Smart hardware designs for probabilistically-analyzable processor architectures

Abstract: Future Critical Real-Time Embedded Systems (CRTES), like those is planes, cars or trains, require more and more guaranteed performance in order to satisfy the increasing performance demands of advanced complex software features. While increased performance can be achieved by deploying processor techniques currently used in High-Performance Computing (HPC) and mainstream domains, their use challenges the software timing analysis, a necessary step in CRTES' verification and validation. Cache memories are known t… Show more

“…In my view, there are two sides to the MBPTA problem. The first is the technical aspect of computer science that is concerned about designing hardware that is compliant with MBPTA experimentation, and working towards obtaining representative extreme conditions [18,117]. The second one, the focus of this thesis, is the modelling aspect of the estimation of unseen extreme execution times under the upper-bounding condition.…”

Modelling and predicting extreme behavior in critical real-time systems with advanced statistics

“…In my view, there are two sides to the MBPTA problem. The first is the technical aspect of computer science that is concerned about designing hardware that is compliant with MBPTA experimentation, and working towards obtaining representative extreme conditions [18,117]. The second one, the focus of this thesis, is the modelling aspect of the estimation of unseen extreme execution times under the upper-bounding condition.…”

Modelling and predicting extreme behavior in critical real-time systems with advanced statistics