Title :
High-performance and low-power memory-interface architecture for video processing applications
Author :
Kim, Hansoo ; Park, In-Cheol
Author_Institution :
Digital Media Res. Lab., LG Electron., Seoul, South Korea
fDate :
11/1/2001 12:00:00 AM
Abstract :
To improve memory bandwidth and power consumption in video applications, a new memory-interface architecture is proposed. The architecture adopts an array address-translation technique to utilize the fact that video processing algorithms have regular memory-access patterns. Since the translation can minimize the number of overhead cycles needed for row-activations in synchronous DRAM (SDRAM), we can improve the memory bandwidth and energy consumption significantly. The features of SDRAM and memory-access patterns of video processing applications are considered to find a suitable address translation. Compared to the conventional linear translation, experimental results show that the proposed architecture reduces about 89% of row-activations and increases the memory bandwidth by 50%. In addition, the proposed architecture reduces the energy consumption by 30% on the average
Keywords :
DRAM chips; digital signal processing chips; multidimensional signal processing; video signal processing; SDRAM; array address-translation; energy consumption reduction; high-performance memory-interface architecture; linear translation; low-power memory-interface architecture; memory bandwidth; memory-access patterns; multidimensional video processing applications; overhead cycles minimisation; power consumption; row-activation; synchronous DRAM; video processing algorithms; Bandwidth; Decoding; Energy consumption; Energy resolution; Memory architecture; Random access memory; SDRAM; Signal processing; Signal processing algorithms; Signal resolution;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
