Memory bandwidth reduction in video coding systems through context adaptive lossless reference frame compression

“…The paper [6] presents a solution for external memory bandwidth reduction based in the compression of the reference frames, which was entitled Reference Frame Context Adaptive Variable-Length Coder (RFCAVLC). Fig.…”

“…When the ME component requests data from the Reference Memory, this information needs to be decoded by the RFCAVLC Decoder component before it is used. The algorithm proposed in work [6] is a hardware-friendly adaptation of the Huffman coding algorithm [9]. Huffman algorithm is a famous data compression technique based on statistical methods which is widely used on image and text compressors [10].…”

“…The RFCAVLC Coder presented in [6] uses four static Huffman tables, to avoid the cost of the on-the-fly statistical analysis. This method compresses blocks of 4x4 samples.…”

“…The great advantage of reference frame compression is that this solution reduces the number of reading and writing accesses in the external memory, without to introduce additional costs with cache memories. The previous work [6] implements the architecture of the RFCAVLC (Reference Frame Context Adaptive Variable-Length Coder), this solution is based on reference frames compression.…”

“…The architectural design achieves real time processing for high resolution videos. The designed architecture is fully compatible with the architecture presents in the work [6], the encoder. The decoding process of the RFCAVLD is performed without any information loss, avoiding drift, since the RFCAVLC uses a lossless process of encoding [6].…”

A real time high definition architecture for the Variable-Length Reference Frame Decoder

“…The paper [6] presents a solution for external memory bandwidth reduction based in the compression of the reference frames, which was entitled Reference Frame Context Adaptive Variable-Length Coder (RFCAVLC). Fig.…”

“…When the ME component requests data from the Reference Memory, this information needs to be decoded by the RFCAVLC Decoder component before it is used. The algorithm proposed in work [6] is a hardware-friendly adaptation of the Huffman coding algorithm [9]. Huffman algorithm is a famous data compression technique based on statistical methods which is widely used on image and text compressors [10].…”

“…The RFCAVLC Coder presented in [6] uses four static Huffman tables, to avoid the cost of the on-the-fly statistical analysis. This method compresses blocks of 4x4 samples.…”

“…The great advantage of reference frame compression is that this solution reduces the number of reading and writing accesses in the external memory, without to introduce additional costs with cache memories. The previous work [6] implements the architecture of the RFCAVLC (Reference Frame Context Adaptive Variable-Length Coder), this solution is based on reference frames compression.…”

“…The architectural design achieves real time processing for high resolution videos. The designed architecture is fully compatible with the architecture presents in the work [6], the encoder. The decoding process of the RFCAVLD is performed without any information loss, avoiding drift, since the RFCAVLC uses a lossless process of encoding [6].…”

A real time high definition architecture for the Variable-Length Reference Frame Decoder

Reference frame context-adaptive variable-length coder: a real-time hardware-friendly approach for lossless external memory bandwidth reduction in current video-coding systems

An energy-efficient hardware design for lossless reference frame compression in video coders