一种具有高速串行通信链路的三维FPGA结构

T. Kajiwara, Qian Zhao, M. Amagasaki, M. Iida, Morituro Kuga, T. Sueyoshi
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引用次数: 3

摘要

随着小型化进程接近物理极限,三维集成电路技术有望为大规模集成性能提供持续改进。然而,由于用于创建层间垂直连接的硅通孔(tsv)的面积比晶体管大得多,因此在连接性和小尺寸之间存在固有的权衡。现场可编程门阵列(fpga)特别需要高水平的路由资源,这意味着在垂直方向上与水平方向上建立相同数量的连接是不现实的。在之前的研究中,我们提出了一种创建两层紧凑型3D FPGA的方法,该FPGA具有面向下集成(基础FPGA)。本文讨论了多基fpga的正面堆叠方法,并提出了一种利用TSV串行连接实现层间高速通信的方法。该架构通过使用更小的tsv来提高FPGA性能。评估结果表明,所提出的三维FPGA可实现的总面积低至等效二维FPGA的67%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel three-dimensional FPGA architecture with high-speed serial communication links
Three-dimensional (3D) integrated circuit technology is expected to offer continual improvement to very-large-scale integration performance as the process of miniaturization approaches physical limits. However, because the through-silicon vias (TSVs) that are used to create interlayer vertical connections are much larger area than transistors, there is an inherent tradeoff between connectivity and small size. Field-programmable gate arrays (FPGAs) are particularly noted for requiring a high level of routing resources, which means that it is unrealistic to make the same number of connections vertically as horizontally. In previous research, we proposed a method for creating a two-layer compact 3D FPGA with face-down integration (the base FPGA). In this paper, we discuss stacking multiple base FPGAs by the face-up method and propose a method for achieving highspeed interlayer communications with TSV serial connections. The proposed architecture improves FPGA performance by using smaller TSVs. The evaluation results show that the proposed 3D FPGA can achieve a total area that is as low as 67% the equivalent two-dimensional FPGA.
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