In this work, Field-Programmable Gate Array (FPGA) reconfigurability is exploited to realize autonomous fault recovery in mission-critical applications at runtime. The proposed Netlist-Driven Evolutionary Refurbishment technique utilizes design-time information from the circuit netlist to constrain the search space of the algorithm by up to 98.1 percent in terms of the chromosome length representing reconfigurable logic elements. This facilitates refurbishment of relatively large-sized FPGA circuits as compared to previous works. Hence, the scalability issue associated with Evolvable Hardware-Based refurbishment is addressed and improved. Experiments are conducted with multiple circuits from the MCNC benchmark suite to validate the approach...
While the fault repair capability of Evolvable Hardware (EH) approaches have been previously demonst...
Abstract:- Evolvable hardware (EHW) refers to self-reconfiguration hardware design, where the config...
In recent years the application space of reconfigurable devices has grown to include many platforms ...
Reconfigurable logic or Field-Programmable Gate Array (FPGA) devices have the ability to dynamically...
In this dissertation, a novel self-repair approach based on Consensus Based Evaluation (CBE) for aut...
An evolvable hardware paradigm for autonomic regeneration called Competitive Runtime Reconfiguration...
An evolvable hardware paradigm for autonomic regeneration called Competitive Runtime Reconfiguration...
An autonomous recovery approach directed towards improving the availability of reconfigurable system...
Existing scrubbing techniques for SEU mitigation on FPGAs do not guarantee an error-free operation a...
The area of fault-handling in reconfigurable logic devices is one that continues to receive research...
The configuration memory of SRAM-based Field-Programmable Gate Arrays (FPGAs) is susceptible to radi...
A quantitative stochastic design technique is developed for evolvable hardware systems with self-rep...
Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logic configu...
Most evolutionary approaches to fault recovery in FPGA focus on evolving alternative logic configura...
While the fault repair capability of Evolvable Hardware (EH) approaches have been previously demonst...
While the fault repair capability of Evolvable Hardware (EH) approaches have been previously demonst...
Abstract:- Evolvable hardware (EHW) refers to self-reconfiguration hardware design, where the config...
In recent years the application space of reconfigurable devices has grown to include many platforms ...
Reconfigurable logic or Field-Programmable Gate Array (FPGA) devices have the ability to dynamically...
In this dissertation, a novel self-repair approach based on Consensus Based Evaluation (CBE) for aut...
An evolvable hardware paradigm for autonomic regeneration called Competitive Runtime Reconfiguration...
An evolvable hardware paradigm for autonomic regeneration called Competitive Runtime Reconfiguration...
An autonomous recovery approach directed towards improving the availability of reconfigurable system...
Existing scrubbing techniques for SEU mitigation on FPGAs do not guarantee an error-free operation a...
The area of fault-handling in reconfigurable logic devices is one that continues to receive research...
The configuration memory of SRAM-based Field-Programmable Gate Arrays (FPGAs) is susceptible to radi...
A quantitative stochastic design technique is developed for evolvable hardware systems with self-rep...
Most evolutionary approaches to fault recovery in FPGAs focus on evolving alternative logic configu...
Most evolutionary approaches to fault recovery in FPGA focus on evolving alternative logic configura...
While the fault repair capability of Evolvable Hardware (EH) approaches have been previously demonst...
While the fault repair capability of Evolvable Hardware (EH) approaches have been previously demonst...
Abstract:- Evolvable hardware (EHW) refers to self-reconfiguration hardware design, where the config...
In recent years the application space of reconfigurable devices has grown to include many platforms ...