Formal System Design (ForSyDe) aims to bring the design of multiprocessor systems-on-chip (MPSoCs) to a higher level of abstraction and bridge the abstraction gap by transformational design refinement. The current research is focused on a correct-by-construction design flow, which requires design space exploration including formal models of computation and timepredictable platforms. The latter is widely used for hard real-time systems. In order to make a platform time-predictable, all components, as well as inter-core communication, need to have the worst-case execution time (WCET) estimations and be easily analyzed. Time-division multiplexing (TDM) networks can precisely allocate network resources at each time point and further provide tim...
There are many benefits to using a virtual platform in designing a system, network structure, or eve...
The requirements of safety-critical real-time embedded systems pose unique challenges on their desig...
ISBN 2-84813-034-2Current technologies enable the integration of more and more complex systems on a ...
Formal System Design (ForSyDe) aims to bring the design of multiprocessor systems-on-chip (MPSoCs) t...
Multicore systems excel at providing concurrent execution of applications, giving true parallelism w...
Worst-case execution time (WCET) analysis is crucial for designing hard real-time systems. While the...
In spite of hard real-time embedded systems often being seemingly simple, modern embedded system des...
The Silago concept introduces a hardware-centric platform that is based on coarse-grained reconfigur...
Today’s embedded systems require more and more performance but they are still required to meet power...
Multiprocessor system-on-chip (MPSoC) designs utilize the available technology and communication arc...
This thesis makes a contribution towards cutting the cost of development of real-time systems, The d...
L’évolution des contraintes applicatives imposent des améliorations continues sur les performances e...
The thesis investigates the Message Passing Interface (MPI) support for shared memory programming on...
The design of multimedia systems has become increasingly complex due to consumer requirements. Consu...
To derive safe bounds on worst-case execution times (WCETs), all components of a computer system nee...
There are many benefits to using a virtual platform in designing a system, network structure, or eve...
The requirements of safety-critical real-time embedded systems pose unique challenges on their desig...
ISBN 2-84813-034-2Current technologies enable the integration of more and more complex systems on a ...
Formal System Design (ForSyDe) aims to bring the design of multiprocessor systems-on-chip (MPSoCs) t...
Multicore systems excel at providing concurrent execution of applications, giving true parallelism w...
Worst-case execution time (WCET) analysis is crucial for designing hard real-time systems. While the...
In spite of hard real-time embedded systems often being seemingly simple, modern embedded system des...
The Silago concept introduces a hardware-centric platform that is based on coarse-grained reconfigur...
Today’s embedded systems require more and more performance but they are still required to meet power...
Multiprocessor system-on-chip (MPSoC) designs utilize the available technology and communication arc...
This thesis makes a contribution towards cutting the cost of development of real-time systems, The d...
L’évolution des contraintes applicatives imposent des améliorations continues sur les performances e...
The thesis investigates the Message Passing Interface (MPI) support for shared memory programming on...
The design of multimedia systems has become increasingly complex due to consumer requirements. Consu...
To derive safe bounds on worst-case execution times (WCETs), all components of a computer system nee...
There are many benefits to using a virtual platform in designing a system, network structure, or eve...
The requirements of safety-critical real-time embedded systems pose unique challenges on their desig...
ISBN 2-84813-034-2Current technologies enable the integration of more and more complex systems on a ...