Guo-An Jian scite author profile

Guo-An Jian

5Publications

13Citation Statements Received

18Citation Statements Given

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Affiliations

National Yang Ming Chiao Tung University, National Chung Cheng University, National Chung Hsing University

Publications

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A system architecture exploration on the configurable HW/SW co-design for H.264 video decoder

Jian

Chu

Huang

et al. 2009

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In this paper we focus on the design methodology to propose a design that is more flexible than ASIC solution and more efficient than the processor-based solution for H.264 video decoder. We explore the memory access bandwidth requirement and different software/hardware partitions so as to propose a configurable architecture adopting a DEM (Data Exchange Mechanism) controller to fit the best tradeoff between performance and cost when realizing H.264 video decoder for different applications. The proposed architecture can achieve more than three times acceleration in performance.

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Multi-core software/hardware co-debug platform with ARM CoreSight™, on-chip test architecture and AXI/AHB bus monitor

Lee

Huang

et al. 2011

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A real-time parallel scalable video encoder for multimedia streaming systems

Jian

Lee

Tan

et al. 2013

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High efficiency data access system architecture for deblocking filter supporting multiple video coding standards

Chien

Jian

Chang

et al. 2012

IEEE Trans. Consumer Electron.

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This paper presents an efficient VLSI architecture of in-loop deblocking filter (ILF) with high efficiency data access system for supporting multiple video coding standards including H.264 BP/MP/HP, SVC, MVC, AVS, and VC-1. Advanced standards, such as H.264 MP/HP, SVC, and MVC, adopt Macro Block Adaptive Frame Field (MBAFF) to enhance coding efficiency which results in the performance bottleneck of deblocking filter due to complex data access requirement. This design challenge has not been discussed in previous works according to our best knowledge. Therefore, we develop a Prediction Data Management (PDM) to manage the input prediction data order of deblocking filter for different coding types (like frame/field) and multiple standards. We also design an extended output frame buffer module to solve the system bus architecture restriction (like 1K boundary and burst length) and achieve high efficiency data access by using MB-based scan order. By using these techniques, we can solve the data accessing design challenge and reduce 67% bus latency. After being implemented by using 90 nm CMOS technology, the proposed work can achieve real-time performance requirement of QFHD (3840×2160@30fps) when operated at 156MHz at the cost of 50.6K gates and 2.4K bytes local memory. The maximum operating frequency of the proposed design, i.e. 370MHz, is higher than the required real-time operating frequency so that voltage scaling may be adopted to reduce power consumption. 1

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Optimization of VC-1/H.264/AVS Video Decoders on Embedded Processors

Jian

Huang

Chu

et al. 2009

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Guo-An Jian

A system architecture exploration on the configurable HW/SW co-design for H.264 video decoder

Multi-core software/hardware co-debug platform with ARM CoreSight™, on-chip test architecture and AXI/AHB bus monitor

A real-time parallel scalable video encoder for multimedia streaming systems

High efficiency data access system architecture for deblocking filter supporting multiple video coding standards

Optimization of VC-1/H.264/AVS Video Decoders on Embedded Processors

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About

Guo-An Jian

A system architecture exploration on the configurable HW/SW co-design for H.264 video decoder

Multi-core software/hardware co-debug platform with ARM CoreSight&#x2122;, on-chip test architecture and AXI/AHB bus monitor

A real-time parallel scalable video encoder for multimedia streaming systems

High efficiency data access system architecture for deblocking filter supporting multiple video coding standards

Optimization of VC-1/H.264/AVS Video Decoders on Embedded Processors

Contact Info

Product

Resources

About

Multi-core software/hardware co-debug platform with ARM CoreSight™, on-chip test architecture and AXI/AHB bus monitor