Cellular automata machines: a new environment for modeling
Cellular automata machines: a new environment for modeling
Models of massive parallelism: analysis of cellular automata and neural networks
Models of massive parallelism: analysis of cellular automata and neural networks
Self-checking and fault-tolerant digital design
Self-checking and fault-tolerant digital design
A new kind of science
Evolution of Parallel Cellular Machines: The Cellular Programming Approach
Evolution of Parallel Cellular Machines: The Cellular Programming Approach
Towards nanocomputer architecture
CRPIT '02 Proceedings of the seventh Asia-Pacific conference on Computer systems architecture
The Emergence of Cellular Computing
Computer
System Reliabilities When Using Triple Modular Redundancy in Quantum-Dot Cellular Automata
DFT '08 Proceedings of the 2008 IEEE International Symposium on Defect and Fault Tolerance of VLSI Systems
GECCO '96 Proceedings of the 1st annual conference on Genetic and evolutionary computation
Fault-tolerance in nanocomputers: a cellular array approach
IEEE Transactions on Nanotechnology
Cellular automata-based systems with fault-tolerance
Natural Computing: an international journal
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In the light of emergence of cellular computing, new cellular computing systems based on yet-unknown methods of fabrication need to address the problem of fault tolerance in a way which is not tightly connected to used technology. This may not be possible with existing elaborate fault-tolerant cellular systems so we strive to reach simple solutions. This paper presents a possible solution for increasing fault-tolerance in cellular automata in a form of static module redundancy. Further, a set of experiments evaluating this solution is described, using triple and quintuple module redundancy in the automata with the presence of defects. The results show that the concept works for low intensity of defects for most of our selected benchmarks, however the ability to cope with errors can not be intuitively deduced as indicated on the example of the majority problem.