Abstract:
With decreasing transistor sizes, the susceptibility of digital circuits to soft errors will increase. Thus, the need to efficiently evaluate the robustness of a gate-lev...Show MoreMetadata
Abstract:
With decreasing transistor sizes, the susceptibility of digital circuits to soft errors will increase. Thus, the need to efficiently evaluate the robustness of a gate-level circuit to multiple simultaneous soft errors. We compare the efficiency of various CNF schemes for encoding of cardinality constraints, which control the number of simultaneously injected soft errors in a gate-level circuit, when the robustness of the circuit is computed with SAT-based formal methods.
Date of Conference: 15-18 May 2011
Date Added to IEEE Xplore: 04 July 2011
ISBN Information:
ISSN Information:
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Formal Methods ,
- Conjunctive Normal Form ,
- Gate-level Circuit ,
- Multiple Errors ,
- Transistor Size ,
- Simultaneous Injection ,
- Control Variables ,
- Negation ,
- Domain Size ,
- Levels Of Hierarchy ,
- Tree Level ,
- Output Gate ,
- Value Domain ,
- Boolean Variable ,
- Different Sets Of Variables ,
- Constraint Satisfaction Problem ,
- Output Bits
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Formal Methods ,
- Conjunctive Normal Form ,
- Gate-level Circuit ,
- Multiple Errors ,
- Transistor Size ,
- Simultaneous Injection ,
- Control Variables ,
- Negation ,
- Domain Size ,
- Levels Of Hierarchy ,
- Tree Level ,
- Output Gate ,
- Value Domain ,
- Boolean Variable ,
- Different Sets Of Variables ,
- Constraint Satisfaction Problem ,
- Output Bits
