In this paper methods of dynamically reconfigurable multi-core System-on-chip (SoC) design are discussed, the approaches of system modeling for evaluation of these systems are presented. The dynamically reconfigurable SoC can be developed using the FPGA and the ASIC technologies. The implementations of dynamic reconfiguration using these approaches are essentially different. The system level modeling is used to evaluate the performance of dynamically reconfigured systems in the early stage of their development. The models of dynamically reconfigurable systems have very significant differences from the models of systems without a dynamical reconfiguration. The development of such models may require extensions of existing tools and specificat...
Paiz C, Kettelhoit B, Porrmann M. A design framework for FPGA-based dynamically reconfigurable digit...
With the evolution of technology, the system complexity increased and the application fields of the ...
This book analyzes the challenges in verifying Dynamically Reconfigurable Systems (DRS) with respect...
This chapter describes the SystemC based modelling techniques and tools that support the design of r...
The design space for dynamically reconfigurable SoCs can be seen in three dimensions: 1) the system ...
Kettelhoit B, Porrmann M. A Layer Model for Systematically Designing Dynamically Reconfigurable Syst...
Abstract—In this paper we propose a design methodology to explore dynamic and partial reconfiguratio...
International audienceReconfigurable FPGA based Systems-on-Chip (SoC) architectures are increasingly...
This paper introduces a novel formal model of computation denoted as RecDEVS. It is targeted to the ...
To cope with the increasing demand for higher computational power and flexibility, dynamically re-co...
The ability of some configurable logic devices to modify their hardware during operation has long he...
International audienceAs System-on-Chip (SoC) based embedded systems have become a de-facto industry...
To cope with the increasing demand for higher computational power and flexibility, dynamically re-co...
architectures are increasingly becoming the preferred solution for implementing modern embedded syst...
International audienceDue to continuous hardware/software evolution related to Systems-on-Chip (SoC)...
Paiz C, Kettelhoit B, Porrmann M. A design framework for FPGA-based dynamically reconfigurable digit...
With the evolution of technology, the system complexity increased and the application fields of the ...
This book analyzes the challenges in verifying Dynamically Reconfigurable Systems (DRS) with respect...
This chapter describes the SystemC based modelling techniques and tools that support the design of r...
The design space for dynamically reconfigurable SoCs can be seen in three dimensions: 1) the system ...
Kettelhoit B, Porrmann M. A Layer Model for Systematically Designing Dynamically Reconfigurable Syst...
Abstract—In this paper we propose a design methodology to explore dynamic and partial reconfiguratio...
International audienceReconfigurable FPGA based Systems-on-Chip (SoC) architectures are increasingly...
This paper introduces a novel formal model of computation denoted as RecDEVS. It is targeted to the ...
To cope with the increasing demand for higher computational power and flexibility, dynamically re-co...
The ability of some configurable logic devices to modify their hardware during operation has long he...
International audienceAs System-on-Chip (SoC) based embedded systems have become a de-facto industry...
To cope with the increasing demand for higher computational power and flexibility, dynamically re-co...
architectures are increasingly becoming the preferred solution for implementing modern embedded syst...
International audienceDue to continuous hardware/software evolution related to Systems-on-Chip (SoC)...
Paiz C, Kettelhoit B, Porrmann M. A design framework for FPGA-based dynamically reconfigurable digit...
With the evolution of technology, the system complexity increased and the application fields of the ...
This book analyzes the challenges in verifying Dynamically Reconfigurable Systems (DRS) with respect...