Blog, Liquid Cooling, Semiconductor, Thermal, Two Phase Cooling
Rising Trend: Miniaturized Semiconductor Components As semiconductor geometries continue to shrink, advances in microelectronics are driving the development of powerful, smart, and sophisticated devices. This ongoing miniaturization trend propels semiconductor...
Blog, Liquid Cooling, Semiconductor, Thermal, Two Phase Cooling
Rise of Power: Increasing Power Demand for High-Performance Chips The semiconductor industry continues to drive Moore’s Law and push the boundaries of semiconductor chip power and performance. Higher performance, more powerful and complex chips generate more heat with...
Blog, Cloud, Liquid Cooling, Thermal
Rising Energy Demand in Data Centers Growing demand for digital services, including cloud computing, artificial intelligence, and other data-intensive technologies is increasing global data center energy consumption. According to International Energy Agency (IEA),...
Blog, Cloud, eMobility, Liquid Cooling
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...
Blog, Cloud, Liquid Cooling, Thermal, Two Phase Cooling
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...
Blog, Cloud, Liquid Cooling, Semiconductor
Semiconductors enable billions of electronic devices that we use daily, but how exactly are they created? How Are Semiconductors Manufactured? Billions of semiconductors enable the electronification of the world around us. What begins as a simple chemical element ends...
