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引用次数: 0
摘要
提出了一种运行在FPGA上的全流水线的JPEG硬件加速器。利用DSP硬件设计自动化工具链,在仿真环境下对加速器进行交互式设计。加速器的编码器部分以流式方式接受8×8图像块,并输出该块的之字形扫描、量化的2D DCT系数。解码器部分接受锯齿扫描、量化的DCT系数,并输出重建的8×8图像块。每个部分的吞吐量为每个通道每个像素一个系统时钟。编码器采用快速流水线实现二维DCT (LK.C)。Agonstini et al., 2001)。对于解码器,开发了一种新的流水线式二维IDCT结构。我们的IDCT结构基于软件实现的IDCT分解,并受到编码器中使用的流水线DCT结构的启发。特定FPGA目标的资源利用率和最大频率数据表明我们的加速器具有竞争力的性能。
A fully pipelined JPEG hardware accelerator that runs on FPGA is presented. The accelerator is designed interactively in a simulation environment, using a DSP hardware design automation tool chain. The encoder part of the accelerator accepts 8×8 image blocks in a streaming fashion, and outputs the zigzag-scanned, quantized 2D DCT coefficients of the block. The decoder part accepts zigzag-scanned, quantized DCT coefficients, and outputs reconstructed 8×8 image block. Each part has a throughput of one system clock per pixel per channel. The encoder employs a fast pipelined implementation for 2D DCT (LK.C. Agonstini et al., 2001). For the decoder, a new pipelined 2D IDCT structure is developed. Our IDCT structure is based on an IDCT factorization for software implementation, and is inspired by the pipelined DCT structure employed in the encoder. The resource utilization and maximum frequency figures for a particular FPGA target suggest that our accelerator has competitive performance.
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