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Beschreibung:
Safety-critical systems are forced to finish their execution within strict deadlines so that worst-case execution time (WCET) guarantees are a crucial part of their verification. Timing models of the analyzed hardware form the basis for static analysis-based approaches like the aiT WCET analyzer. Currently, timing models are hand-crafted based on frequently incorrect documentation causing the process to be error-prone and time-consuming. This thesis bridges the gap between automatic hardware synthesis and WCET analysis development by introducing a process for the derivation of timing models from VHDL specifications. We propose a set of transformations and abstractions to reduce the hardware design's complexity enabling the generation of efficient and provably correct WCET analyzers. They employ an abstract interpretation-based simulation of program executions based on a defined abstract simulation semantics. We have defined workflow patterns showing how to gradually apply the derivation process to VHDL models, thereby removing timing-irrelevant constructs. Interval property checking is used to validate the transformations. A further contribution of this thesis is the implementation of a tool set that realizes the introduced derivation process and shows its applicability to non-trivial industrial designs in experimental evaluations. Influences on design choices to the quality of the derived timing model are presented building an informal predictability notion for VHDL. ; Sicherheits-kritische Systeme unterliegen oft der Einhaltung strikter Laufzeitschranken, weshalb zur Verifikation sichere Obergrenzen der Laufzeit im schlimmsten Fall (WCET) bestimmt werden. Zeitmodelle der analysierten Hardware sind hierbei die Grundlage für auf statischen Analysen basierende Verfahren. Aktuell werden solche Modelle händisch aus Handbüchern extrahiert, ein sehr zeitaufwändiger und fehleranfälliger Prozess. Diese Arbeit schlägt eine Brücke zwischen automatischer Hardware-Synthese und der Entwicklung von WCET-Analysen durch die ...