Title :
Highly fault-tolerant FPGA processor by degrading strategy
Author :
Nakamura, Yousuke ; Hiraki, Kei
Author_Institution :
Graduate Sch. of Inf. Sci. & Technol., Tokyo Univ., Japan
Abstract :
The importance of highly fault-tolerant computing systems has widely been recognized. We propose an FPGA architecture with a degrading strategy to increase fault-tolerance in a CPU. Previously, duplication and substitution methods have been proposed, but former methods waste redundant circuits and later methods increase computing speed as faults occur. We propose a reconstitution method with FPGA technology. Using our method, execution speed of the CPU gradually decreases as permanent faults occur. The CPU consists of functional blocks (FB), that is re-configurable logic blocks. When a fault occurs, the broken FB is discarded. As the number of valid FB decreases, function units of it is scaled down, therefore, execution time increases. In our simulation, speed degradation is less than 100% when 70% of whole FBs are broken. Compared with previous methods, speed degradation is smaller in case that many permanent faults occur.
Keywords :
circuit reliability; fault tolerant computing; field programmable gate arrays; microprocessor chips; performance evaluation; CPU; degrading strategy; duplication; execution speed; execution time; fault-tolerant FPGA processor; functional blocks; highly fault-tolerant computing systems; permanent faults; reconfigurable logic blocks; reconstitution; redundant circuits; simulation; substitution; Central Processing Unit; Circuit faults; Computer architecture; Degradation; Electrical fault detection; Fault tolerance; Fault tolerant systems; Field programmable gate arrays; Information science; Logic;
Conference_Titel :
Dependable Computing, 2002. Proceedings. 2002 Pacific Rim International Symposium on
Print_ISBN :
0-7695-1852-4
DOI :
10.1109/PRDC.2002.1185621
