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引用次数: 8
摘要
本文提出了一种新的MPEG-4 AVC/H.264体系结构及其VLSI设计CAVLC解码。为了提高CAVLC解码器的吞吐量,我们提出了MLD (Multi-Level Decoding)和NZS (Non - Zero Skip for run_before Decoding)两种新方法。通过对电平解码器进行并行操作,MLD在大多数情况下可以在一个周期内解码两个电平,NZS可以在同一周期内产生多个run_before。这两种方法具有复杂度低、设计规则化的优点。根据评估,我们的设计对于一个宏块解码平均只需要137个周期。此外,所提出的CAVLC解码器工作频率可达33.5 MHz,满足1920 × 1088分辨率下H.264视频解码的实时性要求。与以前的设计相比,在满足相同要求的情况下,工作频率可以降低29.1% ~ 71.5%左右,但栅极数增加的幅度不大。在较低的工作频率的帮助下,它将适用于低功耗应用。
A novel design of CAVLC decoder with low power consideration
This paper proposes a novel architecture and its VLSI design for MPEG-4 AVC/H.264 CAVLC decoding. In order to improve throughput of CAVLC decoder, we propose two new methods, which are called MLD (Multi-Level Decoding) and NZS (Non Zero Skip for run_before decoding). By performing parallel operation on level decoder, MLD can decode two levels in one cycle at most situations, and NZS can produce several run_befores in the same cycle. These two methods have the advantages of low complexity and regularity design. According to the evaluation, our design only needs 137 cycles in average for one macroblock decoding. Moreover, the proposed CAVLC decoder can run at 33.5 MHz to meet the real time requirement for H.264 video decoding on 1920 times1088 resolution. Compared with the previous designs, it can reduce around 29.1% to 71.5% on operation frequency for the same requirement, but not increase the gate count so much. With an aid on a lower operation frequency, it will be suitable for a low power application.
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