AI Data Centers: Effici…
The growth of artificial-intelligence workloads is increasing the electrical and thermal demands on data-center power-delivery syst…
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GaN Power Devices and Converter Architectures for AI Data Centers: Efficiency, Reliability, and Deployment Pathways
- 发布时间
- 2026-06-24
- 作者
- Donald Intal、Abasifreke Ebong
- 主题
- 算电协同
摘要
The growth of artificial-intelligence workloads is increasing the electrical and thermal demands on data-center power-delivery systems, making conversion efficiency, power density, and reliability critical design priorities. This review examines how gallium-nitride (GaN) power devices can be matched to specific stages of the grid-to-load conversion chain, including power-factor correction, isolated DC/DC conversion, 48-V intermediate-bus conversion, and point-of-load regulation. Si, SiC, and GaN are compared using converter-relevant metrics, and lateral, vertical, and specialized GaN architectures are evaluated in terms of voltage scalability, switching behavior, reverse conduction, thermal pathways, gate control, and technology maturity. The analysis shows that GaN provides a stage-dependent rather than universal advantage. Commercial lateral GaN HEMTs are particularly effective in high-frequency, low-to-mid-voltage stages, while specialized and hybrid devices support bidirectional operation, normally-off control, extreme conversion ratios, and integration. Vertical GaN remains an emerging option for higher-voltage and higher-power conversion. A quantitative framework links cascaded converter efficiency to electrical-loss reduction, cooling demand, annual facility energy use, and operational carbon emissions. Broad deployment further requires low-parasitic packaging, disciplined gate-drive and EMI co-design, mission-profile reliability qualification, scalable manufacturing, and supply-chain resilience. GaN is therefore best treated as a stage-specific system lever whose value depends on coordinated device, topology, package, and thermal co-design.
中文解读
背景:AI 数据中心负载、功率密度和能源约束同步上升,算力负载与电网侧资源的协同调度正在成为智算中心设计的关键变量。问题:论文聚焦现有方案在效率、可靠性或工程协同上的瓶颈。方法:摘要显示作者采用综述归纳和指标比较,把运行负载、冷却/能源系统和基础设施约束放在同一分析框架中。结果:研究重点指向AI 负载波动对电网设备寿命和调频边界的影响。意义:对日报读者而言,它可用于判断智算中心建设是否受电网容量、负载波动和调度机制约束。仍需结合全文实验条件、样本范围和成本假设核验。
参考文献
Donald Intal, Abasifreke Ebong. GaN Power Devices and Converter Architectures for AI Data Centers: Efficiency, Reliability, and Deployment Pathways[J/OL]. (2026-06-24)[2026-06-26]. http://arxiv.org/abs/2606.25281v1.
Realizing Asymmetric Datarates via Energy Efficient Ethernet (EEE)
IEEE Standards Association · 检索词:IEEE data center energy efficiency lecture。适合作为技术背景或研究趋势补充。
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Webinar: Data Centre Liquid Cooling Technology
Park Place Technologies · 检索词:data center liquid cooling conference presentation。适合作为技术背景或研究趋势补充。
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AI data centers are an EXISTENTIAL THREAT
Congressman Jim McGovern · 检索词:AI data center energy conference keynote。适合作为技术背景或研究趋势补充。
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Americans Want a Pause on AI Data Centers
Senator Bernie Sanders · 检索词:AI data center energy conference keynote。适合作为技术背景或研究趋势补充。
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电力并网与能源约束
本期命中 12 条,热度分 34。可作为论文检索、技术路线和后续研究跟踪关键词。
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智算中心 CapEx/扩建
本期命中 8 条,热度分 26。可作为论文检索、技术路线和后续研究跟踪关键词。
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AI 芯片供给与交付
本期命中 3 条,热度分 9。可作为论文检索、技术路线和后续研究跟踪关键词。
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产业
产业新闻、技术产品、政策标准、投融资、项目和产业视频。
AI 算力基础设施动态:NVIDIA Blog 发布相关报道(原文标题:NVIDIA and AWS Collaborate to Bring A…
发布时间:2026-06-24;近 7 天补充观察,非 24 小时窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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电力与能源约束观察:NVIDIA Blog 发布相关报道(原文标题:Hotter Than a Hot Tub: The 45°C Breakth…
发布时间:2026-06-22;近 7 天补充观察,非 24 小时窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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AI 算力基础设施动态:Data Center Dynamics 发布相关报道,涉及 $2.5bn(原文标题:Gorilla Technology…
发布时间:2026-06-26;检索窗口内;可核验指标:$2.5bn;细节以来源原文为准,本页不复述未核验扩展信息
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数据中心产业动态:The Register 发布相关报道(原文标题:AI giants back non-profit to retrain wo…
发布时间:2026-06-26;检索窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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数据中心产业动态:The Register 发布相关报道,涉及 $13、$48(原文标题:Amazon pours another $13B in…
发布时间:2026-06-25;检索窗口内;可核验指标:$13、$48;细节以来源原文为准,本页不复述未核验扩展信息
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数据中心产业动态:The Register 发布相关报道(原文标题:The CPU's growing role in agentic AI in…
发布时间:2026-06-25;检索窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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数据中心产业动态:The Register 发布相关报道(原文标题:Qualcomm claims it's not too late for D…
发布时间:2026-06-25;近 7 天补充观察,非 24 小时窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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数据中心产业动态:ServeTheHome 发布相关报道,涉及 2026 w(原文标题:Qualcomm Investor Day 2026 Da…
发布时间:2026-06-25;近 7 天补充观察,非 24 小时窗口内;可核验指标:2026 w;细节以来源原文为准,本页不复述未核验扩展信息
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电力与能源约束观察:Data Center Knowledge 发布相关报道(原文标题:Oracle’s Wisconsin Suit Tests…
发布时间:2026-06-26;检索窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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数据中心产业动态:Data Center Knowledge 发布相关报道,涉及 $15 billion(原文标题:Qualcomm Lands …
发布时间:2026-06-25;检索窗口内;可核验指标:$15 billion;细节以来源原文为准,本页不复述未核验扩展信息
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AI 算力基础设施动态:ServeTheHome 发布相关报道(原文标题:MiTAC Computex 2026 Booth Tour: Diam…
发布时间:2026-06-22;近 7 天补充观察,非 24 小时窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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AI 算力基础设施动态:HPCwire 发布相关报道(原文标题:NVIDIA and AWS Collaborate to Bring AI to…
发布时间:2026-06-25;检索窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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智算中心/数据中心建设进展:Data Center Knowledge 发布相关报道(原文标题:Texas AI Data Centers: Po…
发布时间:2026-06-26;检索窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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投融资、财报或公司动态:Data Center Knowledge 发布相关报道(原文标题:Data Centers Take Training …
发布时间:2026-06-23;近 7 天补充观察,非 24 小时窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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投融资、财报或公司动态:HPCwire 发布相关报道(原文标题:Qualcomm Strengthens Data Center AI Push …
发布时间:2026-06-25;检索窗口内;细节以来源原文为准,本页不复述未核验扩展信息
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Major Changes to ASHRAE’s Fifth Edition of Thermal Guidelines: New Air-Co…
Upsite Technologies · 检索词:ASHRAE data center cooling webinar。用于补充产业、产品或工程部署观察。
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Nvidia liquid cooling hot tub data center system Giannis, Antetokounmpo M…
Kenan Grace · 检索词:OCP data center cooling workshop。用于补充产业、产品或工程部署观察。
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2024 ASHRAE Webinar: Adiabatic Solutions for Data Centers
Condair USA/CA · 检索词:ASHRAE data center cooling webinar。用于补充产业、产品或工程部署观察。
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ASHRAE Ireland Technical Webinar - Efficiency in Data Center's Cooling Sy…
ASHRAE Ireland · 检索词:ASHRAE data center cooling webinar。用于补充产业、产品或工程部署观察。
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产业热度指数 10/10
产业热度指数为 10/10:本期自动化检索记录到 23 条候选条目,指数按候选条目数量、来源可信度和栏目覆盖度保守计算。
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NVIDIA Blackwell/GB200/GB300
昨日热度高,今日暂无新增高可信条目
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AI 芯片供给与交付
今日延续上榜
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智算中心 CapEx/扩建
今日延续上榜
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4. 最新视频观察
Major Changes to ASHRAE’s Fifth Edition of Thermal Guidelines: New Air-Cooled Class for High Density
标准组织讲座 · Upsite Technologies · 检索词:ASHRAE data center cooling webinar
在 YouTube 打开Nvidia liquid cooling hot tub data center system Giannis, Antetokounmpo Miami Kylie Meta glasses 
行业论坛 · Kenan Grace · 检索词:OCP data center cooling workshop
在 YouTube 打开Realizing Asymmetric Datarates via Energy Efficient Ethernet (EEE)
学术讲座 · IEEE Standards Association · 检索词:IEEE data center energy efficiency lecture
在 YouTube 打开Webinar: Data Centre Liquid Cooling Technology
学术会议报告 · Park Place Technologies · 检索词:data center liquid cooling conference presentation
在 YouTube 打开2024 ASHRAE Webinar: Adiabatic Solutions for Data Centers
标准组织讲座 · Condair USA/CA · 检索词:ASHRAE data center cooling webinar
在 YouTube 打开AI data centers are an EXISTENTIAL THREAT
学术会议报告 · Congressman Jim McGovern · 检索词:AI data center energy conference keynote
在 YouTube 打开Americans Want a Pause on AI Data Centers
学术会议报告 · Senator Bernie Sanders · 检索词:AI data center energy conference keynote
在 YouTube 打开ASHRAE Ireland Technical Webinar - Efficiency in Data Center's Cooling System - How To?
标准组织讲座 · ASHRAE Ireland · 检索词:ASHRAE data center cooling webinar
在 YouTube 打开来源链接区
本次检索说明
- 当前自动化环境未配置 Tavily、Bing News 或 SerpAPI 检索密钥;脚本将使用公开 RSS/Atom、公共 arXiv 接口与固定监测源,不会编造产业新闻。
- 论文池:已从本地论文池读取 22 条候选;池更新时间 2026-06-26 21:34。
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- x.ai 论文配图:论文 1 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- x.ai 论文配图:论文 2 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- x.ai 论文配图:论文 3 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- x.ai 论文配图:论文 4 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- x.ai 论文配图:论文 5 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- x.ai 论文配图:论文 6 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- x.ai 论文配图:论文 7 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- x.ai 论文配图:论文 8 生成失败,已使用内置主题图;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit. To continue making…
- AI 分析:x.ai 调用失败,已回退到规则化模板;原因:HTTP 403:{"code":"permission-denied","error":"Your team 472c8744-ad4f-4879-a588-fa7645e04979 has either used all available credits or reached its monthly spending limit…