Computation-effective 3-D graphics rendering architecture for embedded multimedia system

Liang, Bor-Sung; Jen, Chein-Wei

doi:10.1109/30.883440

IEEE Trans. Consumer Electron.

2000

DOI: 10.1109/30.883440

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Computation-effective 3-D graphics rendering architecture for embedded multimedia system

Bor-Sung Liang

Chein-Wei Jen²

Abstract: A new architecture is proposed to realize 3-0 graphics rendering for embedded multimedia system. Because only 20% to 83% triangles in original 3-0 object models are visible by simulation, our architecture is designed to eliminate the redundant operations on invisible triangles without image qualiiy loss. It bases on our index rendering and enhanced deferred lighting approaches, and its feature is dual pipeline rendering architecture. The simulation and analysis results show that this architecture can save up t… Show more

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Cited by 2 publications

References 16 publications

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Development of a 3-D graphics rendering engine with lighting acceleration for handheld multimedia systems

Nam

Lee

Yoo

2005

IEEE Trans. Consumer Electron.

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A low-power three-dimensional (3-D) graphics rendering engine with lighting acceleration is designed and implemented for handheld multimedia terminals. The lighting unit is hardware implemented and integrated into the chip for the low-power acceleration of the 3D graphics applications. We adopt the following three steps to handle the memory bandwidth problem for rendering operations. I) We find bilinear MIPMAP is the best texture filtering algorithm for handheld systems based on our developed energy-efficiency metric. With this observation, we adopt bilinear MIPMAP for our texture filtering unit, which requires only 50% of texture memory bandwidth compared with trilinear MIPMAP filtering, II) We put the depth test operation into the earlier stage of the graphics pipeline, which eliminates texture memory accesses for invisible pixels, III) We develop a power-efficient small cache system as the interface to rendering memory. The accelerator takes 181K gates and the performance reaches 20Mpixels/s. A test chip is implemented with 1-poly 6-metal 0,18um CMOS technology. It operates at the frequency of 20MHz with 14.7mW power consumption 1 .

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Development of a 3-D graphics rendering engine with lighting acceleration for handheld multimedia systems

Nam

Lee

Yoo

2005

IEEE Trans. Consumer Electron.

View full text Add to dashboard Cite

show abstract

Rapidly constructing a simple 3-D graphic model using a consumer-user digital still camera

Lin²,

Lee³

2006

IEEE Trans. Consumer Electron.

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Computation-effective 3-D graphics rendering architecture for embedded multimedia system

Cited by 2 publications

References 16 publications

Development of a 3-D graphics rendering engine with lighting acceleration for handheld multimedia systems

Development of a 3-D graphics rendering engine with lighting acceleration for handheld multimedia systems

Rapidly constructing a simple 3-D graphic model using a consumer-user digital still camera

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