Critical Real-Time Embedded Systems (CRTES) follow a verification and validation process on the timing and functional correctness. This process includes the timing analysis that provides Worst-Case Execution Time (WCET) estimates to provide evidence that the execution time of the system, or parts of it, remain within the deadlines. A key design principle for CRTES is the incremental qualification, whereby each software component can be subject to verification and validation independently of any other component, with obvious benefits for cost. At timing level, this requires time composability, such that the timing behavior of a function is not affected by other functions. CRTES are experiencing an unprecedented growth with rising performance...
The timing verification of real-time single core systems involves a timing analysis step that yields...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Multicore systems excel at providing concurrent execution of applications, giving true parallelism w...
Critical Real-Time Embedded Systems (CRTES) follow a verification and validation process on the timi...
Critical Real-Time Embedded Systems (CRTES) are in charge of controlling fundamental parts of embedd...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
Critical Real-Time Embedded Systems (CRTES) feature performance-demanding functionality. High-perfo...
Artificial system interaction with the real environment is in general based on the deployment of pro...
Cyber-physical systems (CPS) integrate sensing, computing, communication and actuation capabilities ...
This paper presents a modelling approach for the timing behavior of real-time embedded systems (RTES...
Tasks running in MPSoCs experience contention delays when accessing MPSoC’s shared resources, compli...
The demand for increased computing performance is driving industry in critical-embedded systems (CES...
The ability to produce early guaranteed performance (worst-case execution time) estimates for multic...
Multi-core processors are increasingly being considered as a means to provide the performance requir...
There is an increasing interest among real-time systems architects for multi- and many-core accelera...
The timing verification of real-time single core systems involves a timing analysis step that yields...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Multicore systems excel at providing concurrent execution of applications, giving true parallelism w...
Critical Real-Time Embedded Systems (CRTES) follow a verification and validation process on the timi...
Critical Real-Time Embedded Systems (CRTES) are in charge of controlling fundamental parts of embedd...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
Critical Real-Time Embedded Systems (CRTES) feature performance-demanding functionality. High-perfo...
Artificial system interaction with the real environment is in general based on the deployment of pro...
Cyber-physical systems (CPS) integrate sensing, computing, communication and actuation capabilities ...
This paper presents a modelling approach for the timing behavior of real-time embedded systems (RTES...
Tasks running in MPSoCs experience contention delays when accessing MPSoC’s shared resources, compli...
The demand for increased computing performance is driving industry in critical-embedded systems (CES...
The ability to produce early guaranteed performance (worst-case execution time) estimates for multic...
Multi-core processors are increasingly being considered as a means to provide the performance requir...
There is an increasing interest among real-time systems architects for multi- and many-core accelera...
The timing verification of real-time single core systems involves a timing analysis step that yields...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Multicore systems excel at providing concurrent execution of applications, giving true parallelism w...