The Sesame modeling and simulation framework aims at early and thus efficient system-level design space exploration of embedded multimedia system architectures. So far, Sesame only supported performance evaluation when mapping a single application onto a (multi-processor) architecture at the time. But since modern multimedia embedded systems are increasingly multi-tasking, we need to address the modeling of effects of executing multiple applications concurrently in our system-level performance models. To this end, this paper conceptually describes two multi-application workload modeling techniques for the Sesame framework. One technique is based on the use of synthetic application workloads while the second technique deploys only real appli...
The design of multimedia platforms is becoming increasingly more complex. Modern multimedia systems ...
The high complexity of modern embedded systems impels designers of such systems to model and simulat...
Modern multimedia systems are becoming increasingly multiprocessor and heterogeneous to match the hi...
The Sesame modeling and simulation framework aims at efficient system-level design space exploration...
Future embedded system products, e.g. smart handheld mobile terminals, will accommodate a large numb...
Abstract—Future embedded system products, e.g. smart hand-held mobile terminals, will accommodate a ...
One of the challenges during embedded system design is the application driven design. Due to the app...
Increasing number of concurrent applications in future mobile devices will be based on parallel hete...
Performance evaluation plays a critical role in the optimisation and validation of integrated applic...
Multi-threaded programming is gaining popularity as general purpose processors have evolved to multi...
The Sesame system-level simulation framework targets efficient design space exploration of embedded ...
Modern mobile nomadic devices for example internet tablets and high end mobile phones support divers...
Future embedded system products, e.g. smart handheld mobile terminals, will accommodate a large numb...
Evaluation of platform performance is critical in the optimisation and validation of integrated appl...
Future mobile devices will be based on heterogeneous multiprocessing platforms accommodating several...
The design of multimedia platforms is becoming increasingly more complex. Modern multimedia systems ...
The high complexity of modern embedded systems impels designers of such systems to model and simulat...
Modern multimedia systems are becoming increasingly multiprocessor and heterogeneous to match the hi...
The Sesame modeling and simulation framework aims at efficient system-level design space exploration...
Future embedded system products, e.g. smart handheld mobile terminals, will accommodate a large numb...
Abstract—Future embedded system products, e.g. smart hand-held mobile terminals, will accommodate a ...
One of the challenges during embedded system design is the application driven design. Due to the app...
Increasing number of concurrent applications in future mobile devices will be based on parallel hete...
Performance evaluation plays a critical role in the optimisation and validation of integrated applic...
Multi-threaded programming is gaining popularity as general purpose processors have evolved to multi...
The Sesame system-level simulation framework targets efficient design space exploration of embedded ...
Modern mobile nomadic devices for example internet tablets and high end mobile phones support divers...
Future embedded system products, e.g. smart handheld mobile terminals, will accommodate a large numb...
Evaluation of platform performance is critical in the optimisation and validation of integrated appl...
Future mobile devices will be based on heterogeneous multiprocessing platforms accommodating several...
The design of multimedia platforms is becoming increasingly more complex. Modern multimedia systems ...
The high complexity of modern embedded systems impels designers of such systems to model and simulat...
Modern multimedia systems are becoming increasingly multiprocessor and heterogeneous to match the hi...