Evolvable hardware is a system that modifies its architecture and behavior to adapt with changes of the environment. It is formed by reconfigurable processing elements driven by an evolutionary algorithm. In this paper, we study a reconfigurable HexCell-based systolic array architecture for evolvable systems on FPGA. HexCell is a processing element with a tile-able hexagonal-shaped cell for reconfigurable systolic arrays on FPGAs. The cell has three input ports feed into an internal functional-unit connected to three output ports. The functional-unit is configured using dynamic partial reconfiguration (DPR), and the output ports, in contrast, are configured using virtual reconfiguration circuit (VRC). Our proposed architecture combines the ...
Abstract:- Evolvable Hardware is a hardware which modifies its own structure in order to adapt to th...
resources of logic, memory, and processor cores on the same fabric. This platform is suitable for im...
We have designed a highly parallel design for a simple genetic algorithm using a pipeline of systoli...
Evolvable hardware is a type of hardware that is able to adapt to different problems by going throug...
Evolvable hardware (EH) is an interesting alternative to conventional digital circuit design, since ...
Evolvable hardware allows the generation of circuits that are adapted to specific problems by using ...
This paper addresses the modelling and validation of an evolvable hardware architecture which can be...
Evolvable hardware (EHW) is a powerful autonomous system for adapting and finding solutions within a...
In this paper, an architecture based on a scalable and flexible set of Evolvable Processing arrays i...
Evolvable Hardware (EH) is a technique that consists of using reconfigurable hardware devices whose ...
We advocate the use of systolic design techniques to create custom hardware for Custom Computing Mac...
There has recently been much research interest in the concept of evolvable hardware —partly due to t...
Adaptive hardware requires some reconfiguration capabilities. FPGAs with native dynamic partial reco...
Modern FPGAs with Dynamic and Partial Reconfiguration (DPR) feature allow the implementation of comp...
Since the birth of the Evolvable Hardware (EHW) research field (1993), many FPGA-based evolvable har...
Abstract:- Evolvable Hardware is a hardware which modifies its own structure in order to adapt to th...
resources of logic, memory, and processor cores on the same fabric. This platform is suitable for im...
We have designed a highly parallel design for a simple genetic algorithm using a pipeline of systoli...
Evolvable hardware is a type of hardware that is able to adapt to different problems by going throug...
Evolvable hardware (EH) is an interesting alternative to conventional digital circuit design, since ...
Evolvable hardware allows the generation of circuits that are adapted to specific problems by using ...
This paper addresses the modelling and validation of an evolvable hardware architecture which can be...
Evolvable hardware (EHW) is a powerful autonomous system for adapting and finding solutions within a...
In this paper, an architecture based on a scalable and flexible set of Evolvable Processing arrays i...
Evolvable Hardware (EH) is a technique that consists of using reconfigurable hardware devices whose ...
We advocate the use of systolic design techniques to create custom hardware for Custom Computing Mac...
There has recently been much research interest in the concept of evolvable hardware —partly due to t...
Adaptive hardware requires some reconfiguration capabilities. FPGAs with native dynamic partial reco...
Modern FPGAs with Dynamic and Partial Reconfiguration (DPR) feature allow the implementation of comp...
Since the birth of the Evolvable Hardware (EHW) research field (1993), many FPGA-based evolvable har...
Abstract:- Evolvable Hardware is a hardware which modifies its own structure in order to adapt to th...
resources of logic, memory, and processor cores on the same fabric. This platform is suitable for im...
We have designed a highly parallel design for a simple genetic algorithm using a pipeline of systoli...