International audienceThis paper presents a cost-effective and formal approach to model and analyze streaming applications on multiprocessor systems-on-chip (MPSoCs). This approach enables to address time requirements, mapping of applications on MPSoCs and system behavior correctness by using abstract clocks of synchronous languages. Compared to usual prototyping and simulation techniques, it is very fast and favors correctness-by-construction. No coding is needed to run and analyze a system, which avoids tedious debugging efforts. It is an ideal complement to existing techniques to deal with large system design spaces
We compare the maximum achievable throughput of different memory organisations of the processing ele...
Abstract—The increasing complexity of modern embedded streaming applications imposes new challenges ...
Design of real-time MPSoC systems including multiple applications is challenging because temporal re...
International audienceThis paper presents a cost-effective and formal approach to model and analyze ...
International audienceThis paper presents a cost-effective and formal approach to model and analyze ...
This paper presents an approach advocating abstract clocks to represent data-intensive applications ...
International audienceThis paper presents an abstract multi-clock oriented reasoning for the rapid p...
This thesis addresses the problem of designing performance and energy efficient embedded streaming s...
International audienceThis paper presents an approach advocating abstract clocks to represent data-i...
This paper presents an abstract clock-based reasoning for the rapid prototyping of embedded applicat...
Streaming applications are an important class of applications in emerging embedded systems such as s...
In this paper we propose a unified model of execution that aims to fill the abstraction level gap be...
International audienceThis paper presents an abstract design and analysis framework for applications...
We compare the maximum achievable throughput of different memory organisations of the processing ele...
Abstract—The increasing complexity of modern embedded streaming applications imposes new challenges ...
Design of real-time MPSoC systems including multiple applications is challenging because temporal re...
International audienceThis paper presents a cost-effective and formal approach to model and analyze ...
International audienceThis paper presents a cost-effective and formal approach to model and analyze ...
This paper presents an approach advocating abstract clocks to represent data-intensive applications ...
International audienceThis paper presents an abstract multi-clock oriented reasoning for the rapid p...
This thesis addresses the problem of designing performance and energy efficient embedded streaming s...
International audienceThis paper presents an approach advocating abstract clocks to represent data-i...
This paper presents an abstract clock-based reasoning for the rapid prototyping of embedded applicat...
Streaming applications are an important class of applications in emerging embedded systems such as s...
In this paper we propose a unified model of execution that aims to fill the abstraction level gap be...
International audienceThis paper presents an abstract design and analysis framework for applications...
We compare the maximum achievable throughput of different memory organisations of the processing ele...
Abstract—The increasing complexity of modern embedded streaming applications imposes new challenges ...
Design of real-time MPSoC systems including multiple applications is challenging because temporal re...