Designing systems-on-chip using cores
Proceedings of the 37th Annual Design Automation Conference
A Framework for Run-time Reconfigurable Systems
The Journal of Supercomputing
JPG - A Partial Bitstream Generation Tool to Support Partial Reconfiguration in Virtex FPGAs
IPDPS '02 Proceedings of the 16th International Parallel and Distributed Processing Symposium
Using PARBIT to Implement Partial Run-Time Reconfigurable Systems
FPL '02 Proceedings of the Reconfigurable Computing Is Going Mainstream, 12th International Conference on Field-Programmable Logic and Applications
Automated Extraction of Run-Time Parameterizable Cores from Programmable Device Configurations
FCCM '00 Proceedings of the 2000 IEEE Symposium on Field-Programmable Custom Computing Machines
Core Communication Interface for FPGAs
Proceedings of the 15th symposium on Integrated circuits and systems design
Run-time support for dynamically reconfigurable computing systems
Journal of Systems Architecture: the EUROMICRO Journal - Special issue: Reconfigurable systems
Support for partial run-time reconfiguration of platform FPGAs
Journal of Systems Architecture: the EUROMICRO Journal
Aquarius: a dynamically reconfigurable computing platform
Proceedings of the 20th annual conference on Integrated circuits and systems design
A Flexible system level design methodology targeting run-time reconfigurable FPGAs
EURASIP Journal on Embedded Systems - Reconfigurable Computing and Hardware/Software Codesign
Slotless module-based reconfiguration of embedded FPGAs
ACM Transactions on Embedded Computing Systems (TECS)
Modern development methods and tools for embedded reconfigurable systems: A survey
Integration, the VLSI Journal
Exploiting dynamic reconfiguration of platform FPGAs: implementation issues
IPDPS'06 Proceedings of the 20th international conference on Parallel and distributed processing
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Dynamically and Partially Reconfigurable Systems (DRSs) are those where any portion of the hardware behavior can be altered at application execution time. These systems have the potential to provide hardware with flexibility similar to that of software, while leading to better performance and smaller system size. However, the widespread acceptance of DRSs depends on adequate support to design and implement them. This work proposes a framework for DRS design and implementation named PADReH. The approach is compared to other propositions available in the literature. The first steps of the framework implementation are described, involving methods and tools to control the hardware reconfiguration process and the generation of partial bitstreams. The main contribution of the work is to provide means to systematically reduce the lack of support currently hampering the adoption of DRSs as a mainstream technology.