Autonomous Compute and Artificial Intelligence, Blog, Cloud Data Center, Liquid Cooling, Thermal, Two Phase Cooling
The Future of AI: Powered by Efficient Cooling Artificial intelligence large language models are now surpassing 1 trillion parameters, making next-generation technology essential. This new era of AI-driven computing prioritizes power efficiency, acceleration,...
Blog, Liquid Cooling, Manufacturing Capabilities, Thermal
Robust Sheet Metal Fabrication to Optimize Performance At Boyd, we leverage our expertise in sheet metal manufacturing to enhance the performance of integrated cooling chassis, heat sinks, liquid systems, machined components, and thermal accessories. Sheet Metal...
Blog, Cloud Data Center, Liquid Cooling, Thermal
What Is Hyperscale Computing? Hyperscale computing scales architecture to meet increasing demand, powering the world’s largest data centers. These facilities manage massive amounts of data by processing and storing diverse data streams across countless servers....
Blog, eMobility, EV Battery, Thermal
Cooling the EV Revolution Inverters are vital components of EVs and rely heavily on thermal management systems to optimize performance. Optimal inverter cooling ensures electric vehicle longevity, safety, and efficiency. Boyd leads in developing innovative thermal...
Aerospace, Blog, Liquid Cooling, Manufacturing Capabilities, Thermal
What is Friction Stir Welding? Friction stir welding (FSW) is a solid-state process that uses a non-consumable tool to join two facing workpieces without melting the material. Industries utilize this process to join aluminum, magnesium, and other metal alloys in...
Autonomous Compute and Artificial Intelligence, Blog, Cloud Data Center, Liquid Cooling, Thermal, Two Phase Cooling
ARPA-E COOLERCHIPS: Greening Data Centers The ARPA-E COOLERCHIPS program tackles the challenge of developing advanced cooling technologies to reduce the environmental impact and cost of data centers. The consortium includes industry and academic experts: Boyd, NVIDIA,...
