Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logic configurations as opposed to evolving the intra-cell routing. Since the majority of transistors in a typical FPGA are dedicated to interconnect, nearly 80% according to one estimate, evolutionary faultrecovery systems should benefit by accommodating routing. In this paper, we propose an evolutionary fault-recovery system employing a genetic representation that takes into account both logic and routing configurations. Experiments were run using a software model of the Xilinx Virtex FPGA. We report that using four Virtex combinational logic blocks, we were able to evolve a 100% accurate quadrature decoder finite state machine in the presence of ...
This paper presents a new approach to on-line fault tolerance via reconfiguration for the systems ma...
A hardware/software platform for intrinsic evolvable hardware is designed and evaluated for digital ...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
Most evolutionary approaches to fault recovery in FPGA focus on evolving alternative logic configura...
Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logic configur...
Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logic configur...
Abstract. Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logi...
In recent years the application space of reconfigurable devices has grown to include many platforms ...
In this dissertation, a novel self-repair approach based on Consensus Based Evaluation (CBE) for aut...
In this work, Field-Programmable Gate Array (FPGA) reconfigurability is exploited to realize autonom...
Fault tolerance is a crucial operational aspect of biological systems and the self-repair capabiliti...
Success has been demonstrated previously in the use of Genetic Algorithms (GAs) for autonomous fault...
A quantitative stochastic design technique is developed for evolvable hardware systems with self-rep...
A hardware/software platform for intrinsic evolvable hardware is designed and evaluated for digital ...
Abstract. We present a new approach that is able to produce an increased fault tolerance in bio-insp...
This paper presents a new approach to on-line fault tolerance via reconfiguration for the systems ma...
A hardware/software platform for intrinsic evolvable hardware is designed and evaluated for digital ...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
Most evolutionary approaches to fault recovery in FPGA focus on evolving alternative logic configura...
Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logic configur...
Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logic configur...
Abstract. Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logi...
In recent years the application space of reconfigurable devices has grown to include many platforms ...
In this dissertation, a novel self-repair approach based on Consensus Based Evaluation (CBE) for aut...
In this work, Field-Programmable Gate Array (FPGA) reconfigurability is exploited to realize autonom...
Fault tolerance is a crucial operational aspect of biological systems and the self-repair capabiliti...
Success has been demonstrated previously in the use of Genetic Algorithms (GAs) for autonomous fault...
A quantitative stochastic design technique is developed for evolvable hardware systems with self-rep...
A hardware/software platform for intrinsic evolvable hardware is designed and evaluated for digital ...
Abstract. We present a new approach that is able to produce an increased fault tolerance in bio-insp...
This paper presents a new approach to on-line fault tolerance via reconfiguration for the systems ma...
A hardware/software platform for intrinsic evolvable hardware is designed and evaluated for digital ...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...