Nowadays using SRAM based FPGAs in space missions is increasingly considered due to their flexibility and reprogrammability. A challenge is the devices sensitivity to radiation effects that increased with modern architectures due to smaller CMOS structures. This work proposes fault tolerance methodologies, that are based on a fine grain view to modern reconfigurable architectures. The focus is on SEU mitigation challenges in SRAM based FPGAs which can result in crucial situations
Using Fine Grain Approaches for highly reliable Design of FPGA-based Systems in Space
2013
1 electronic resource (IX, 146 p. p.)
Buch
Elektronische Ressource
Unbekannt
Using Fine Grain Approaches for highly reliable Design of FPGA-based Systems in Space
TIBKAT | 2013
|Using Fine Grain Approaches for highly reliable Design of FPGA-based Systems in Space
GWLB - Gottfried Wilhelm Leibniz Bibliothek | 2013
|