MPSoCs offer more and more processing capability to embedded systems. As a result, an increasing number of applications run on one system, sharing MPSoC resources. Some of these applications are streaming applications and may have real-time demands, e.g., guaranteed throughput, hence their temporal behavior has to be verified at design-time. Moreover, applications may start and stop at run-time, creating a set of use-cases. The interference at shared resources introduces fluctuations in the temporal behavior of applications that may invalidate the results of the design-time verification. The CompSoC platform eliminates this interference by virtualizing shared resources, enabling independent, per-application design and verification. However,...
Embedded systems often contain multiple applications, some of which have real-time requirements and ...
The design of new embedded systems is getting more and more complex as more functionality is integra...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
Multi-Processor Systems on a Chip (MPSoCs) are suitable platforms for the implementation of complex ...
The number of applications running concurrently on a MPSoC is ever increasing. Moreover, the set of ...
Multiprocessor Systems on a Chip (MPSoCs) are suitable platforms for executing complex embedded appl...
Embedded streaming applications specified using parallel Models of Computation (MoC) often contain a...
With the advent of multi-processor systems-on-chip, the interest in process migration is again on th...
Multi-processors systems on chip (MPSOC) platforms emerged in embedded systems as hardware solutions...
Systems on a Chip concurrently execute multiple applications that may start and stop at run-time, cr...
The application workloads in modern MPSoC-based embedded systems are becoming increasingly dynamic. ...
ISBN 978-1-4244-2748-2International audienceHeterogeneous MPSoC architectures can provide higher per...
In recent years, we are witnessing the dawning of the Multi-Processor Systemon- Chip (MPSoC) era. In...
Multi-processor-system-on-chips (MPSoCs) with different numbers of cores have become increasingly po...
Embedded systems often contain multiple applications, some of which have real-time requirements and ...
The design of new embedded systems is getting more and more complex as more functionality is integra...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
Multi-Processor Systems on a Chip (MPSoCs) are suitable platforms for the implementation of complex ...
The number of applications running concurrently on a MPSoC is ever increasing. Moreover, the set of ...
Multiprocessor Systems on a Chip (MPSoCs) are suitable platforms for executing complex embedded appl...
Embedded streaming applications specified using parallel Models of Computation (MoC) often contain a...
With the advent of multi-processor systems-on-chip, the interest in process migration is again on th...
Multi-processors systems on chip (MPSOC) platforms emerged in embedded systems as hardware solutions...
Systems on a Chip concurrently execute multiple applications that may start and stop at run-time, cr...
The application workloads in modern MPSoC-based embedded systems are becoming increasingly dynamic. ...
ISBN 978-1-4244-2748-2International audienceHeterogeneous MPSoC architectures can provide higher per...
In recent years, we are witnessing the dawning of the Multi-Processor Systemon- Chip (MPSoC) era. In...
Multi-processor-system-on-chips (MPSoCs) with different numbers of cores have become increasingly po...
Embedded systems often contain multiple applications, some of which have real-time requirements and ...
The design of new embedded systems is getting more and more complex as more functionality is integra...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...