TY  - JOUR
ID  - SisLab3951
UR  - http://dx.doi.org/10.3390/electronics9040684
IS  - 4
A1  - Tran, Dinh Lam
A1  - Tran, Xuan Tu
A1  - Bui, Duy Hieu
A1  - Pham, Cong Kha
Y1  - 2020///
N2  - HEVC-standardized encoders employ the CABAC (context-based adaptive binary arithmetic coding) to achieve high compression ratios and video quality that supports modern real-time high-quality video services. Binarizer is one of three main blocks in a CABAC architecture, where binary symbols (bins) are generated to feed the binary arithmetic encoder (BAE). The residual video data occupied an average of 75% of the CABAC?s work-load, thus its performance will significantly contribute to the overall performance of whole CABAC design. This paper proposes an efficient hardware implementation of a binarizer for CABAC that focuses on low area cost, low power consumption while still providing enough bins for high-throughput CABAC. On the average, the proposed design can process upto 3.5 residual syntax elements (SEs) per clock cycle at the maximum frequency of 500 MHz with an area cost of 9.45 Kgates (6.41 Kgates for the binarizer core) and power consumption of 0.239 mW (0.184 mW for the binarizer core) with NanGate 45 nm technology. It shows that our proposal achieved a high overhead-efficiency of 1.293 Mbins/Kgate/mW, much better than the other related high performance designs. In addition, our design also achieved a high power-efficiency of 8288 Mbins/mW; this is important factor for handheld applications.
PB  - MDPI
JF  - Electronics
VL  - 9
SN  - 2079-9292
TI  - An Efficient Hardware Implementation of Residual Data Binarization in HEVC CABAC Encoder
AV  - none
ER  -