As reconfigurable architectures are gaining an increasing research and industrial attention, there is a significant need for intelligent tools and methodologies to assist designers with exploration and performance evaluation of such architectures. Towards this goal, we make a first attempt to present a generic system-level modeling and simulation framework which can explore and evaluate reconfigurable systems at design-time as well as at runtime. In this paper, we show the methodology behind the framework and study its key features
. Current simulation tools for reconfigurable systems are based on low level simulation of applicati...
Simulations are often used to improve the development and test time of industrial embedded systems i...
A clock-accurate simulation platform is proposed for performance evaluation of reconfigurable proces...
rSesame is a generic modeling and simulation framework which can explore and evaluate reconfigurable...
Recon?gurable architectures are becoming increasingly popular as they bear a promise of combining th...
Performing runtime evaluation together with design time exploration enables a system to be more effi...
Performing runtime evaluation together with design time exploration enables a system to be more effi...
Performing runtime evaluation together with design time exploration enables a system to be more effi...
One of the major challenges of designing heterogeneous reconfigurable systems is to obtain the maxim...
Abstract. Reconfigurable computing has become a hot topic in research due to its high-performance an...
The ever increasing intricacy of the systems and the increasing use of reconfigurble heterogeneous d...
Designing an embedded system implies to look for the right algorithm/architecture compromise dependi...
Significant advances have been made in reconfigurable computing device technology paving the path fo...
Dynamic reconfigurable systems can evolve under various conditions due to changes imposed either by ...
This paper presents a general system-level simulation and testing methodology for reconfigurable Sys...
. Current simulation tools for reconfigurable systems are based on low level simulation of applicati...
Simulations are often used to improve the development and test time of industrial embedded systems i...
A clock-accurate simulation platform is proposed for performance evaluation of reconfigurable proces...
rSesame is a generic modeling and simulation framework which can explore and evaluate reconfigurable...
Recon?gurable architectures are becoming increasingly popular as they bear a promise of combining th...
Performing runtime evaluation together with design time exploration enables a system to be more effi...
Performing runtime evaluation together with design time exploration enables a system to be more effi...
Performing runtime evaluation together with design time exploration enables a system to be more effi...
One of the major challenges of designing heterogeneous reconfigurable systems is to obtain the maxim...
Abstract. Reconfigurable computing has become a hot topic in research due to its high-performance an...
The ever increasing intricacy of the systems and the increasing use of reconfigurble heterogeneous d...
Designing an embedded system implies to look for the right algorithm/architecture compromise dependi...
Significant advances have been made in reconfigurable computing device technology paving the path fo...
Dynamic reconfigurable systems can evolve under various conditions due to changes imposed either by ...
This paper presents a general system-level simulation and testing methodology for reconfigurable Sys...
. Current simulation tools for reconfigurable systems are based on low level simulation of applicati...
Simulations are often used to improve the development and test time of industrial embedded systems i...
A clock-accurate simulation platform is proposed for performance evaluation of reconfigurable proces...