2018 17th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm) 2018
DOI: 10.1109/itherm.2018.8419531
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Design of a Two-Phase Gravity-Driven Micro-Scale Thermosyphon Cooling System for High-Performance Computing Data Centers

Abstract: Next-generation High-Performance Computing (HPC) systems need to provide outstanding performance with unprecedented energy efficiency while maintaining servers at safe thermal conditions. Air cooling presents important limitations when employed in HPC infrastructures. Instead, two-phase onchip cooling combines small footprint area and large heat exchange surface of micro-channels together with extremely high heat transfer performance, and allows for waste heat recovery. When relying on gravity to drive the flo… Show more

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Cited by 9 publications
(20 citation statements)
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References 30 publications
(31 reference statements)
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“…Previous thermosyphon prototypes such as [15], however, had a very large footprint area (1m ⇥ 1m) making them impractical in commercial servers. Nonetheless, recent work by [16] and [8] led to the design of micro-scale thermosyphons which can be placed directly on top of a CPU. Such a design, hence, necessitates careful evaluation of thermosyphon as a promising cooling device for different types of servers, which has not been performed so far in the literature.…”
Section: A Data Center Cooling Methodsmentioning
confidence: 99%
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“…Previous thermosyphon prototypes such as [15], however, had a very large footprint area (1m ⇥ 1m) making them impractical in commercial servers. Nonetheless, recent work by [16] and [8] led to the design of micro-scale thermosyphons which can be placed directly on top of a CPU. Such a design, hence, necessitates careful evaluation of thermosyphon as a promising cooling device for different types of servers, which has not been performed so far in the literature.…”
Section: A Data Center Cooling Methodsmentioning
confidence: 99%
“…Authors in [8] evaluate the thermosyphon efficiency considering a uniform heat flux over the whole chip. However, this is not a realistic assumption for current applications and CPUs, as different workload mappings lead to non-uniform heat flux, which ultimately cause hot spots and spatial thermal gradients [20].…”
Section: B Motivational Examplementioning
confidence: 99%
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