A compressed frame buffer to reduce display power consumption in mobile systems

Shim, Hunbo; Chang, Nachyuck; Pedram, M.

doi:10.1109/aspdac.2004.1337707

Cited by 5 publications

(1 citation statement)

References 6 publications

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“…Earlier studies have attempted to reduce the data size by implementing lossless compression methods such as RLE techniques [2]. A more advanced lossless compression method is implemented with a 1D Integer (5,3) DWT, prediction coding and Adaptive Golomb-Rice (AGR) coding [3].…”

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confidence: 99%

A frequency adaptive line compression system for mobile display devices

Kim

Cho

et al. 2014

IEICE Electron. Express

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Abstract:The high resolution of the latest high-performance mobile display devices has resulted in an increase in the main frame buffer size and related bandwidth, and this is one of the main causes of a reduced battery life. As a means to solve this problem, one-dimensional line-based compression methods have been studies in order to be implemented in the limited chip design environment of the mobile display driver ICs. Conventional lossless compression techniques do not have a high compression ratio enough for complex images to ensure a sufficient power reduction. On the other hand, a wavelet-based 1D SPIHT method has been studied for use as a lossy-compression method with a high compression ratio while keeping the image quality. However, this method requires large hardware resources due to the performance for iterative calculations and sorting process. This paper proposes a novel wavelet-based lossy compression system that can achieve high compression and image quality while maintaining low complexity. The Frequency Adaptive Line Compression composed of 4-level DWT, horizontal predictive coding for the low-frequency regions, frequency selective zerozone quantization for high-frequency regions, and frequency component entropy coding. Experimental results confirmed that the proposed technique could achieve a higher compression ratio than the one required of conventional lossless compression methods and could also be implemented with a significantly less complexity than the conventional SPIHT method at the same compression ratio.

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confidence: 99%