Low bandwidth decoder framework for H.264/AVC scalable extension
ISCAS(2010)
摘要
In the process of scalable video coding (SVC) decoding, large external memory bandwidth is required for SVC inter-layer prediction. In this paper, a low bandwidth decoder framework is proposed for SVC. Two main decoding schemes are developed to reduce the external memory bandwidth. Macroblock-level on-the-fly padding and on-line upsampling is proposed for SVC spatial scalability decoding. This scheme reduces 36% of decoding bandwidth and 34% of processing cycles. For SVC quality scalability, a layer-interleaving decoding scheme is proposed to eliminate all inter-layer prediction bandwidth which is 41-51% of decoding bandwidth. The corresponding hardware architectures of these two decoding schemes are also provided. This low bandwidth framework can save 33-52% of DRAM access power for SVC decoding.
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关键词
dram access power,svc inter-layer prediction,h.264/avc scalable extension,online upsampling,layer-interleaving decoding,macroblock-level on-the-fly padding,hardware architectures,low bandwidth decoder framework,svc quality scalability,dram chips,interlayer prediction bandwidth,video coding,large external memory bandwidth,decoding bandwidth,scalable video coding decoding,svc spatial scalability decoding,decoding,finite impulse response filter,bandwidth,hardware,external memory,scalability,hardware architecture,scalable video coding
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