Add to ORKGCritical Real-Time Embedded Systems (CRTES) feature performance-demanding functionality. High-performance hardware and complex software can provide such functionality, but the use of aggressive technology challenges time-predictability. Our work focuses on the investigation and development of (1) hardware mechanisms to control inter-task interferences in shared timerandomized caches and (2) manycore network-on-chip designs meeting the requirements of Probabilistic Timing Analysis (PTA)
Honourable Mention for the EuroSys Roger Needham PhD Award 2018, atorgada per la European Instituti...
Critical Real-Time Embedded Systems (CRTES) industry needs increasingly complex hardware to attain t...
There is an increasing interest among real-time systems architects for multi- and many-core accelera...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
MBTA studies the system’s timing in analysis scenarios, to determine upper bounds to the worst-case ...
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...
The use of networks-on-chip (NoC) in real-time safety-critical multicore systems challenges deriving...
Over the last years, we are witnessing the steady and rapid growth of Critica! Real-Time Embedded Sy...
Application requirements in High-Performance Computing (HPC) are becoming increasingly exacting, and...
Measurement-Based Probabilistic Timing Analysis (MBPTA) has been shown to be an industrially viable ...
International audienceMany/multi-cores architectures provide tremendous increase in computation powe...
Application requirements in High-Performance Computing (HPC) are becoming increasingly exacting, and...
The use of increasingly complex hardware and software platforms in response to the ever rising perfo...
Honourable Mention for the EuroSys Roger Needham PhD Award 2018, atorgada per la European Instituti...
Critical Real-Time Embedded Systems (CRTES) industry needs increasingly complex hardware to attain t...
There is an increasing interest among real-time systems architects for multi- and many-core accelera...
Industry developing Critical Real-Time Embedded Systems (CRTES), such as Aerospace, Space, Automotiv...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
MBTA studies the system’s timing in analysis scenarios, to determine upper bounds to the worst-case ...
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...
The use of networks-on-chip (NoC) in real-time safety-critical multicore systems challenges deriving...
Over the last years, we are witnessing the steady and rapid growth of Critica! Real-Time Embedded Sy...
Application requirements in High-Performance Computing (HPC) are becoming increasingly exacting, and...
Measurement-Based Probabilistic Timing Analysis (MBPTA) has been shown to be an industrially viable ...
International audienceMany/multi-cores architectures provide tremendous increase in computation powe...
Application requirements in High-Performance Computing (HPC) are becoming increasingly exacting, and...
The use of increasingly complex hardware and software platforms in response to the ever rising perfo...
Honourable Mention for the EuroSys Roger Needham PhD Award 2018, atorgada per la European Instituti...
Critical Real-Time Embedded Systems (CRTES) industry needs increasingly complex hardware to attain t...
There is an increasing interest among real-time systems architects for multi- and many-core accelera...