Title :
Automatic Fault Handling on Coarse Grain Reconfigurable Computing Architecture
Author_Institution :
Beijing Inst. of Micro-Electron. Technol., Beijing
Abstract :
Conventional circuit design exploits device characteristics with a certain temperature/radiation range. Beyond this condition, the circuit may be damaged. For Evolvable Hardware (EHW), although one or more elements may be damaged, its function can be recovered by utilizing residual resource. In EHW, an additional DSP (digital signal processor) is usually used as a controller, which runs some algorithms for a long time to find a way to handle fault. This paper describes a new evolvable coarse grain re-configurable platform currently under development. This platform differs significantly from previous efforts, in that it has a coarse-grained, signal-flow architecture oriented towards implementing multi-media and stream-media. If some fault occurs, it can quickly find out which element is in error and automatically running recovery program to come back to its previous function.
Keywords :
digital signal processing chips; fault diagnosis; fault tolerant computing; reconfigurable architectures; automatic fault handling; circuit design; coarse grain reconfigurable computing architecture; coarse grain reconfigurable platform; coarse-grained architecture; device characteristics; digital signal processor; evolvable hardware; multimedia; recovery program; residual resources; signal-flow architecture; stream media; Centralized control; Circuit faults; Circuit testing; Computer architecture; Control systems; Digital signal processing; Field programmable analog arrays; Field programmable gate arrays; Hardware; Military computing; Coarse Grain; Evolvable Hardware; Reconfigurable Computing;
Conference_Titel :
Natural Computation, 2008. ICNC '08. Fourth International Conference on
Conference_Location :
Jinan
Print_ISBN :
978-0-7695-3304-9
DOI :
10.1109/ICNC.2008.828
