7.68 GIPS 3.84 GB/s 1W并行图像处理RAM，集成16mb DRAM和128个处理器

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC Pub Date : 1996-02-08 DOI:10.1109/ISSCC.1996.488722

Y. Aimoto, T. Kimura, Y. Yabe, H. Heiuchi, Y. Nakazawa, M. Motomura, T. Koga, Y. Fujita, M. Hamada, T. Tanigawa, H. Nobusawa, K. Koyama

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引用次数: 31

摘要

并行图像处理RAM (PIP-RAM)采用64 Mb DRAM工艺技术，在单个芯片上集成了16 Mb DRAM和128个处理器元件(pe)。将DRAM和处理器集成到一个芯片上时，一般有三个设计要求:高数据速率随机访问、低功耗、高效同步DRAM和处理器。PIP-RAM采用三种电路技术来满足这些要求:(1)分页分段访问(PSA)，(2)定时低压摆差电荷传输(CLD)，以及(3)使用多级锁相环的多相同步DRAM控制(MSD)。这些技术所实现的大存储容量和高数据速率随机存取使PIP-RAM适合于大规模、全彩图像的图像处理。

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A 7.68 GIPS 3.84 GB/s 1W parallel image processing RAM integrating a 16 Mb DRAM and 128 processors

A parallel image processing RAM (PIP-RAM) integrates a 16 Mb DRAM and 128 processor elements (PEs) on a single chip in 64 Mb DRAM process technology. There are three general design requirements when integrating DRAMs and processors onto a single chip: high-data-rate random access, low-power dissipation, and efficiently synchronized DRAM and processor. The PIP-RAM employs three circuit techniques in response to these requirements: (1) a paged-segmentation accessing (PSA), (2) a clocked low-voltage-swing differential-charge-transfer (CLD), and (3) a multiphase synchronization DRAM control (MSD) that uses a multiple-stage PLL. Large memory capacity and high-data-rate random access achieved by these techniques make the PIP-RAM suitable for image processing of large-scale, full-color pictures.

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来源期刊

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC

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