Title :
Exploring FPGA structures for evolving fault tolerant hardware
Author :
Shanthi, A.P. ; Parthasarathi, Ranjani
Author_Institution :
Sch. of Comput. Sci. & Eng., Anna Univ., India
Abstract :
This work explores different types of FPGA (field programmable gate array) structures for evolving fault tolerant hardware. A three-tier model for providing fault tolerance to the digital circuits evolved on FPGAs is proposed. This model combines the process level redundancy provided by the GA (genetic algorithm) based evolution techniques and the structural level redundancy supported by the FPGA architectures. Simulation results using the ISCAS´89 benchmark circuits have been carried out to study the effect of granularity on the time taken for the evolution process, the dimensionality of the evolution and the number of solutions that need to be evolved for fault coverage. The effect of using a divide and conquer approach to reduce the time taken for evolution has been studied proving that this is a feasible approach even for complex circuits.
Keywords :
divide and conquer methods; fault tolerant computing; field programmable gate arrays; genetic algorithms; performance evaluation; redundancy; FPGA structure; GA based evolution; ISCAS 89 benchmark circuit; complex circuit; digital circuit; divide and conquer; electronic hardware self-configuration; evolution dimensionality; evolution time reduction; evolvable hardware; evolving fault tolerant hardware; fault coverage; fault tolerance; field programmable gate array; genetic algorithm; process level redundancy; reliability; structural level redundancy; three-tier model; time granularity; Circuit faults; Digital circuits; Evolution (biology); Fault tolerance; Fault tolerant systems; Field programmable gate arrays; Genetics; Hardware; Programmable logic arrays; Redundancy;
Conference_Titel :
Evolvable Hardware, 2003. Proceedings. NASA/DoD Conference on
Print_ISBN :
0-7695-1977-6
DOI :
10.1109/EH.2003.1217664
