Title :
A 7.68 GIPS 3.84 GB/s 1W parallel image processing RAM integrating a 16 Mb DRAM and 128 processors
Author :
Aimoto, Y. ; Kimura, T. ; Yabe, Y. ; Heiuchi, H. ; Nakazawa, Y. ; Motomura, M. ; Koga, T. ; Fujita, Y. ; Hamada, M. ; Tanigawa, T. ; Nobusawa, H. ; Koyama, K.
Author_Institution :
NEC Corp., Kanagawa, Japan
Abstract :
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.
Keywords :
DRAM chips; digital signal processing chips; image processing; image processing equipment; parallel architectures; 1 W; 16 Mbit; 3.84 GB/s; 7.68 GIPS; PIP-RAM; circuit techniques; clocked low-voltage-swing differential-charge-transfer; color pictures; multiphase synchronization DRAM control; multiple-stage PLL; paged-segmentation accessing; parallel image processing random access memory; power dissipation; processor elements; single chip; Bandwidth; Clocks; Filters; Phase locked loops; Power dissipation; Random access memory; Read-write memory; Solid state circuits; Timing;
Conference_Titel :
Solid-State Circuits Conference, 1996. Digest of Technical Papers. 42nd ISSCC., 1996 IEEE International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-3136-2
DOI :
10.1109/ISSCC.1996.488722
