. . "Our research is focused on mission critical applications using SRAM based Field Programmable Gate Arrays (FPGAs).The main goal is to reach higher availability and dependability and low power using unreliable components (FPGAs) with respect to highest safety according to strict Czech standards. Our methodology is designed for fast applicatons and rapid prorotyping of modular systems, which are useful for fast development thanks to its regulars structure. The methodology combines Concurrent Error Detection (CED) techniques, FPGA dynamic recondfigurations and our previously designed Modified Duplex Systems (MDS) architecture. The methodology tries minimizes area overhead. It is aimed for practical applications of modular systems, which are composed from blocks. We applied and tested it on the safety railway station system. The proposed method is based on static and partial dynamic reconfiguration of totally self-checking blocks which allows a full recovery from a Single Even Upset (SEU)."@en . . "V\u00EDt, Pavel" . "3"^^ . "[88D575002A3C]" . "RIV/68407700:21240/14:00221551" . "S" . "Fault Recovery Method with High Availability for Practical Applications"@en . "21240" . "MEMICS proceedings" . "FPGA; SEU; availability; depandability; safety"@en . . . . . "1"^^ . . "Boreck\u00FD, Jaroslav" . . . "978-80-214-5022-6" . "16559" . . . "Kub\u00E1tov\u00E1, Hana" . . "Fault Recovery Method with High Availability for Practical Applications" . . . "2014-10-17+02:00"^^ . . . "Tel\u010D" . "Fault Recovery Method with High Availability for Practical Applications"@en . "Our research is focused on mission critical applications using SRAM based Field Programmable Gate Arrays (FPGAs).The main goal is to reach higher availability and dependability and low power using unreliable components (FPGAs) with respect to highest safety according to strict Czech standards. Our methodology is designed for fast applicatons and rapid prorotyping of modular systems, which are useful for fast development thanks to its regulars structure. The methodology combines Concurrent Error Detection (CED) techniques, FPGA dynamic recondfigurations and our previously designed Modified Duplex Systems (MDS) architecture. The methodology tries minimizes area overhead. It is aimed for practical applications of modular systems, which are composed from blocks. We applied and tested it on the safety railway station system. The proposed method is based on static and partial dynamic reconfiguration of totally self-checking blocks which allows a full recovery from a Single Even Upset (SEU)." . "3"^^ . . . "Brno" . "Fault Recovery Method with High Availability for Practical Applications" . "RIV/68407700:21240/14:00221551!RIV15-MSM-21240___" . "NOVPRESS" .