On space missions, software suffers from Single Event Upsets (SEUs), producing bit-flips. A single bitflip can impede the whole program. In this work we present a novel software based approach to tolerate SEUs) by redundant execution and protected memory. This approach can protect specifically designed programs against all SEUs. Our aim is to be able to use of-the-shelf processors and other complex circuits by designing appropriately the software and simple hardened devices (e.g. memory). A Linux based simulator has been developed and implemented: it uses, validates and allowed us to refine our hypotheses. A hardware prototype confirmed these result
Present microsatellite experiments generate a significant amount of data. Microsatellite on-board co...
Radiation induced Single Event Effects (SEEs) are a serious problem for spacecraft flight software, ...
SRAM based reprogrammable FPGAs are sensitive to radiation-induced Single Event Upsets (SEU), not on...
Computers embedded in satellites are sensitive to cosmic radiations. These cause transient faults th...
Single-event upsets (SEUs) or bitflips are computer memory errors caused by radiation. BITFLIPS (Bas...
International Telemetering Conference Proceedings / October 22-25, 1984 / Riviera Hotel, Las Vegas, ...
This paper presents a unique SEU (single Event Upset) mitigation technique based upon Temporal Data ...
The project successfully demonstrated that dual lock-step comparison of commercial RISC processors i...
International audienceIn this paper is described a purely software technique allowing to detect SEUs...
In today’s sub-micron, ultra-low voltage and high clock rate technologies, circuits are much more vu...
In this paper are first summarized representative examples of anomalies observed in systems operatin...
FPGAs are an appealing solution for space-based remote sensing applications. However, an a low-earth...
ii This Masters Thesis investigate the possibility of using software-based Error Detection And Corre...
This paper presents a detailed analysis of the efficiency of software-based techniques to mitigate S...
Today, with the rise of the private sector in space exploration, space missions are becoming more fr...
Present microsatellite experiments generate a significant amount of data. Microsatellite on-board co...
Radiation induced Single Event Effects (SEEs) are a serious problem for spacecraft flight software, ...
SRAM based reprogrammable FPGAs are sensitive to radiation-induced Single Event Upsets (SEU), not on...
Computers embedded in satellites are sensitive to cosmic radiations. These cause transient faults th...
Single-event upsets (SEUs) or bitflips are computer memory errors caused by radiation. BITFLIPS (Bas...
International Telemetering Conference Proceedings / October 22-25, 1984 / Riviera Hotel, Las Vegas, ...
This paper presents a unique SEU (single Event Upset) mitigation technique based upon Temporal Data ...
The project successfully demonstrated that dual lock-step comparison of commercial RISC processors i...
International audienceIn this paper is described a purely software technique allowing to detect SEUs...
In today’s sub-micron, ultra-low voltage and high clock rate technologies, circuits are much more vu...
In this paper are first summarized representative examples of anomalies observed in systems operatin...
FPGAs are an appealing solution for space-based remote sensing applications. However, an a low-earth...
ii This Masters Thesis investigate the possibility of using software-based Error Detection And Corre...
This paper presents a detailed analysis of the efficiency of software-based techniques to mitigate S...
Today, with the rise of the private sector in space exploration, space missions are becoming more fr...
Present microsatellite experiments generate a significant amount of data. Microsatellite on-board co...
Radiation induced Single Event Effects (SEEs) are a serious problem for spacecraft flight software, ...
SRAM based reprogrammable FPGAs are sensitive to radiation-induced Single Event Upsets (SEU), not on...