In this work we implemented a hybrid fault-tolerant LEON3 soft-core processor in a low-end FPGA (Artix-7) and evaluated its error detection capabilities through neutron irradiation and fault injection in an incremental manner. The error mitigation approach combines the use of SEC/DED codes for memories, a hardware monitor to detect control-flow errors, software-based techniques to detect data errors and configuration memory scrubbing with repair to avoid error accumulation. The proposed solution can significantly improve fault tolerance and can be fully embedded in a low-end FPGA, with reduced overhead and low intrusiveness
ARM processors are leaders in embedded systems, delivering high-performance computing, power efficie...
Radiation-induced Soft Errors are widely known since the advent of dynamic RAM chips. Reconfigurable...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...
In this work we implemented a hybrid fault-tolerant LEON3 soft-core processor in a low-end FPGA (Art...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
Hybrid error-detection techniques combine software techniques with an external hardware module that ...
International audienceIn this paper, we propose a new approach to implement a reliable softcore proc...
This paper presents an approach to detect SEEs in SRAM-based FPGAs by using software-based technique...
This book introduces the concepts of soft errors in FPGAs, as well as the motivation for using comme...
The sustained drive to downsize the transistors has reached a point where device sensitivity against...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
FPGAs are a ubiquitous electronic component utilised in a wide range of electronic systems across ma...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
The checkpoint and rollback recovery techniques enable a system to survive failures by periodically ...
High energy particles in the outer space could flip the state of the latches of the electronic devic...
ARM processors are leaders in embedded systems, delivering high-performance computing, power efficie...
Radiation-induced Soft Errors are widely known since the advent of dynamic RAM chips. Reconfigurable...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...
In this work we implemented a hybrid fault-tolerant LEON3 soft-core processor in a low-end FPGA (Art...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
Hybrid error-detection techniques combine software techniques with an external hardware module that ...
International audienceIn this paper, we propose a new approach to implement a reliable softcore proc...
This paper presents an approach to detect SEEs in SRAM-based FPGAs by using software-based technique...
This book introduces the concepts of soft errors in FPGAs, as well as the motivation for using comme...
The sustained drive to downsize the transistors has reached a point where device sensitivity against...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
FPGAs are a ubiquitous electronic component utilised in a wide range of electronic systems across ma...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
The checkpoint and rollback recovery techniques enable a system to survive failures by periodically ...
High energy particles in the outer space could flip the state of the latches of the electronic devic...
ARM processors are leaders in embedded systems, delivering high-performance computing, power efficie...
Radiation-induced Soft Errors are widely known since the advent of dynamic RAM chips. Reconfigurable...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...