Device scaling, the driving force of CMOS technology, led to continuous decrease in the energy level representing logic states. The resulting small noise margins in combination with increasing problems regarding the supply voltage stability and process variability creates a design conflict between efficiency and reliability. This conflict is expected to rise more in future technologies. Current research approaches on fault-tolerance architectures and countermeasures at circuit level, unfortunately, cause a significant area and energy penalty without guaranteeing absence of errors. To overcome this problem, it seems to be attractive to tolerate bit errors at circuit level and employ error handling methods at higher system levels. To do this,...
University of Minnesota Ph.D. dissertation. October 2012. Major: Electrical Engineering. Advisor: Sa...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
Estimating the failure probability of nano-scale generic logic cells is a key point for the evaluati...
This paper presents a probabilistic approach to model the problem of power supply voltage fluctuatio...
Abstract—This paper presents a probabilistic approach to model the problem of power supply voltage f...
Future low voltage noise dominated designs render probabilistic behavior of CMOS. This is acceptable...
Current and future semiconductor technology nodes, bring about a variety of challenges that pertain ...
Current and future semiconductor technology nodes, bring about a variety of challenges that pertain ...
In order to build energy efficient digital CMOS circuits, the supply voltage must be reduced to near...
Technology scaling to the nanometer levels has paved the way to realize multi-dimensional applicatio...
The error probability at a node of a digital circuit exposed to thermal noise agitation is investiga...
Voltage fluctuations caused by parasitic impedances in the power supply rails of modern ICs are a ma...
Reliability is one of the most serious issues confronted by microelectronics industry as feature siz...
The continuing trends of device scaling and increase in complexity towards terascale system on chip ...
The reliability of Very Large Scale Integration (VLSI) circuits has become increasingly susceptible ...
University of Minnesota Ph.D. dissertation. October 2012. Major: Electrical Engineering. Advisor: Sa...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
Estimating the failure probability of nano-scale generic logic cells is a key point for the evaluati...
This paper presents a probabilistic approach to model the problem of power supply voltage fluctuatio...
Abstract—This paper presents a probabilistic approach to model the problem of power supply voltage f...
Future low voltage noise dominated designs render probabilistic behavior of CMOS. This is acceptable...
Current and future semiconductor technology nodes, bring about a variety of challenges that pertain ...
Current and future semiconductor technology nodes, bring about a variety of challenges that pertain ...
In order to build energy efficient digital CMOS circuits, the supply voltage must be reduced to near...
Technology scaling to the nanometer levels has paved the way to realize multi-dimensional applicatio...
The error probability at a node of a digital circuit exposed to thermal noise agitation is investiga...
Voltage fluctuations caused by parasitic impedances in the power supply rails of modern ICs are a ma...
Reliability is one of the most serious issues confronted by microelectronics industry as feature siz...
The continuing trends of device scaling and increase in complexity towards terascale system on chip ...
The reliability of Very Large Scale Integration (VLSI) circuits has become increasingly susceptible ...
University of Minnesota Ph.D. dissertation. October 2012. Major: Electrical Engineering. Advisor: Sa...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
Estimating the failure probability of nano-scale generic logic cells is a key point for the evaluati...