Low power memory architectures for video applications

We provide data and insight into how the choice of cache parameters affects memory power consumption of video algorithms. We make use of memory traces generated as a result of running typical MPEG-2 motion estimation algorithms to simulate a large number of cache configurations. The cache simulation data is then combined with on-chip and off-chip memory power models to compute memory power consumption. In the area of analysis of video algorithms, this paper focuses on the following issues: we provide a detailed study of how varying cache size, block size, and associativity affects memory power consumption. The configurations of particular interest are the ones that optimize power under certain constraints. We also study the role of process technology in these experiments. In particular, we look at how moving to a more advanced process technology for the on-chip cache affects optimal points of operation with respect to memory power consumption