Existing timing analysis techniques to derive Worst-Case Execution Time (WCET) estimates assume that hardware in the target platform (e.g., the CPU) is fault-free. Given the performance requirements increase in current Critical Real-Time Embedded Systems (CRTES), the use of high-performance features and smaller transistors in current and future hardware becomes a must. The use of smaller transistors helps providing more performance while maintaining low energy budgets, however, hardware fault rates increase noticeably, affecting the temporal behaviour of the system in general, and WCET in particular. In this paper, we reconcile these two emergent needs of CRTES, namely, tight (and trustworthy) WCET estimates and the use of hardware implemen...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
Application requirements in High-Performance Computing (HPC) are becoming increasingly exacting, and...
Car manufacturers relentlessly replace or augment the functionality of mechanical subsystems with el...
Abstract—Existing timing analysis techniques to derive Worst-Case Execution Time (WCET) estimates as...
Critical Real-Time Embedded Systems (CRTES) industry needs increasingly complex hardware to attain t...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
Critical Real-Time Embedded Systems require functional and timing validation to prove that they will...
Estimating the worst-case execution time (WCET) of tasks in a system is an important step in timing ...
The difficulties in estimating the Worst-Case Execution Time (WCET) of applications make the use of ...
Critical real-time embedded systems feature complex safety-related, performance-demanding functional...
International audienceStatic timing analysis is the state-of-the-art practice of ascertaining the ti...
Timeliness is a critical aspect of real-time systems since both functional and temporal properties m...
As time-critical systems require timing guarantees, Worst-Case Execution Times (WCET) have to be emp...
Design and analysis of real-time systems is heavily based on knowing worst-case execution times (WCE...
Despite the scientic advances in the worst-case execution-time (WCET) analysis, there is hardly any ...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
Application requirements in High-Performance Computing (HPC) are becoming increasingly exacting, and...
Car manufacturers relentlessly replace or augment the functionality of mechanical subsystems with el...
Abstract—Existing timing analysis techniques to derive Worst-Case Execution Time (WCET) estimates as...
Critical Real-Time Embedded Systems (CRTES) industry needs increasingly complex hardware to attain t...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
Critical Real-Time Embedded Systems require functional and timing validation to prove that they will...
Estimating the worst-case execution time (WCET) of tasks in a system is an important step in timing ...
The difficulties in estimating the Worst-Case Execution Time (WCET) of applications make the use of ...
Critical real-time embedded systems feature complex safety-related, performance-demanding functional...
International audienceStatic timing analysis is the state-of-the-art practice of ascertaining the ti...
Timeliness is a critical aspect of real-time systems since both functional and temporal properties m...
As time-critical systems require timing guarantees, Worst-Case Execution Times (WCET) have to be emp...
Design and analysis of real-time systems is heavily based on knowing worst-case execution times (WCE...
Despite the scientic advances in the worst-case execution-time (WCET) analysis, there is hardly any ...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
Application requirements in High-Performance Computing (HPC) are becoming increasingly exacting, and...
Car manufacturers relentlessly replace or augment the functionality of mechanical subsystems with el...