Generative AI and EV Batteries: Why Liquid Cooling? Advancing technologies like high performance artificial intelligence (AI) and electric vehicle (EV) batteries use more power. More power generates more waste heat, so much that generative AI and EV battery innovators...
A $5 Million grant from the U.S. Department of Energy (DOE) supports NVIDIA and seven partners, including Boyd, to build an advanced liquid cooling system that enables a future class of efficient power-dense data centers. The DOE program, called COOLERCHIPS, focuses...
Embedded systems are becoming more complex, processing and analyzing a growing number of sensors and signals. The result of this increased computing is often higher and more concentrated electronic heat loads. How to Design a Liquid Cooling System for High-Performance...
The performance of high-powered lasers depends on effective cooling. High-powered lasers generate a significant amount of heat that must be removed from the laser system to avoid overheating critical components. Optimizing a Laser by improving Liquid Cooling System...
This simple step-by-step guide explains the different types of cooling systems available and highlights how to select the right product for your application. Considerations to Picking a System for Your Application The first consideration is whether you need precise...
