Several years ago we recognized that proof test coverage was an important variable that must be considered when doing PFDavg calculations. We ran some models and discovered that the difference between “perfect” proof test coverage (100%) and a very good 90% could mean a whole SIL level in the result.  The first question I ask is ‘Why do some engineers still use simplified equations that assume perfect proof test coverage?” Unfortunately, the answer I get when I ask them is a question, “What is proof test coverage?” Not a good sign that those doing the work have the competency needed.  But that is another topic for another blog.

Given that proof test coverage is so important, how are good numbers obtained?  Fortunately exida recognized that the FMEDA technique could be used to calculate a proof test coverage factor (PTC) for any given proof test. So this task was added to our FMEDA procedure several years ago.  Now we have a bountiful database of PTC numbers for a variety of proof test techniques for hundreds of various instruments.  These have all been incorporated into the proof test generator option for exSILentia, exida’s safety lifecycle engineering tool. In the future look for better tables in our new books.

Tagged as:     SIL     ptc     proof test coverage factor     proof test coverage     PFDavg     fmeda     exSILentia     Dr. William Goble  

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