Fault-tolerant computer system design
Fault-tolerant computer system design
Efficiently supporting fault-tolerance in FPGAs
FPGA '98 Proceedings of the 1998 ACM/SIGDA sixth international symposium on Field programmable gate arrays
Low overhead fault-tolerant FPGA systems
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
Dynamic fault diagnosis on reconfigurable hardware
Proceedings of the 36th annual ACM/IEEE Design Automation Conference
Can System Engineering: From Theory to Practical Applications
Can System Engineering: From Theory to Practical Applications
Digital Methods for Signal Analysis
Digital Methods for Signal Analysis
BIST-Based Diagnostics of FPGA Logic Blocks
Proceedings of the IEEE International Test Conference
An approach for testing programmable/configurable field programmable gate arrays
VTS '96 Proceedings of the 14th IEEE VLSI Test Symposium
Agents learn from human experts: an approach to test reconfigurable systems
SMC'09 Proceedings of the 2009 IEEE international conference on Systems, Man and Cybernetics
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This paper revises and introduces to the field of reconfigurable computer systems, some traditional techniques used in the fields of fault-tolerance and testing of digital circuits. The target area is that of on-board spacecraft electronics, as this class of application is a good candidate for the use of reconfigurable computing technology. Fault tolerant strategies are used in order for the system to adapt itself to the severe conditions found in space. In addition, the paper describes some problems and possible solutions for the use of reconfigurable components, based on programmable logic, in space applications.