This letter addresses the problem of delay fault test generation in circuits using macros whose implementation is not known. The proposed approach uses a new signal representation that allows us to evaluate any kind of sensitization conditions (robust, non-robust, and functional) by means of Boolean differential calculus. Such an approach makes use of binary decision diagrams to support the computation of sensitization conditions for each macro along a path and of Boolean satisfiability to justify such conditions at primary inputs. Results are shown for a set of benchmarks. © 2006 IEEE.
A SAT Based Test Generation Method for Delay Fault Testing of Macro Based Circuits
MELE, Santino;FAVALLI, Michele
2011
Abstract
This letter addresses the problem of delay fault test generation in circuits using macros whose implementation is not known. The proposed approach uses a new signal representation that allows us to evaluate any kind of sensitization conditions (robust, non-robust, and functional) by means of Boolean differential calculus. Such an approach makes use of binary decision diagrams to support the computation of sensitization conditions for each macro along a path and of Boolean satisfiability to justify such conditions at primary inputs. Results are shown for a set of benchmarks. © 2006 IEEE.File in questo prodotto:
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