A 5500-frames/s 85-GOPS/W 3-D Stacked BSI Vision Chip Based on Parallel In-Focal-Plane Acquisition and Processing

Millet Laurent; Chevobbe Stephane; Andriamisaina Caaliph; Benaissa Lamine; Deschaseaux Edouard; Beigne Edith; Ben Chehida Karim; Lepecq Maria; Darouich Mehdi; Guellec Fabrice; Dombek Thomas; Duranton Marc

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A 5500-frames/s 85-GOPS/W 3-D Stacked BSI Vision Chip Based on Parallel In-Focal-Plane Acquisition and Processing

机译：基于并行焦平面采集和处理的5500帧/秒/级85-GOPS / W 3-D堆叠BSI视觉芯片

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This paper presents a 3-D stacked vision chip featuring in-focal-plane read-out tightly coupled with flexible computing architecture for configurable high-speed image analysis. The chip architecture is based on a scalable standalone structure integrating image sensor on the top tier and processing elements (PEs) plus memories in the bottom tier. By using 3-D stacking partitioning, our prototype benefits from backside illuminated pixels sensitivity, a fully parallel communication between image sensor and PEs for low-latency performances, while leaving enough room in the bottom tier to embed advanced computing features. One scalable structure embeds a 16x16 pixel array (or 64 x 64 pixels in high-resolution mode), associated with an 8-bit single instruction multiple data (SIMD) processor; fabricated in dual 130-nm 1P6M CMOS process. This paper exhibits a 5500 frames/s and 85 giga operations per second (GOPS)/W in low-resolution mode, with large kernels capabilities through eight directions interpixel communication. Multiflow capability is also demonstrated to execute different programs in different areas of the vision chip.

机译：本文介绍了一个3-D堆叠视觉芯片，具有紧密耦合的焦平面读出，具有灵活的计算架构，可实现可配置的高速图像分析。芯片架构基于可伸缩的独立结构集成在顶层和处理元件（PE）上的图像传感器（PES）加上底层的存储器。通过使用3-D堆叠分区，我们的原型受益于背面照明像素灵敏度，图像传感器和PES之间的完全平行通信，用于低延迟性能，同时在底层中留下足够的空间以嵌入高级计算功能。一个可伸缩结构嵌入16x16像素阵列（或高分辨率模式下的64×64像素），与8位单指令多数据（SIMD）处理器相关联;在双130-NM 1P6M CMOS工艺中制造。本文在低分辨率模式下展示了每秒5500帧和85个GIGA操作（GOP）/ W，通过八个方向通信，具有大的内核能力。还证明了多途化能力以在视觉芯片的不同区域执行不同的程序。

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来源
《IEEE Journal of Solid-State Circuits》 |2019年第4期|1096-1105|共10页
作者
Millet Laurent; Chevobbe Stephane; Andriamisaina Caaliph; Benaissa Lamine; Deschaseaux Edouard; Beigne Edith; Ben Chehida Karim; Lepecq Maria; Darouich Mehdi; Guellec Fabrice; Dombek Thomas; Duranton Marc;
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作者单位

CEA LETI LETI Dept MINATEC Campus F-38054 Grenoble France;

Ctr CEA Saclay CEA LIST CEA LIST Dept F-91191 Gif Sur Yvette France;

Ctr CEA Saclay CEA LIST CEA LIST Dept F-91191 Gif Sur Yvette France;

CEA LETI DCOS Dept MINATEC Campus F-38054 Grenoble France;

CEA LETI DCOS Dept MINATEC Campus F-38054 Grenoble France;

CEA LETI LETI Dept MINATEC Campus F-38054 Grenoble France;

Ctr CEA Saclay CEA LIST CEA LIST Dept F-91191 Gif Sur Yvette France;

Ctr CEA Saclay CEA LIST CEA LIST Dept F-91191 Gif Sur Yvette France;

Ctr CEA Saclay CEA LIST CEA LIST Dept F-91191 Gif Sur Yvette France;

CEA LETI LETI Dept MINATEC Campus F-38054 Grenoble France;

Ctr CEA Saclay CEA LIST CEA LIST Dept F-91191 Gif Sur Yvette France;

Ctr CEA Saclay CEA LIST CEA LIST Dept F-91191 Gif Sur Yvette France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
3-D stacking; imager; parallel computing; vision chip;

机译：3-D堆叠;成像器;并行计算;视觉芯片;

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专利

1. A 5500-frames/s 85-GOPS/W 3-D Stacked BSI Vision Chip Based on Parallel In-Focal-Plane Acquisition and Processing [J] . Millet Laurent, Chevobbe Stephane, Andriamisaina Caaliph, IEEE Journal of Solid-State Circuits . 2019,第4期

机译：基于并行焦平面采集和处理的5500帧/秒85-GOPS / W 3-D堆叠BSI视觉芯片
2. A 3-D stacked chip packaging solution for miniaturized massively parallel processing [J] . Lea R.M., Jalowiecki I.P. IEEE Transactions on Advanced Packaging . 1999,第3期

机译：用于小型大规模并行处理的3D堆叠芯片封装解决方案
3. Vision Processing for Realtime 3-D Data Acquisition Based on Coded Structured Light [J] . Chen S.Y., Li Y.F., Jianwei Zhang IEEE Transactions on Image Processing . 2008,第2期

机译：基于编码结构光的实时3-D数据采集的视觉处理
4. A 5500FPS 85GOPS/W 3D Stacked BSI Vision Chip Based on Parallel in-Focal-Plane Acquisition and Processing [C] . L. Millet, S. Chevobbe, C. Andriamisaina, IEEE Symposium on VLSI Circuits . 2018

机译：基于并行焦平面采集和处理的5500FPS 85GOPS / W 3D堆叠BSI视觉芯片
5. Power distribution in TSV based 3-D processor-memory stacks. [D] . Satheesh, Suhas M. 2012

机译：基于TSV的3D处理器内存堆栈中的功率分配。
6. Design and Performance of a 1 ms High-Speed Vision Chip with 3D-Stacked 140 GOPS Column-Parallel PEs [O] . Atsushi Nose, Tomohiro Yamazaki, Hironobu Katayama, 2018

机译：具有3D堆叠140 GOPS列并行PE的1 ms高速视觉芯片的设计和性能
7. Vision Processing for Realtime 3-D Data Acquisition Based on Coded Structured Light [O] . S. Y. Chen, Y. F. Li, Senior Member, 2010

机译：基于编码结构光的实时三维数据采集视觉处理
8. Connected Vehicle Insights. Trends in Computer Vision: An Overview of Vision-based Data Acquisition and Processing Technology and Its Potential for the Transportation Sector. Technology Scan Series 2011-2012. [R] . Guan, A., Bayless, S. H., Neelakantan, R. 2013

机译：联网汽车见解。计算机视觉趋势：基于视觉的数据采集和处理技术概述及其对运输部门的潜力。技术扫描系列2011-2012。

A 5500-frames/s 85-GOPS/W 3-D Stacked BSI Vision Chip Based on Parallel In-Focal-Plane Acquisition and Processing

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