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EDCC
1999
Springer
1999
Springer
Considering Workload Input Variations in Error Coverage Estimation
The effects of variations in the workload input when estimating error detection coverage using fault injection are investigated. Results from scanchain implemented fault injection experiments using the FIMBUL tool on the Thor microprocessor show that the estimated error non-coverage may vary by more than five percentage units for different workload input sequences. A methodology for predicting error coverage for a particular input sequence based on results from fault injection experiments with another input sequence is presented. The methodology is based on the fact that workload input variations alter the usage of sensitive data and cause different parts of the workload code to be executed different number of times. By using the results from fault injection experiments with a chosen input sequence, the error coverage factors for the different parts of the code and the data are calculated. The error coverage for a particular input sequence is then predicted by means of a weighted sum o...
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| Added | 04 Aug 2010 |
| Updated | 04 Aug 2010 |
| Type | Conference |
| Year | 1999 |
| Where | EDCC |
| Authors | Peter Folkesson, Johan Karlsson |
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