Adaptive hardware requires some reconfiguration capabilities. FPGAs with native dynamic partial reconfiguration (DPR) support pose a dilemma for system designers: whether to use native DPR or to build a virtual reconfigurable circuit (VRC) on top of the FPGA which allows selecting alternative functions by a multiplexing scheme. This solution allows much faster reconfiguration, but with higher resource overhead. This paper discusses the advantages of both implementations for a 2D image processing matrix. Results show how higher operating frequency is obtained for the matrix using DPR. However, this is compensated in the VRC during evolution due to the comparatively negligible reconfiguration time. Regarding area, the DPR implementation consu...
The effective use of dynamic reconfiguration re-quires the designer to address many implementation i...
Extending product functionality and lifetime requires constant addition of new features to satisfy t...
Since the birth of the Evolvable Hardware (EHW) research field (1993), many FPGA-based evolvable har...
Modern FPGAs with Dynamic and Partial Reconfiguration (DPR) feature allow the implementation of comp...
This paper addresses the modelling and validation of an evolvable hardware architecture which can be...
Evolvable hardware (EH) is an interesting alternative to conventional digital circuit design, since ...
In this paper, an architecture based on a scalable and flexible set of Evolvable Processing arrays i...
Signal and image processing applications require a lot of computing resources. For low-volume applic...
Evolvable Hardware (EH) is a technique that consists of using reconfigurable hardware devices whose ...
This paper presents a virtual prototyping methodology for Dynamically Reconfigurable (DR) FPGAs. The...
Evolvable hardware is a system that modifies its architecture and behavior to adapt with changes of ...
In digital hardware design, reconfigurable devices such as Field Programmable Gate Arrays (FPGAs) al...
Since 1992, year where Hugo de Garis has published the first paper on Evolvable Hardware (EHW), a pe...
International audienceOne goal of reconfiguration is to save power and occupied resources. In this p...
Evolvable hardware is a type of hardware that is able to adapt to different problems by going throug...
The effective use of dynamic reconfiguration re-quires the designer to address many implementation i...
Extending product functionality and lifetime requires constant addition of new features to satisfy t...
Since the birth of the Evolvable Hardware (EHW) research field (1993), many FPGA-based evolvable har...
Modern FPGAs with Dynamic and Partial Reconfiguration (DPR) feature allow the implementation of comp...
This paper addresses the modelling and validation of an evolvable hardware architecture which can be...
Evolvable hardware (EH) is an interesting alternative to conventional digital circuit design, since ...
In this paper, an architecture based on a scalable and flexible set of Evolvable Processing arrays i...
Signal and image processing applications require a lot of computing resources. For low-volume applic...
Evolvable Hardware (EH) is a technique that consists of using reconfigurable hardware devices whose ...
This paper presents a virtual prototyping methodology for Dynamically Reconfigurable (DR) FPGAs. The...
Evolvable hardware is a system that modifies its architecture and behavior to adapt with changes of ...
In digital hardware design, reconfigurable devices such as Field Programmable Gate Arrays (FPGAs) al...
Since 1992, year where Hugo de Garis has published the first paper on Evolvable Hardware (EHW), a pe...
International audienceOne goal of reconfiguration is to save power and occupied resources. In this p...
Evolvable hardware is a type of hardware that is able to adapt to different problems by going throug...
The effective use of dynamic reconfiguration re-quires the designer to address many implementation i...
Extending product functionality and lifetime requires constant addition of new features to satisfy t...
Since the birth of the Evolvable Hardware (EHW) research field (1993), many FPGA-based evolvable har...