In this paper, we perform an evaluation of the impact of radiation-induced micro-architectural faults affecting the Microblaze soft-processor running a Real-Time Operating System. Fault injection campaigns with a proton-radiation test fault model are presented
This work proposes a methodology to diagnoseradiation-induced faults in a microprocessor using the h...
This paper presents a detailed analysis of the behavior of a novel fault-tolerant 32-bit embedded CP...
As the adoption of SRAM-based FPGAs and Reconfigurable SoCs for High-Performance Computing increased...
The interest of the space industry in Real-Time Operating Systems for achieving stringent real-time...
Embedded processors had been established as common components in modern systems. Usually, they are p...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
The continuous scaling of electronic components has led to the development of high-performance micro...
Radiation-induced soft errors are one of the most challenging issues in Safety Critical Real-Time Em...
Caches are vitally important for the performance in modern CPUs. But they also bear great potential ...
This paper shares the effects of row hammer fault through high-energy proton radiation. The signific...
This thesis evaluates the susceptibility to high energy proton irradiation of the NOEL-V soft proces...
The effects of transient bit flips on the operation of processor based architectures is investigated...
Abstract—Soft Error Resiliency is a major concern for Pet-ascale high performance computing (HPC) sy...
Proceeding of: 32th European Symposium on Reliability of Electron Devices, Failure Physics and Analy...
This work proposes a methodology to diagnoseradiation-induced faults in a microprocessor using the h...
This paper presents a detailed analysis of the behavior of a novel fault-tolerant 32-bit embedded CP...
As the adoption of SRAM-based FPGAs and Reconfigurable SoCs for High-Performance Computing increased...
The interest of the space industry in Real-Time Operating Systems for achieving stringent real-time...
Embedded processors had been established as common components in modern systems. Usually, they are p...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
The continuous scaling of electronic components has led to the development of high-performance micro...
Radiation-induced soft errors are one of the most challenging issues in Safety Critical Real-Time Em...
Caches are vitally important for the performance in modern CPUs. But they also bear great potential ...
This paper shares the effects of row hammer fault through high-energy proton radiation. The signific...
This thesis evaluates the susceptibility to high energy proton irradiation of the NOEL-V soft proces...
The effects of transient bit flips on the operation of processor based architectures is investigated...
Abstract—Soft Error Resiliency is a major concern for Pet-ascale high performance computing (HPC) sy...
Proceeding of: 32th European Symposium on Reliability of Electron Devices, Failure Physics and Analy...
This work proposes a methodology to diagnoseradiation-induced faults in a microprocessor using the h...
This paper presents a detailed analysis of the behavior of a novel fault-tolerant 32-bit embedded CP...
As the adoption of SRAM-based FPGAs and Reconfigurable SoCs for High-Performance Computing increased...