Optimizing JPEG2000 Still Image Encoding on the Cell Broadband Engine

2008 37th International Conference on Parallel Processing Pub Date : 2008-09-09 DOI:10.1109/ICPP.2008.39

Seunghwa Kang, David A. Bader

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引用次数: 6

Abstract

JPEG2000 is the latest still image coding standard from the JPEG committee, which adopts new algorithms such as embedded block coding with optimized truncation (EBCOT) and discrete wavelet transform (DWT). These algorithms enable superior coding performance over JPEG and support various new features at the cost of the increased computational complexity. The Sony-Toshiba-IBM cell broadband engine (or the Cell/B.E.) is a heterogeneous multicore architecture with SIMD accelerators. In this work, we optimize the computationally intensive algorithmic kernels of JPEG2000 for the Cell/B.E. and also introduce a novel data decomposition scheme to achieve high performance with low programming complexity. We compare the Cell/B.E.'s performance to the performance of the Intel Pentium IV 3.2 GHz processor. The Cell/B.E. demonstrates 3.2 times higher performance for lossless encoding and 2.7 times higher performance for lossy encoding. For the DWT, the Cell/B.E. outperforms the Pentium IV processor by 9.1 times for the lossless case and 15 times for the lossy case. We also provide the experimental results on one IBM QS20 blade with two Cell/B.E. chips and the performance comparison with the existing JPEG2000 encoder for the Cell/B.E.

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在Cell宽带引擎上优化JPEG2000静态图像编码

JPEG2000是JPEG委员会提出的最新的静止图像编码标准，它采用了嵌入式优化截断块编码(EBCOT)和离散小波变换(DWT)等新算法。这些算法实现了优于JPEG的编码性能，并以增加计算复杂性为代价支持各种新特性。索尼-东芝- ibm单元宽带引擎(或cell /B.E.)是一种异构多核架构，带有SIMD加速器。在这项工作中，我们为Cell/B.E.优化了JPEG2000的计算密集型算法内核并提出了一种新的数据分解方案，以实现高性能和低编程复杂度。我们比较Cell/B.E.英特尔奔腾IV 3.2 GHz处理器的性能。的Cell / B.E.演示了3.2倍的无损编码性能和2.7倍的有损编码性能。对于DWT, Cell/B.E.在无损情况下，性能是奔腾IV处理器的9.1倍，在有损情况下是15倍。我们还提供了在一台带有两个Cell/B.E.的IBM QS20刀片上的实验结果并与现有的JPEG2000编码器进行了性能比较

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2008 37th International Conference on Parallel Processing

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