Robots can be used to deal with hazardous materials like nuclear waste. Unfortunately, electronic components are also susceptible to radiation effects. Current proposals to tackle this issue solve only parts of the problems for the specific scenarios and the specific types of radiation. At the same time, current computational devices should provide run-time capabilities to monitor and adapt to different situations. In this paper, we target a possible solution presenting a framework which provides the flexibility to employ fault-tolerant techniques on distributed systems. As proof of concept, we target a fault-tolerant technique to extend the operating time of systems in harsh environments. Results show a very low overhead, of few microsecon...
Field-programmable gate arrays (FPGAs) offer the flexibility of general-purpose processors along wit...
This paper presents a novel methodology for the HW/SW co-design of fault tolerant embedded systems t...
Dramatic cost savings, safety improvements and accelerated nuclear decommissioning are all possible ...
Robots can be used to deal with hazardous materials like nuclear waste. Unfortunately, electronic co...
Soft errors are one of the significant design technology challenges at smaller technology nodes and ...
In the last decade the dominance of the general computing systems market has being replaced by embed...
In operation of ground-based robotic systems for military purposes, due to target actions of an oppo...
All-Programmable System-on-Chips (APSoCs) constitute a compelling option for employing applications ...
Traditionally, heavy ion radiation effects affecting digital systems working in safety critical appl...
This thesis describes a technology and methodology designed and developed for the study of certain a...
Dual-redundant systems represent a widely employed fault-tolerant technology aimed at enhancing the ...
Nowadays, a number of processor cores are available, either as soft intellectual property (IP) cores...
The impact of SRAM-based FPGAs is constantly growing in aerospace industry despite the fact that the...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
The constantly increasing memory density and performance of recent Field Programmable Gate Arrays (F...
Field-programmable gate arrays (FPGAs) offer the flexibility of general-purpose processors along wit...
This paper presents a novel methodology for the HW/SW co-design of fault tolerant embedded systems t...
Dramatic cost savings, safety improvements and accelerated nuclear decommissioning are all possible ...
Robots can be used to deal with hazardous materials like nuclear waste. Unfortunately, electronic co...
Soft errors are one of the significant design technology challenges at smaller technology nodes and ...
In the last decade the dominance of the general computing systems market has being replaced by embed...
In operation of ground-based robotic systems for military purposes, due to target actions of an oppo...
All-Programmable System-on-Chips (APSoCs) constitute a compelling option for employing applications ...
Traditionally, heavy ion radiation effects affecting digital systems working in safety critical appl...
This thesis describes a technology and methodology designed and developed for the study of certain a...
Dual-redundant systems represent a widely employed fault-tolerant technology aimed at enhancing the ...
Nowadays, a number of processor cores are available, either as soft intellectual property (IP) cores...
The impact of SRAM-based FPGAs is constantly growing in aerospace industry despite the fact that the...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
The constantly increasing memory density and performance of recent Field Programmable Gate Arrays (F...
Field-programmable gate arrays (FPGAs) offer the flexibility of general-purpose processors along wit...
This paper presents a novel methodology for the HW/SW co-design of fault tolerant embedded systems t...
Dramatic cost savings, safety improvements and accelerated nuclear decommissioning are all possible ...