All electronics generate heat, and that heat must be removed to ensure those electronics don’t overheat. Moving air has been the predominant approach for decades, with liquid cooling limited to ...

Beneath a suburb of Hamburg in Germany, an underground particle accelerator propels electrons at close to the speed of light through a slalom course of magnets. Racing through the twists and turns, ...

Electrons in two-dimensional (2D) systems placed under strong magnetic fields often behave in unique ways, prompting the emergence of so-called fractional quantum Hall liquids. These are exotic states ...

Why liquid cooling is needed. The different types of liquid cooling and how they differ from each other. What questions should be asked before deploying this technology in data centers. With the rapid ...

High-density computing workloads like AI training and inference run too hot for traditional air cooling. Companies are increasingly adopting liquid cooling technologies, even in traditional air-cooled ...

While liquid cooling is rightly considered an emerging technology, it’s not new. Early IBM mainframes from the 1960s and Cray supercomputers featured liquid cooling. Notably, a full-time technician ...

The global demand for technologies such as AI, high-performance computing (HPC) and cloud services is accelerating, and the efficiency of the cooling systems used in the data centers behind such ...

The chips that datacenters use to run the latest AI breakthroughs generate much more heat than previous generations of silicon. Anybody whose phone or laptop has overheated knows that electronics ...