International audienceDynamic reconfiguration is possible on both fine-grain and coarse-grain architectures. One of the used methodology used consists in the use of multi-context architectures. Unfortunately, the multi- ple contexts bring power and area overhead. This paper introduces the Dynamic Unifier and reConfigurable blocK (DUCK) concept, a new structure to perform efficiently dynamic reconfigura- tion on both custom designed fine-grain and coarse grain architectures. The DUCK allows to sepa- rate the configuration path and the configuration registers which facilitates simultaneous configuration and computing steps. The reconfiguration process is presented in detail, and synthesis results are given for different structures. Our soluti...
The most common reconfigurable devices today are Field Programmable Gate Arrays, FPGAs. Aim of this ...
Given all its merits and potential, Reconfigurable Computing has attracted lots of research work. Re...
This paper discusses the implementation of modulation chains for multi-standard communications on a ...
International audienceDynamic reconfiguration is possible on both fine-grain and coarse-grain archit...
International audienceDynamic reconfiguration on fine-grained architecture can only be reached by mu...
This paper proposes a novel technique of dynamic context management scheme for coarse-grained reconf...
Dynamic reconfiguration of FPGAs enables systems to adapt to changing demands. This paper concentrat...
Constant evolution of applications and an ever increasing need for performances make necessary the u...
PhD (Computer and Electronic Engineering), North-West University, Potchefstroom Campus, 2015The focu...
The effective use of dynamic reconfiguration re-quires the designer to address many implementation i...
The concept of dynamic reconfigurability combines advantages of hardware and software. The goal is t...
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
Coarse-Grained Reconfigurable Arrays (CGRAs) are programmable logic devices comprising a two-dimensi...
The demands in terms of processing performance, communication bandwidth and real-time throughput of ...
The most common reconfigurable devices today are Field Programmable Gate Arrays, FPGAs. Aim of this ...
Given all its merits and potential, Reconfigurable Computing has attracted lots of research work. Re...
This paper discusses the implementation of modulation chains for multi-standard communications on a ...
International audienceDynamic reconfiguration is possible on both fine-grain and coarse-grain archit...
International audienceDynamic reconfiguration on fine-grained architecture can only be reached by mu...
This paper proposes a novel technique of dynamic context management scheme for coarse-grained reconf...
Dynamic reconfiguration of FPGAs enables systems to adapt to changing demands. This paper concentrat...
Constant evolution of applications and an ever increasing need for performances make necessary the u...
PhD (Computer and Electronic Engineering), North-West University, Potchefstroom Campus, 2015The focu...
The effective use of dynamic reconfiguration re-quires the designer to address many implementation i...
The concept of dynamic reconfigurability combines advantages of hardware and software. The goal is t...
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
Coarse-Grained Reconfigurable Arrays (CGRAs) are programmable logic devices comprising a two-dimensi...
The demands in terms of processing performance, communication bandwidth and real-time throughput of ...
The most common reconfigurable devices today are Field Programmable Gate Arrays, FPGAs. Aim of this ...
Given all its merits and potential, Reconfigurable Computing has attracted lots of research work. Re...
This paper discusses the implementation of modulation chains for multi-standard communications on a ...