We have developed SPARTS, a simulator of a generic embedded real-time device. It is designed to be extensible to accommodate different task properties, scheduling algorithms and/or hardware models for the wide variety of applications. SPARTS was developed to help the community investigate the behaviour of the real-time embedded systems and to quantify the associated constraints/overheads
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
International audienceSophisticated applications turn out to be executed upon more than one CPU for ...
In this paper, we present PARTSim, an open-source power/thermal-aware simulator for embedded real-ti...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
This paper presents the modeling of embedded systems with SimBed, an execution-driven simulation tes...
Real-time scheduling algorithms, such as Rate Monotonic and Earliest Deadline First, guarantee that ...
In this report, we present a free software written in Java, YARTISS, which is a real-time multiproce...
In this work, we introduce a power-consumption model for heterogeneous multicore architectures that ...
International audienceNumerous scheduling algorithms were and still are designed in order to handle ...
In this paper, we investigate the impact of scheduler overhead on energy-efficient, real-time schedu...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
International audienceIn this paper, we present SimSo, a simulator designed for the comparison and t...
The aspects of real-time embedded computing are explored with the focus on novel real-time schedulin...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
International audienceSophisticated applications turn out to be executed upon more than one CPU for ...
In this paper, we present PARTSim, an open-source power/thermal-aware simulator for embedded real-ti...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
This paper presents the modeling of embedded systems with SimBed, an execution-driven simulation tes...
Real-time scheduling algorithms, such as Rate Monotonic and Earliest Deadline First, guarantee that ...
In this report, we present a free software written in Java, YARTISS, which is a real-time multiproce...
In this work, we introduce a power-consumption model for heterogeneous multicore architectures that ...
International audienceNumerous scheduling algorithms were and still are designed in order to handle ...
In this paper, we investigate the impact of scheduler overhead on energy-efficient, real-time schedu...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
International audienceIn this paper, we present SimSo, a simulator designed for the comparison and t...
The aspects of real-time embedded computing are explored with the focus on novel real-time schedulin...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...