具有单片层间通孔的三维神经形态集成电路的电建模与分析

2016 IEEE 25th Conference on Electrical Performance Of Electronic Packaging And Systems (EPEPS) Pub Date : 2016-10-01 DOI:10.1109/EPEPS.2016.7835424

Hongyu An, M. Ehsan, Zhen Zhou, Yang Yi

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引用次数: 11

摘要

神经形态计算是一种新兴的计算技术，它利用超大规模集成(VLSI)技术来模拟存在于神经系统中的神经生物结构。它有望以极低的功耗实现并行计算。为了充分利用这种计算技术，其可扩展性和复杂性需要超越目前的二维(2D) CMOS制造和封装技术。本文提出了一种采用单片层间通孔(MIV)和忆阻器的三维集成电路(3D-IC)技术，以进一步实现系统的小型化和降低功耗。在这项工作中，对3D-IC的构建块进行了建模。此外，还讨论了忆阻器与MIV之间串扰的影响

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Electrical modeling and analysis of 3D Neuromorphic IC with Monolithic Inter-tier Vias

Neuromorphic computing is an emerging computing technology which utilizes very-large-scale integration (VLSI) technology to mimic neuro-biological architectures present in the nervous system. It promises the realization of parallel computing with extremely low power consumption. To fully take advantage of this computing technology, its scalability and complexity need to be extended beyond its current two dimensional (2D) CMOS fabrication and package technology. In this paper, a three dimensional integrated circuit (3D-IC) technology, which employs Monolithic Inter-tier Via (MIV) and memristor, is proposed to further miniaturize the system and reduce the power consumption. In this work, the building block of the 3D-IC is modeled. In addition, the impact of the crosstalk between the memristor and the MIV is discussed

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来源期刊

2016 IEEE 25th Conference on Electrical Performance Of Electronic Packaging And Systems (EPEPS)

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