JPEG2000二进制算术解码器的高吞吐量FPGA设计

2010 International Conference on Digital Image Computing: Techniques and Applications Pub Date : 2010-12-01 DOI:10.1109/DICTA.2010.74

D. Lucking, E. Balster

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引用次数: 3

摘要

随着数字成像技术的不断发展，需要新的图像压缩标准来保持传输时间和存储空间低，以增加图像尺寸。联合摄影专家组(JPEG)在2000年12月批准了JPEG2000标准，满足了这一需求。JPEG2000为图像压缩技术增加了许多特性，但也增加了传统编码器的计算复杂度。为了减轻增加的计算复杂性，JPEG2000算法允许并行处理部件，增加了在特定应用集成电路(asic)或现场可编程门阵列(fpga)中实现算法的好处。本文介绍了JPEG2000二进制算术解码器的FPGA实现方法，该解码器是JPEG2000译码算法的核心部件。提出的JPEG2000二进制算法解码器减少了FPGA上使用的资源量，允许在芯片上安装17%的熵块解码器，从而比以前的设计提高了35%的吞吐量。

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An Increased Throughput FPGA Design of the JPEG2000 Binary Arithmetic Decoder

As digital imaging techniques continue to advance, new image compression standards are needed to keep the transmission time and storage space low for increasing image sizes. The Joint Photographic Expert Group (JPEG) fulfilled this need with the ratification of the JPEG2000 standard in December of 2000. JPEG2000 adds many features to image compression technology but also increases the computational complexity of traditional encoders. To mitigate the added computational complexity, the JPEG2000 algorithm allows processing parts in parallel, increasing the benefits of implementing the algorithm in application specific integrated circuits (ASICs) or field programmable gate arrays (FPGAs). A ¿exible FPGA implementation of the JPEG2000 binary arithmetic decoder, the core component of the JPEG2000 decoding algorithm, is presented in this paper. The proposed JPEG2000 binary arithmetic decoder reduces the amount of resources used on the FPGA allowing 17% more entropy block decoders to fit on chip and consequently increasing the throughput by 35% beyond previous designs.

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2010 International Conference on Digital Image Computing: Techniques and Applications

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