A new technique for fabricating liquid cooling channels onto the backs of high-performance integrated circuits could allow denser packaging of chips while providing better temperature ...

Matioli’s team had managed to engineer a 3D network of microfluidic cooling channels within the chip itself, right under the active part of each transistor device, just a few micrometers away from ...

Japanese scientists have made a major breakthrough in cooling electronic components. Their innovative system uses water in a novel way to dissipate heat. The team from the Institute of Industrial ...

Microsoft is adopting direct-to-chip liquid cooling and exploring the potential of microfluidics. In a recent blog detailing the company’s water use and cooling ambitions, Microsoft outlines some of ...

An energy-efficient way to improve the performance of electronics systems would be to integrate microfluidic cooling channels into chips, to prevent overheating. However, state-of-the-art ...

Researchers have created a single chip that combines a transistor and micro-fluidic cooling system. Their research should help save energy and further shrink the size of electronic components.

Researchers have designed a self-cooling microchip that could not only advance computing, but do so more sustainably.

However, manual optimization of such a cooling design is challenging due to the nonlinearity of the problem. In this paper, we explore the usage of topology optimization as a method to tailor ...

Liquid cooling moves onto the chip for denser electronics Date: October 5, 2015 Source: Georgia Institute of Technology Summary: Using microfluidic passages cut directly into the backsides of ...

Direct-to-Chip Cooling: Also known as microfluidic cooling, this approach delivers a coolant directly to heat-generating components such as central processing units (CPUs) and GPUs at the micro-level.

EPFL researchers have created a single chip that combines a transistor and micro-fluidic cooling system. Their research, which has been published in Nature, should help save energy and further ...

Using microfluidic passages cut directly into the backsides of production field-programmable gate array devices, Georgia Institute of Technology researchers are putting liquid cooling right where ...