2009
DOI: 10.1007/978-3-642-04570-7_6
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Towards an Industrial Use of FLUCTUAT on Safety-Critical Avionics Software

Abstract: Abstract. Most modern safety-critical control programs, such as those embedded in fly-by-wire control systems, perform a lot of floating-point computations. The well-known pitfalls of IEEE 754 arithmetic make stability and accuracy analyses a requirement for this type of software. This need is traditionally addressed through a combination of testing and sophisticated intellectual analyses, but such a process is both costly and error-prone. FLUCTUAT is a static analyzer developed by CEA-LIST for studying the pr… Show more

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Cited by 106 publications
(112 citation statements)
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“…An orthogonal line of research is to analyse the deviation of a floating-point computation from its real counterpart by studying the propagation of rounding errors [35,37]. Case studies for this approach are given in [27,38]. Abstract interpretation techniques provide a soundness guarantee, but may yield imprecise results.…”
Section: Abstract Interpretationmentioning
confidence: 99%
“…An orthogonal line of research is to analyse the deviation of a floating-point computation from its real counterpart by studying the propagation of rounding errors [35,37]. Case studies for this approach are given in [27,38]. Abstract interpretation techniques provide a soundness guarantee, but may yield imprecise results.…”
Section: Abstract Interpretationmentioning
confidence: 99%
“…This assumption is correct for embedded software such as those used in avionics. For the automatic analysis of C programs, a successful approach is based on abstract interpretation, and tools include Astre [13], [14] and Fluctuat [15]. Another method to specify and prove behavioral properties of FP programs is deductive verification system: specification languages has to take into account FP arithmetic.…”
Section: Optimization Level Program Results -O0mentioning
confidence: 99%
“…We also observe that many established static analyzers avoid this specific problem: Astrée [8] inlines on the fly procedure calls and does not perform an interprocedural analysis. This is also the case for Fluctuat [9]. Caduceus [10], before being embedded in Frama-C, explicitly discarded pointers on the stack.…”
Section: Fig 1 Methodology Followed In the Papermentioning
confidence: 92%
“…The work we present here is a step toward the C language. As mentioned in the introduction, several well-established C analysers like Astrée [8] and Fluctuat [9] that infer sophisticated properties on numerical variables target specific kinds of programs for which they can inline procedures, so they only need to handle intraprocedural use of pointers (eg. see [23] for Astrée).…”
Section: Related Workmentioning
confidence: 99%