一个800 μ w H.264基线轮廓运动估计处理器核心

2006 IEEE Asian Solid-State Circuits Conference Pub Date : 2006-11-01 DOI:10.1109/ASSCC.2006.357861

T. Iinuma, J. Miyakoshi, Y. Murachi, T. Matsuno, M. Hamamoto, T. Ishihara, H. Kawaguchi, M. Yoshimoto, M. Miyama

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引用次数: 2

摘要

本文介绍了一种用于便携式视频应用的800 μ w H.264基线轮廓运动估计处理器。它具有面向vlsi的块分区策略，可重构的SIMD/收缩阵列数据路径架构和具有无分段和水平/垂直可访问性的节能新型SRAM电路。所建议的体系结构可以根据处理流将数据路径重新配置为SIMD或收缩数组。无分割访问意味着对任意连续像素的并发访问。该处理器支持所有七种块模式，可以处理VGA (640 × 480) 30帧/秒到QCIF (176 × 144) 15帧/秒序列的三个参考帧，精度为四分之一像素。它集成了330万个晶体管，占地2.8 × 3.1 mm2，采用130纳米CMOS技术。该处理器在一张参考图像的情况下，QCIF 15 fps的功耗达到800 μW。

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An 800-μW H.264 Baseline-Profile Motion Estimation Processor Core

This paper describes an 800-μW H.264 baseline- profile motion estimation processor for portable video applications. It features a VLSI-oriented block partitioning strategy, a reconfigurable SIMD/systolic-array datapath architecture and a power-efficient novel SRAM circuit with a segmentation-free and horizontal/vertical accessibility. The proposed architecture can reconfigure datapath to either an SIMD or systolic array depending on processing flow. The segmentation-free access means concurrent accessibility to arbitrary consecutive pixels. The processor supports all the seven kinds of block modes, and can handle three reference frames for a VGA (640 × 480) 30-fps to QCIF (176 × 144) 15-fps sequences with a quarter-pixel accuracy. It integrates 3.3 million transistors, and occupies 2.8 × 3.1 mm2 in a 130-nm CMOS technology. The proposed processor achieves a power of 800 μW for QCIF 15-fps with one reference picture.

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2006 IEEE Asian Solid-State Circuits Conference

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