A case for intelligent disks (IDISKs)
ACM SIGMOD Record
Active disks: programming model, algorithms and evaluation
Proceedings of the eighth international conference on Architectural support for programming languages and operating systems
Content-Based Image Retrieval at the End of the Early Years
IEEE Transactions on Pattern Analysis and Machine Intelligence
Active Storage for Large-Scale Data Mining and Multimedia
VLDB '98 Proceedings of the 24rd International Conference on Very Large Data Bases
DRPM: dynamic speed control for power management in server class disks
Proceedings of the 30th annual international symposium on Computer architecture
Technological impact of magnetic hard disk drives on storage systems
IBM Systems Journal
Disk Drive Roadmap from the Thermal Perspective: A Case for Dynamic Thermal Management
Proceedings of the 32nd annual international symposium on Computer Architecture
Proceedings of the 5th conference on Computing frontiers
EED: Energy Efficient Disk drive architecture
Information Sciences: an International Journal
A mathematical framework for modeling and analyzing migration time
Proceedings of the 10th annual joint conference on Digital libraries
What is the future of disk drives, death or rebirth?
ACM Computing Surveys (CSUR)
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Disk drives play a critical role on the performance of I/O intensive applications. Over the years, disk drive performance has grown as a result of advances in magnetic recording density and faster rotational speeds. In essence, the performance driver in disks has been the data rate. In this paper, we show that data rate is going to be increasingly difficult to optimize, due to power/thermal constraints. We argue that disk drive designers should instead focus their efforts on providing more computational capabilities that data intensive applications could leverage in order to boost performance. We also discuss the scope for provisioning powerful processors inside disk drives to provide these computational capabilities.