Emerging VLSI technologies and platforms are giving rise to systems with inherently high potential for runtime failure. Such failures range from intermittent electrical and mechanical failures at the system level, to device failures at the chip level. Techniques to provide reliable computation in the presence of failures must do so while maintaining high performance, with an eye toward energy efficiency. When possible, they should maximize battery lifetime in the face of battery discharge non-linearities. This paper introduces the concept of adaptive fault-tolerance management for failure-prone systems, and a classification of local algorithms for achieving system-wide reliability. In order to judge the efficacy of the proposed algorithms f...
Smart environments will consist of a large number of heterogeneous devices that communicate to colla...
In this paper, we analyze the faults tolerance capability of hard real-time systems under power cons...
Abstract—Smart environments will consist of a large number of heterogeneous devices that communicate...
Emerging VLSI technologies and platforms are giving rise to systems with inherently high potential f...
Dynamic fault-tolerance management (DFTM) was previously introduced as a means of providing environm...
Chip power consumption is one of the most challenging and transforming issues that the semiconductor...
Abstract- Energy consumption of electronic devices has become a serious concern in recent years. Ene...
Recent studies show that, voltage scaling, which is an efficient energy management technique, has a ...
Many threats that can undermine the reliability of a system can be realized at design, while others ...
This book describes the state-of-the-art in energy efficient, fault-tolerant embedded systems. It co...
Recent processors are shrinking in size due to the advancement of technology. Reliability is an impo...
Electronics systems in deep-submicron era face many new challenges. Increased intricacy of the manuf...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art energy managem...
To meet an insatiable consumer demand for greater performance at less power, silicon technology has ...
Smart environments will consist of a large number of heterogeneous devices that communicate to colla...
In this paper, we analyze the faults tolerance capability of hard real-time systems under power cons...
Abstract—Smart environments will consist of a large number of heterogeneous devices that communicate...
Emerging VLSI technologies and platforms are giving rise to systems with inherently high potential f...
Dynamic fault-tolerance management (DFTM) was previously introduced as a means of providing environm...
Chip power consumption is one of the most challenging and transforming issues that the semiconductor...
Abstract- Energy consumption of electronic devices has become a serious concern in recent years. Ene...
Recent studies show that, voltage scaling, which is an efficient energy management technique, has a ...
Many threats that can undermine the reliability of a system can be realized at design, while others ...
This book describes the state-of-the-art in energy efficient, fault-tolerant embedded systems. It co...
Recent processors are shrinking in size due to the advancement of technology. Reliability is an impo...
Electronics systems in deep-submicron era face many new challenges. Increased intricacy of the manuf...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art energy managem...
To meet an insatiable consumer demand for greater performance at less power, silicon technology has ...
Smart environments will consist of a large number of heterogeneous devices that communicate to colla...
In this paper, we analyze the faults tolerance capability of hard real-time systems under power cons...
Abstract—Smart environments will consist of a large number of heterogeneous devices that communicate...