[Video] GIGABYTE Server Liquid Cooling Solutions
GIGABYTE can now offer various server platforms with liquid cooling technology, such as direct-to-chip liquid cooling (liquid to liquid or liquid to air), one-phase oil immersion or two-phase liquid immersion technologies. Liquid cooling systems can support a greater density of CPUs and GPUs, enabling better compute performance in a given amount of space, as well as helping customers to reduce their power consumption for cooling infrastructure, to achieve a better data center PUE.
As CPUs and GPUs continue to advance, they consume more power and generate more heat. It is vital to keep temperature control in mind when purchasing servers. A good cooling solution keeps things running smoothly without hiking up the energy bill or requiring persistent maintenance. GIGABYTE Technology, an industry leader in high-performance servers, presents this tech guide to help you choose a suitable cooling solution. We analyze three popular options—air, liquid, immersion—and demonstrate what GIGABYTE can do for you.
Arizona’s Lowell Observatory is studying the Sun with GIGABYTE’s G482-Z50 GPU Server in an effort to filter out “stellar noise” when looking for habitable planets outside of our Solar System. The server’s AMD EPYC™ processors, parallel computing capabilities, excellent scalability, and industry-leading stability are all features that qualify it for this astronomical task, making the discovery of a true “Twin Earth” achievable within our lifetime.
When the German Aerospace Center (Deutsches Zentrum für Luft- und Raumfahrt, abbreviated as DLR) wanted to expand their data center, they searched for servers that could operate smoothly in an ambient temperature of 40°C without the need for air conditioning. GIGABYTE’s server team provided a solution from its High Density Server product line that combined computing, storage, and connectivity in a single system. The High Density Servers are equipped with liquid-cooling technology to run without a hitch in high-temperature environments, enabling the data center to efficiently process an enormous amount of space-related research data in the limited space available.