A Partitioning Methodology for Accelerating Applications in Hybrid Reconfigurable Platforms
Proceedings of the conference on Design, Automation and Test in Europe - Volume 3
A Framework for Partitioning Computational Intensive Applications in Hybrid Reconfigurable Platforms
IPDPS '05 Proceedings of the 19th IEEE International Parallel and Distributed Processing Symposium (IPDPS'05) - Workshop 3 - Volume 04
Energy management for battery-powered reconfigurable computing platforms
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
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Dynamically reconfigurable systems offer the potential for realising efficient systems as well asproviding adaptability to changing system requirements. Such systems are suitable for futuremobile multimedia systems that have limited battery resources, must handle diverse data types, and must operate in dynamic application and communication environments. We propose an approach in which reconfiguration is applied dynamically at various levels of a mobile system, whereas traditionally, reconfigurable systems mainly focus at the gate level only. The research performed in the CHAMELEON project 1aims at designing such a heterogeneous reconfigurable mobile system. The two main motivations for the system are 1) to have an energy-efficient system, while 2) achieving an adequate Quality of Service for applications.