Logic testing and design for testability
Logic testing and design for testability
LSI/VLSI testability design
Group Properties of Cellular Automata and VLSI Applications
IEEE Transactions on Computers
Random sequence generation by cellular automata
Advances in Applied Mathematics
Signature Analysis for Multiple-Output Circuits
IEEE Transactions on Computers
Parallel Random Number Generation for VLSI Systems Using Cellular Automata
IEEE Transactions on Computers
The theory of signature testing for VLSI
STOC '82 Proceedings of the fourteenth annual ACM symposium on Theory of computing
Parallel computation of non-deterministic algorithms in vlsi
Parallel computation of non-deterministic algorithms in vlsi
Cellular automata-based pseudorandom number generators for built-in self-test
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
Cellular automata circuits for built-in self test
IBM Journal of Research and Development
CAA Decoder for Cellular Automata Based Byte Error Correcting Code
IEEE Transactions on Computers
Partial Symmetry in Cellular Automata Rule Vectors
Journal of Electronic Testing: Theory and Applications
Cellular Automata-Based Recursive Pseudoexhaustive Test Pattern Generator
IEEE Transactions on Computers
Fast computation of C-MISR signatures
ATS '95 Proceedings of the 4th Asian Test Symposium
A cellular automata calculation model based on ternary optical computers
HPCA'09 Proceedings of the Second international conference on High Performance Computing and Applications
Behavior of complemented CA whose complement vector is acyclic in a linear TPMACA
Mathematical and Computer Modelling: An International Journal
An Explicit Similarity Transform between Cellular Automata and LFSR Matrices
Finite Fields and Their Applications
Hi-index | 14.99 |
Relevant signature analysis properties for elementary one-dimensional cellular automata are presented. It is found that cellular automata with cyclic-group rules provide signature analysis properties comparable to the LFSR (linear feedback shift register). A technique of using CALBO (cellular automata-based logic block observation) for both test pattern generation and signature analysis, in a similar manner to a typical BILBO (built-in block observation) implementation, is presented.