Distributed Batteries Within A Heterogeneous 3D IC To Optimize Performance


A technical paper titled “On-Chip Batteries as Distributed Energy Sources in Heterogeneous 2.5D/3D Integrated Circuits” was published by researchers at University of Florida and Brookhaven National Laboratory.


“Energy efficiency in digital systems faces challenges due to the constraints imposed by small-scale transistors. Moreover, the growing demand for portable consumer electronics necessitates the use of compact energy sources. To address these challenges, heterogeneous 3D IC technology has emerged as a promising solution for the former. Regarding the latter, we propose the concept of distributed batteries within a heterogeneous 3D IC. This approach involves utilizing multiple smaller batteries with different specifications among different modules of 3D ICs. This approach optimizes performance and overcomes limitations associated with both 3D ICs and conventional power delivery methods. Distributed batteries play a vital role in effectively managing the heat generated by energy sources and modules within a 3D IC. Furthermore, they contribute to achieving a uniform distribution of heat throughout the entire structure, which ultimately ensures the optimal performance of the batteries and modules. The simulation results indicate a 40 percent enhancement in achieving a more even distribution of generated heat. Additionally, the proposed distributed battery techniques improve power delivery, enhance reliability, and enable optimized voltage regulation while improving efficiency. In addition to the primary benefits, alternative configurations of the proposed approach can offer extra energy storage capacity and act as efficient electromagnetic shields, resulting in an impressive reduction of external electromagnetic noises by 60 dB.”

Find the technical paper here. Published August 2023.

P. Dehghanzadeh, J. Huan, R. R. Kalavakonda, S. Mandal and S. Bhunia, “On-Chip Batteries as Distributed Energy Sources in Heterogeneous 2.5D/3D Integrated Circuits,” in IEEE Access, doi: 10.1109/ACCESS.2023.3305593.

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