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In the age of AI, computing power has become a vital component for driving innovation. For most industries, using professional-grade workstations as the computing engine enables efficient computing and infinite creativity. A workstation is a multi-purpose computer that supports high-performance computing in a distributed network setting. It excels at graphics processing and task parallelism, making it suitable for a wide range of AI applications as well as common visual design tasks.
For example, the workstation can fully meet the requirements for multi-task processing, such as 3D modeling, large-scale industrial drawing, advertising rendering output, non-linear video editing, file rendering production and acceleration, and so on. The computer can also perform effectively in a wide range of model loadings and professional software, as well as remote system maintenance and monitoring in unsupervised settings, which has the potential to revolutionize the application domain.
The workstation's extraordinary computing capability is built on the processing power of high-performance multi-core CPUs and GPUs, which work in tandem with a highly reliable cooling system to provide year-round and consistent operational efficiency. SUNON's two-phase liquid cooling technology can assist the workstation in maintaining a stable operating temperature due to its continuous and highly reliable cooling design, which also reduces the possibility of water leaks, crashes, and even damage to the liquid cooling system inside.
The premise of two-phase liquid cooling technology is to use the pressure and density difference of the fluid phase transition to generate convection, which creates a fast cooling cycle. The liquid in the cooling system vertically transfers the heat created by CPUs, GPUs, and DCUs down pipes to a radiator, which pairs with extremely effective cooling fans to cool the high-temperature liquid, condensing the evaporated vapor into a liquid state before returning to its original location. That is, the vaporization and condensation of the biphasic non-conductive liquid are sufficient to maintain its flow, resulting in cooling circulation without the need for pumping.
Aside from increasing system reliability, it decreases costs, noise, vibration, failures, and simplifies maintenance. Furthermore, while choosing the coolant liquid, SUNON prioritizes high material compatibility to avoid equipment failure, as well as being non-conductive, non-flammable, not harmful to the ozone layer, and having a low global warming potential (GWP). For example, for a GPU (TDP 450 W) in a workstation application that requires rapid heat dissipation, a two-phase liquid cooling solution consisting of a 240 mm radiator, two 120x25mm fans, and an eco-friendly coolant with GWP = 2 can keep the workstation running efficiently and steadily for an extended period of time without underclocking.
SUNON's two-phase liquid cooling technology enables industries to meet the standards for massive data processing, graphics, and image processing in professional fields such as content creation, engineering design, animation production, scientific research, software development, financial management, information services, simulation, and other workstation applications, resulting in powerful and stable computing performance and enhanced productivity. Equally importantly, SUNON is committed to continuously reducing carbon emissions from the design, production, shipment, and use of its products, as well as selecting materials with the lowest environmental impact, in order to provide optimal heat dissipation solutions for the global application industry while also promoting environmental sustainability.
View at TechPowerUp Main Site | Source
For example, the workstation can fully meet the requirements for multi-task processing, such as 3D modeling, large-scale industrial drawing, advertising rendering output, non-linear video editing, file rendering production and acceleration, and so on. The computer can also perform effectively in a wide range of model loadings and professional software, as well as remote system maintenance and monitoring in unsupervised settings, which has the potential to revolutionize the application domain.
The workstation's extraordinary computing capability is built on the processing power of high-performance multi-core CPUs and GPUs, which work in tandem with a highly reliable cooling system to provide year-round and consistent operational efficiency. SUNON's two-phase liquid cooling technology can assist the workstation in maintaining a stable operating temperature due to its continuous and highly reliable cooling design, which also reduces the possibility of water leaks, crashes, and even damage to the liquid cooling system inside.
The premise of two-phase liquid cooling technology is to use the pressure and density difference of the fluid phase transition to generate convection, which creates a fast cooling cycle. The liquid in the cooling system vertically transfers the heat created by CPUs, GPUs, and DCUs down pipes to a radiator, which pairs with extremely effective cooling fans to cool the high-temperature liquid, condensing the evaporated vapor into a liquid state before returning to its original location. That is, the vaporization and condensation of the biphasic non-conductive liquid are sufficient to maintain its flow, resulting in cooling circulation without the need for pumping.
Aside from increasing system reliability, it decreases costs, noise, vibration, failures, and simplifies maintenance. Furthermore, while choosing the coolant liquid, SUNON prioritizes high material compatibility to avoid equipment failure, as well as being non-conductive, non-flammable, not harmful to the ozone layer, and having a low global warming potential (GWP). For example, for a GPU (TDP 450 W) in a workstation application that requires rapid heat dissipation, a two-phase liquid cooling solution consisting of a 240 mm radiator, two 120x25mm fans, and an eco-friendly coolant with GWP = 2 can keep the workstation running efficiently and steadily for an extended period of time without underclocking.
SUNON's two-phase liquid cooling technology enables industries to meet the standards for massive data processing, graphics, and image processing in professional fields such as content creation, engineering design, animation production, scientific research, software development, financial management, information services, simulation, and other workstation applications, resulting in powerful and stable computing performance and enhanced productivity. Equally importantly, SUNON is committed to continuously reducing carbon emissions from the design, production, shipment, and use of its products, as well as selecting materials with the lowest environmental impact, in order to provide optimal heat dissipation solutions for the global application industry while also promoting environmental sustainability.
View at TechPowerUp Main Site | Source