International audienceIn a mobile society, more and more devices need to continuously adapt to changing environments. Such mode switches can be smoothly done in software using a general purpose or digital signal processor. However hardware components are required to cope with throughput and power constraints. Reconfigurable hardware technologies like FPGA offer partial reconfiguration at run-time but require too long reconfiguration times to rapidly changing applications. In this paper we propose an automated design flow to implement multiple configuration and multi-constraint systems into a single circuit using conventional hardware technologies
Abstract—Multi-context FPGAs are reconfigurable FPGAs that store two or more on-chip configuration m...
DSP Application needs to speed-up in computation time can be achieved by assigning complex computati...
Dynamic reconfiguration of FPGAs enables systems to adapt to changing demands. This paper concentrat...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
In a mobile society, more and more devices need to continuously adapt to changing environments. Such...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
In this paper, we present a novel design methodology for synthesizing multiple configurations (or mo...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
We present a novel design methodology for synthesiz-ing multiple configurations (or modes) into a si...
Abstract—In this paper we propose a design methodology to explore dynamic and partial reconfiguratio...
18 pagesInternational audienceReconfigurable computing is certainly one of the most important emergi...
International audienceIn this paper, we propose a design methodology for implementing a multimode (o...
This thesis studies the design of an architectural platform for realizing a set of selected applicat...
Abstract — In this paper we present an automatic design gener-ation methodology for heterogeneous ar...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
Abstract—Multi-context FPGAs are reconfigurable FPGAs that store two or more on-chip configuration m...
DSP Application needs to speed-up in computation time can be achieved by assigning complex computati...
Dynamic reconfiguration of FPGAs enables systems to adapt to changing demands. This paper concentrat...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
In a mobile society, more and more devices need to continuously adapt to changing environments. Such...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
In this paper, we present a novel design methodology for synthesizing multiple configurations (or mo...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
We present a novel design methodology for synthesiz-ing multiple configurations (or modes) into a si...
Abstract—In this paper we propose a design methodology to explore dynamic and partial reconfiguratio...
18 pagesInternational audienceReconfigurable computing is certainly one of the most important emergi...
International audienceIn this paper, we propose a design methodology for implementing a multimode (o...
This thesis studies the design of an architectural platform for realizing a set of selected applicat...
Abstract — In this paper we present an automatic design gener-ation methodology for heterogeneous ar...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
Abstract—Multi-context FPGAs are reconfigurable FPGAs that store two or more on-chip configuration m...
DSP Application needs to speed-up in computation time can be achieved by assigning complex computati...
Dynamic reconfiguration of FPGAs enables systems to adapt to changing demands. This paper concentrat...