In this paper, we take the idea of application-level processing on disks to one level further, and focus on an architecture, called Cluster of Active Disks (CAD), where the storage system contains a network of parallel "active disks." Each individual active disk (which includes an embedded processor, disk(s), caches, memory, and interconnect) can perform some application level processing; but, more importantly, the active disks can collectively perform parallel Input/Output (I/O) and processing, thereby reducing not just the communication latency but I/O latency and computation time as well. The CAD architecture poses many challenges for the next generation software systems at all levels including programming models, operating and runtime systems, application mapping, compilation, parallelization and performance modeling, and evaluation. In this paper, we focus exclusively on code scheduling support required for clusters of active disks. More specifically, we address the problem of code scheduling with the goal of minimizing the power consumption on the disk system. Our experiments indicate that the proposed scheduling approach is very successful in reducing power and generates better results than three other alternate scheduling schemes tested.
|Original language||English (US)|
|Number of pages||6|
|Journal||Proceedings of the International Symposium on Low Power Electronics and Design|
|State||Published - Dec 12 2005|
|Event||2005 International Symposium on Low Power Electronics and Design - San Diego, CA, United States|
Duration: Aug 8 2005 → Aug 10 2005
All Science Journal Classification (ASJC) codes