Experimental Investigations on Thermal Superposition Effect by Embedded Manifold Cooling
2023 IEEE 25th Electronics Packaging Technology Conference (EPTC)(2023)
摘要
With the development of high-performance multi-core microprocessors, the increase in hotspots density poses a severe challenge to chip thermal management. Embedded cooling can improve the cooling performance at the chip level. However, the cooling efficiency will be deteriorated by the interaction of hotspots. In this paper, four types of manifold structure based on embedded cooling are designed and fabricated, and the coupling effect between the hotspots in chip are analysed from experimental analysis and test verification, and the optimal structure is obtained. The results show that the three-dimensional manifold scheme can effectively inhibit the hotspots interaction and improve the cooling performance.
更多查看译文
关键词
Coupling Effect,3-space,Heat Transfer,Temperature Difference,Hot Spots,Flow Direction,Heat Flux,Thermal Effects,Heat Exchanger,Thermal Resistance,High-performance Computing,Thermal Characteristics,Flow Path,Thermal Model,Uniform Temperature,Thermal Test,Thermal Boundary Layer,Heating Zone,Local Hotspots,Temperature Rise Rate,Cold Plate,Thermocouple,Thermal Interface,Phase Transition,Phase Change
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要