Title :
A 1.2 mW video-rate 2-D color subband decoder
Author :
Gordon, Benjamin M. ; Meng, Teresa H.
Author_Institution :
Center for Integrated Syst., Stanford Univ., CA, USA
fDate :
12/1/1995 12:00:00 AM
Abstract :
A 2-D subband decoder has been designed for real-time video decompression in low-power applications. The chip is capable of reconstructing four levels of hierarchical subband structures for images up to 256 pixels wide. The chip´s maximum performance decodes 60 M pixels per second of color RGB video output with a 5 V supply and 120 MHz clock frequency. For portable applications with a resolution of 176 pixels wide, 240 lines, and 30 frames/s color video, the chip dissipates less than 1.2 mW with a 1 V supply. Besides the reduced supply voltage, the low power consumption is achieved through algorithmic innovations for energy conservation. Higher-resolution images can be decoded by cascading multiple chips in parallel each operating on a 256 pixel wide image slice
Keywords :
CMOS digital integrated circuits; data compression; decoding; digital signal processing chips; real-time systems; video coding; 1 V; 1.2 mW; 120 MHz; 2D subband decoder; 5 V; color RGB video output; hierarchical subband structures; low power consumption; low-power applications; portable applications; real-time video decompression; video-rate color decoder; Clocks; Decoding; Energy conservation; Energy consumption; Energy resolution; Frequency; Image reconstruction; Low voltage; Pixel; Technological innovation;
Journal_Title :
Solid-State Circuits, IEEE Journal of
