Kwangki Ryoo scite author profile

In this paper, we propose a highly efficient VLSI architecture for context-based adaptive variable-length coding (CAVLC) decoder. In multimedia data processing systems, the real-time processing requirement is the most critical problem and the only requirement that must be satisfied. Thus, an architecture which has a short processing time though a high throughput, can meet the requirement at low operating frequencies. Consequently, the architecture can have an advantage of low power consumption. We propose two methods to improve the throughput of CAVLC decoders. The first method eliminates the pipeline hazard in a pipelined architecture for CAVLC decoder. The second method expands the capacity of the barrel shifter. Experimental results show that the proposed architecture can improve throughput by about 45%. As a result, the proposed architecture greatly reduces the operating frequency for real-time processing, which is the key factor of reducing power consumption. The synthesis result shows that the design achieves the maximum operating frequency at 125 MHz, and the hardware cost is about 12.6K under a 0.18 um CMOS process 1 . Index Terms -Context-based variable length coding, CAVLC, H.264/AVC, low-power, variable length coding BIOGRAPHIES Byung-yup Lee was born in Daejeon, Korea in 1983. He received the B.S degree in Information and Communication Engineering from Hanbat National University, Daejeon, Korea, in 2008. He is currently pursuing the M.S. degree with the Graduate School of Information and Communication, National Hanbat University. His major research interests include SoC, VLSI, image processing and its hardware design. . His current research interests are CAD for VLSI, clock layout synthesis, SoC platform design and verification, hardware/software codesign/co-verification, and multimedia encoder/decoder design.

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Area-Efficient Design of Modular Exponentiation Using Montgomery Multiplier for RSA Cryptosystem

Nti

Ryoo

2018

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A low power and low noise preamplifier circuit for hearing aid devices

Ryoo

Chilukuri

Jung

2016

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Hardware Architecture Design of AES Cryptosystem with 163-Bit Elliptic Curve

Kanda

Antwi

Ryoo

2018

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Kwangki Ryoo

The hardware design of effective SAO for HEVC decoder

A design of high-performance pipelined architecture for H.264/AVC CAVLC decoder and low-power implementation

Area-Efficient Design of Modular Exponentiation Using Montgomery Multiplier for RSA Cryptosystem

A low power and low noise preamplifier circuit for hearing aid devices

Hardware Architecture Design of AES Cryptosystem with 163-Bit Elliptic Curve

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