Add to ORKGAbstract—This paper presents a probabilistic approach to model the problem of power supply voltage fluctuations. Error probability calculations are shown for some 90-nm technology digital circuits. The analysis here considered gives the timing violation error probability as a new design quality factor in front of conventional techniques that assume the full perfection of the circuit. The evaluation of the error bound can be useful for new design paradigms where retry and self-recovering techniques are being applied to the design of high performance processors. The method here described allows to evaluate the performance of these techniques by means of calculating the expected error probability in terms of power supply distribution quality
Reliability is one of the most serious issues confronted by microelectronics industry as feature siz...
As VLSI technology advances to gigascale integration, billions of transistors will be packed on a si...
Integrated circuits (ICs) increasingly exhibit uncertain characteristics due to soft errors, inheren...
This paper presents a probabilistic approach to model the problem of power supply voltage fluctuati...
This paper presents a probabilistic approach to model the problem of power supply voltage fluctuatio...
Voltage fluctuations caused by parasitic impedances in the power supply rails of modern ICs are a ma...
Device scaling, the driving force of CMOS technology, led to continuous decrease in the energy level...
An analytical methodology to calculate the probability density functions (PDFs) for the step pulse r...
Future low voltage noise dominated designs render probabilistic behavior of CMOS. This is acceptable...
Technology scaling to the nanometer levels has paved the way to realize multi-dimensional applicatio...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
The continuing trends of device scaling and increase in complexity towards terascale system on chip ...
We make a case for developing statistical error models of nanoscale circuits, employing these for de...
This thesis presents a new technique for simulating integrated circuits, called probabilistic simula...
Voltage noise can lead to various errors such as dynamic and permanent, which are directly associate...
Reliability is one of the most serious issues confronted by microelectronics industry as feature siz...
As VLSI technology advances to gigascale integration, billions of transistors will be packed on a si...
Integrated circuits (ICs) increasingly exhibit uncertain characteristics due to soft errors, inheren...
This paper presents a probabilistic approach to model the problem of power supply voltage fluctuati...
This paper presents a probabilistic approach to model the problem of power supply voltage fluctuatio...
Voltage fluctuations caused by parasitic impedances in the power supply rails of modern ICs are a ma...
Device scaling, the driving force of CMOS technology, led to continuous decrease in the energy level...
An analytical methodology to calculate the probability density functions (PDFs) for the step pulse r...
Future low voltage noise dominated designs render probabilistic behavior of CMOS. This is acceptable...
Technology scaling to the nanometer levels has paved the way to realize multi-dimensional applicatio...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
The continuing trends of device scaling and increase in complexity towards terascale system on chip ...
We make a case for developing statistical error models of nanoscale circuits, employing these for de...
This thesis presents a new technique for simulating integrated circuits, called probabilistic simula...
Voltage noise can lead to various errors such as dynamic and permanent, which are directly associate...
Reliability is one of the most serious issues confronted by microelectronics industry as feature siz...
As VLSI technology advances to gigascale integration, billions of transistors will be packed on a si...
Integrated circuits (ICs) increasingly exhibit uncertain characteristics due to soft errors, inheren...