A backlight power management framework for battery-operated multimedia systems
Thin-film transistor liquid-crystal displays are systems widely used to support full-featured
multimedia. For such systems, backlight is a major source of power dissipation. This article
introduces a backlight power management framework and explores trade-offs in the
extended dynamic-luminance-scaling design space in terms of energy reduction,
performance penalty, and image quality.
multimedia. For such systems, backlight is a major source of power dissipation. This article
introduces a backlight power management framework and explores trade-offs in the
extended dynamic-luminance-scaling design space in terms of energy reduction,
performance penalty, and image quality.
Thin-film transistor liquid-crystal displays are systems widely used to support full-featured multimedia. For such systems, backlight is a major source of power dissipation. This article introduces a backlight power management framework and explores trade-offs in the extended dynamic-luminance-scaling design space in terms of energy reduction, performance penalty, and image quality.
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