The effectiveness of texture mapping in enhancing the realism of computer generated imagery has made support for real-time texture mapping a critical part of graphics pipelines. Despite a recent surge in interest in three-dimensional graphics from computer architects, high-quality high-speed texture mapping has so far been confined to costly hardware systems that use brute-force techniques to achieve high performance. One obstacle faced by designers of texture mapping systems is the requirement of extremely high bandwidth to texture memory. High bandwidth is necessary since there are typically tens to hundreds of millions of accesses to texture memory per second. In addition, to achieve the high clock rates required in graphics pipelines, low-latency access to texture memory is needed. In this paper, we propose the use of texture image caches to alleviate the above bottlenecks, and evaluate various tradeoffs that arise in such designs. We find that the factors important to cache beh...
Ziyad S. Hakura, Anoop Gupta