Fault tolerance is a key factor of industrial computing systems design. But in practical terms, these systems, like every commercial product, are under great financial constraints and they have to remain in operational state as long as possible due to their commercial attractiveness. This work provides an analysis of the instantaneous failure rate of these systems at the end of their life-time period. On the basis of this analysis, we determine the effect of a critical increase in the system failure rate and the basic condition of its existence. The next step determines the maintenance scheduling which can help to avoid this effect and to extend the system life-time in fault-tolerant mode
This paper presents on overview of the issues in precisely defining, specifying and evaluating the d...
Software quality should be built-in and maintained throughout the software life cycle, which require...
Reliability and availability have become increasingly important in today’s computer- depend...
Fault-tolerant computing began between 1965 and 1970, probably with the highly reliable ...
To meet an insatiable consumer demand for greater performance at less power, silicon technology has ...
New, global and extended markets are forcing companies to process and manage increasingly different ...
Tolerating hardware faults in modern architectures is becoming a prominent problem due to the miniat...
The more the information technologies begin to be incorporated into the industrial productive fabric...
Economic aspects are decisive for industrial acceptance of research concepts including the promising...
This paper presents on overview of the issues in precisely defining, specifying and evaluating the d...
Traditional reliability-related models for fault-tolerant systems are used to predict system reliabi...
In this dissertation, industrial maintenance activities are researched from a systemic point of view...
The evolution of high-performance and low-cost microprocessors has led to their almost pervasive usa...
As High Performance Computing (HPC) systems increase in size to fulfill computational power demand, ...
Maintenance is an important system in operation. It is the work that is carried out to preserve an a...
This paper presents on overview of the issues in precisely defining, specifying and evaluating the d...
Software quality should be built-in and maintained throughout the software life cycle, which require...
Reliability and availability have become increasingly important in today’s computer- depend...
Fault-tolerant computing began between 1965 and 1970, probably with the highly reliable ...
To meet an insatiable consumer demand for greater performance at less power, silicon technology has ...
New, global and extended markets are forcing companies to process and manage increasingly different ...
Tolerating hardware faults in modern architectures is becoming a prominent problem due to the miniat...
The more the information technologies begin to be incorporated into the industrial productive fabric...
Economic aspects are decisive for industrial acceptance of research concepts including the promising...
This paper presents on overview of the issues in precisely defining, specifying and evaluating the d...
Traditional reliability-related models for fault-tolerant systems are used to predict system reliabi...
In this dissertation, industrial maintenance activities are researched from a systemic point of view...
The evolution of high-performance and low-cost microprocessors has led to their almost pervasive usa...
As High Performance Computing (HPC) systems increase in size to fulfill computational power demand, ...
Maintenance is an important system in operation. It is the work that is carried out to preserve an a...
This paper presents on overview of the issues in precisely defining, specifying and evaluating the d...
Software quality should be built-in and maintained throughout the software life cycle, which require...
Reliability and availability have become increasingly important in today’s computer- depend...