It is well known that high-energy particle strikes on an integrated circuit can cause circuit errors. We quantify the fraction of a layout which is susceptible to multiple transients, through the notion of critical area fraction (CAF). We perform a 2D-study on a layout of 65 nm planar transistors to evaluate maximum values of CAF. We find that CAF can be as high as 1, that is, 100% of the layout area is vulnerable. Potentials of adjacent source/drain regions play a significant role in increasing the CAF and simple layout techniques do not reduce the CAF substantially. We confirm these observations through 3D simulations of inverter layouts. A key observation is that, CAF is high in the region of the layout which contains small gates. At the...
While it is important to exhaustively verify IC designs for their functional performance, it is equa...
As the development of a technology, semiconductor needs to be smaller and more advance. According to...
International audienceSingle Event Effects (SEE) caused by external (neutrons, protons, heavy ions) ...
In this paper we present a detailed analysis on how the critical charge (Q crit) of a circuit node, ...
The effect of single-event transients (SETs) (at a combinational node of a design) on the system rel...
Recent deep-submicron-technology-based integrated circuits (ICs) are substantially more susceptible ...
In this paper, we first evaluate whether or not a multiple Transient Fault (multiple TF) generated b...
A new data capturing technique for a potentially coupled bus of lines is proposed that always accomm...
The behaviour of Integrated Circuits (IC), in Space, the high atmosphere or even in earth environmen...
In this paper, we first evaluate whether or not a multiple transient fault (multiple TF) generated b...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
From the first integrated circuit which has 16-transistor chip built by Heiman and Steven Hofstein i...
Dynamic logic circuits are highly suitable for high-speed applications, considering the fact that th...
Due to technology scaling, the probability of a high energy radiation particle striking multiple tra...
As technology is scaling down to nano-scale, reliability of the digital integrated circuits is reduc...
While it is important to exhaustively verify IC designs for their functional performance, it is equa...
As the development of a technology, semiconductor needs to be smaller and more advance. According to...
International audienceSingle Event Effects (SEE) caused by external (neutrons, protons, heavy ions) ...
In this paper we present a detailed analysis on how the critical charge (Q crit) of a circuit node, ...
The effect of single-event transients (SETs) (at a combinational node of a design) on the system rel...
Recent deep-submicron-technology-based integrated circuits (ICs) are substantially more susceptible ...
In this paper, we first evaluate whether or not a multiple Transient Fault (multiple TF) generated b...
A new data capturing technique for a potentially coupled bus of lines is proposed that always accomm...
The behaviour of Integrated Circuits (IC), in Space, the high atmosphere or even in earth environmen...
In this paper, we first evaluate whether or not a multiple transient fault (multiple TF) generated b...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
From the first integrated circuit which has 16-transistor chip built by Heiman and Steven Hofstein i...
Dynamic logic circuits are highly suitable for high-speed applications, considering the fact that th...
Due to technology scaling, the probability of a high energy radiation particle striking multiple tra...
As technology is scaling down to nano-scale, reliability of the digital integrated circuits is reduc...
While it is important to exhaustively verify IC designs for their functional performance, it is equa...
As the development of a technology, semiconductor needs to be smaller and more advance. According to...
International audienceSingle Event Effects (SEE) caused by external (neutrons, protons, heavy ions) ...