Abstract
The design and physical implementation of a self-controlling dynamically reconfigurable system is described in detail. The reconfiguration control logic and target application execute in parallel within the same FPGA. In addition, the data required for each reconfiguration is generated on demand. A pattern-matching algorithm is used to investigate the viability of systems that exhibit self-control of reconfiguration management. The system was engineered on a custom development platform, based around a Xilinx XC6216 FPGA. The methodology and development tools used in the design are also evaluated. Initial measures of performance and recommendations for future device design are presented.
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References
Editorial, Science and Technology: Hardware Goes Soft, The Economist, 22nd (May 1999)
McGregor, G., Robinson, D., Lysaght, P.: A Hardware/Software Co-design Environment for Reconfigurable Logic Systems, FPL 1998, Tallinn, Estonia (September 1998)
Lysaght, P., Dunlop, J.: Dynamic Reconfiguration of Field Programmable Gate Arrays. In: Field Programmable Logic and Applications, Oxford, England (September 1993)
Lysaght, P.: Aspects of Dynamically Reconfigurable Logic. In: IEE Colloquium on Reconfigurable Systems, Glasgow, Scotland, March 1999, pp. 1–5 (1999)
Robinson, D., Lysaght, P., McGregor, G., Dick, H.: Performance Evaluation of a Full Speed PCI Initiator and Target Subsystem using FPGAs. In: Luk, W., Cheung, P. (eds.) Field Programmable Logic and Applications, Proceedings of FPL 1997, pp. 41–50. Springer, Heidelberg (1997)
Foulk, P.W., Hodson, L.D.: Data Folding in SRAM Configurable FPGAs. In: IEEE Workshop on FPGAs for Custom Computing Machines, Napa, CA, April 1993, pp. 163–171 (1993)
Wirthlin, M.J., Hutchings, B.: Improving Functional Density Through Run-Time Constant Propagation. In: 1997 ACM/SIGDA International Symposium on Field Programmable Gate Arrays, pp. 86–92 (1997)
Lysaght, P., Stockwood, J.: A Simulation Tool for Dynamically Reconfigurable Field Programmable Gate Arrays. IEEE Transactions on Very Large Scale Integration (VLSI) Systems 4(3), 381–390 (1996)
Robinson, D., Lysaght, P., McGregor, G.: New CAD Framework Extends Simulation of Dynamically Reconfigurable Logic. In: Hartenstein, R., Keevallik, A. (eds.) Field Programmable Logic and Applications, Tallinn, Estonia, September 1998, pp. 1–8 (1998)
Robinson, D., Lysaght, P.: Modelling and Synthesis of Configuration Controllers for Dynamically Reconfigurable Logic Systems using the DCS CAD Framework. In: Field-Programmable Logic, Glasgow, Scotland (August 1999)
Shirazi, N., Luk, W., Cheung, P.Y.K.: Automating production of run-time reconfigurable designs. In: Pocek, K.L., Arnold, J. (eds.) Proc. IEEE Symposium on Field-Programmable Custom Computing Machines. IEEE Computer Society Press, Los Alamitos (1998)
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McGregor, G., Lysaght, P. (1999). Self Controlling Dynamic Reconfiguration: A Case Study. In: Lysaght, P., Irvine, J., Hartenstein, R. (eds) Field Programmable Logic and Applications. FPL 1999. Lecture Notes in Computer Science, vol 1673. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-48302-1_15
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DOI: https://doi.org/10.1007/978-3-540-48302-1_15
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