Using hot water to cool supercomputers? Nvidia and others are doing it. It’s liquid cooling minus the water chillers.

Water cooling for PCs explained: performance gains, costs, noise levels, and whether liquid cooling beats air for gaming, overclocking, and daily use.

The compute power required by AI and HPC is skyrocketing and driving a global transition from 10-15 megawatt data centers to 50-100 megawatt and even gigawatt AI factories. With the next generation AI ...

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 ...

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 rapid acceleration of artificial intelligence workloads is not only prompting widespread upgrades across data centers—it's also ushering in a new era of challenges in power delivery and thermal ...

We may receive a commission on purchases made from links. Keeping your computer cool is essential for optimal performance. When a PC starts to overheat, the processor frequency will drop (thermal ...

Optimized for 45°C Warm-Water Cooling in Next-Gen NVIDIA Vera Rubin, the new 8MW Coolant Distribution Unit is ready for ...

Choosing between air cooling vs liquid cooling for gaming PCs is no longer a simple budget decision. Modern CPUs push well past 250W under load, while GPUs dump massive heat into compact cases.