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 to have high impact in performance, and in fact, current CRTES include multicores usually with several levels of cache. In this line, this Thesis aims at increasing the guaranteed performance of CRTES by using techniques for caches buil...
Schedulability analysis for real-time systems has been the subject of prominent research over the pa...
Premi extraordinari doctorat UPC curs 2017-2018. Àmbit d’Enginyeria de les TICArtificial system inte...
Cache randomization per se, and its viability for probabilistic timing analysis (PTA) of critical re...
Critical Real-Time Embedded Systems (CRTES) follow a verification and validation process on the timi...
Over the last years, we are witnessing the steady and rapid growth of Critica! Real-Time Embedded Sy...
Honourable Mention for the EuroSys Roger Needham PhD Award 2018, atorgada per la European Instituti...
Critical Real-Time Embedded Systems (CRTES) are in charge of controlling fundamental parts of embedd...
An increasing variety of emerging systems relentlessly replaces or augments the functionality of mec...
Enabling timing analysis for caches has been pursued by the critical real-time embedded systems (CRT...
Real-time systems are ubiquitous in our everyday life, e.g., in safety-critical domains such as auto...
Critical Real-Time Embedded Systems (CRTES) feature performance-demanding functionality. High-perfo...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
Real-time systems are witnessing a significant increase in critical software's size, complexity, and...
Cache memories have a huge impact on software's worst-case execution time (WCET). While enabling the...
© 2013 IEEE. The increasing performance demand in the critical real-time embedded systems (CRTES) do...
Schedulability analysis for real-time systems has been the subject of prominent research over the pa...
Premi extraordinari doctorat UPC curs 2017-2018. Àmbit d’Enginyeria de les TICArtificial system inte...
Cache randomization per se, and its viability for probabilistic timing analysis (PTA) of critical re...
Critical Real-Time Embedded Systems (CRTES) follow a verification and validation process on the timi...
Over the last years, we are witnessing the steady and rapid growth of Critica! Real-Time Embedded Sy...
Honourable Mention for the EuroSys Roger Needham PhD Award 2018, atorgada per la European Instituti...
Critical Real-Time Embedded Systems (CRTES) are in charge of controlling fundamental parts of embedd...
An increasing variety of emerging systems relentlessly replaces or augments the functionality of mec...
Enabling timing analysis for caches has been pursued by the critical real-time embedded systems (CRT...
Real-time systems are ubiquitous in our everyday life, e.g., in safety-critical domains such as auto...
Critical Real-Time Embedded Systems (CRTES) feature performance-demanding functionality. High-perfo...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
Real-time systems are witnessing a significant increase in critical software's size, complexity, and...
Cache memories have a huge impact on software's worst-case execution time (WCET). While enabling the...
© 2013 IEEE. The increasing performance demand in the critical real-time embedded systems (CRTES) do...
Schedulability analysis for real-time systems has been the subject of prominent research over the pa...
Premi extraordinari doctorat UPC curs 2017-2018. Àmbit d’Enginyeria de les TICArtificial system inte...
Cache randomization per se, and its viability for probabilistic timing analysis (PTA) of critical re...