In this work we present a high throughput hardware architecture for the H.264/AVC intra-frame encoder exploiting the parallelism of intra prediction, forward and inverse transforms and quantization. Since there is a strong data dependency between the intra prediction and the image reconstruction loop, the latency of this path is a key design issue in order to provide high performance coding. Considering that 77% of the total intra-encoding computation is spent in these modules, our architecture handles a 4-pixel wide intra prediction module and a 16-pixel wide reconstruction loop. Compared to the state-of-the-art our approach reduces by 47% the number of cycles to process a macroblock. Running at 150 MHz our architecture guarantees encoding of 61 HD1080p frames per second. The developed architecture requires 73.4 MHz to real-time encode HD1080p, which is a 46% reduction of the frequency requirement compared to the state-of-the-art.
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