Fully Depleted Silicon on Insulator (FD SOI) technology nodes provide better resistance to single event upsets than comparable bulk technologies, but upsets are still likely to occur at nano-scale feature sizes, and additional hardening techniques should be explored. Three flip-flop designs were implemented using Dual Interlocked Cell (DICE) latches in a 22 m FD SOI technology node. Additional hardening was implemented in the layout of each design by using transistor spacing and interleaving. Comparisons were made between a standard DICE design and two other designs making use of the new Continuous Active (CnRx) Diffusion construct and guard-gate transistor stacking through alpha particle and heavy ion irradiation. Designs making use of the...
Latches based on the Dual Interlocked storage Cell or DICE are very tolerant to Single Event Upsets ...
The effect of interface trap variability (ITV) on horizontally stacked nanosheet FET (NSHFET) has be...
In this article, the impact of random fluctuation sources, such as metal gate granularity (MGG), lin...
Three layout-hardened Dual Interlocked Storage Cell (DICE) D Flip-Flops (DFFs) were designed and man...
Upset hardened dual-interlocked cell (DICE) [1] has found an important place in circuits for space a...
The 21st century is witnessing a tremendous demand for transistors. Life amenities have incorporated...
In this paper, a variety of flip-flop (FF) designs fabricated in a commercial 28-nm Fully-Depleted S...
In this paper, we present D flip-flop, Quatro, and stacked Quarto flip-flop designs fabricated in a ...
This paper introduces a novel design for a multiple node upset tolerant flip-flop. This design uses ...
Abstract: A novel Single Event Upset (SEU) tolerant flip-flop design is proposed, which is well suit...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
Nanometric CMOS is likely to experience the occurrence of a single event causing a multiple-node ups...
International audienceDual-Interlocked-Cell (DICE) latches are tolerant to SingleEvent Effects (SEE)...
Advantages in transient ionizing and single-event upset (SEU) radiation hardness of silicon-on-insul...
Down-scaling of the supply voltage is considered as the most effective means of reducing the power- ...
Latches based on the Dual Interlocked storage Cell or DICE are very tolerant to Single Event Upsets ...
The effect of interface trap variability (ITV) on horizontally stacked nanosheet FET (NSHFET) has be...
In this article, the impact of random fluctuation sources, such as metal gate granularity (MGG), lin...
Three layout-hardened Dual Interlocked Storage Cell (DICE) D Flip-Flops (DFFs) were designed and man...
Upset hardened dual-interlocked cell (DICE) [1] has found an important place in circuits for space a...
The 21st century is witnessing a tremendous demand for transistors. Life amenities have incorporated...
In this paper, a variety of flip-flop (FF) designs fabricated in a commercial 28-nm Fully-Depleted S...
In this paper, we present D flip-flop, Quatro, and stacked Quarto flip-flop designs fabricated in a ...
This paper introduces a novel design for a multiple node upset tolerant flip-flop. This design uses ...
Abstract: A novel Single Event Upset (SEU) tolerant flip-flop design is proposed, which is well suit...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
Nanometric CMOS is likely to experience the occurrence of a single event causing a multiple-node ups...
International audienceDual-Interlocked-Cell (DICE) latches are tolerant to SingleEvent Effects (SEE)...
Advantages in transient ionizing and single-event upset (SEU) radiation hardness of silicon-on-insul...
Down-scaling of the supply voltage is considered as the most effective means of reducing the power- ...
Latches based on the Dual Interlocked storage Cell or DICE are very tolerant to Single Event Upsets ...
The effect of interface trap variability (ITV) on horizontally stacked nanosheet FET (NSHFET) has be...
In this article, the impact of random fluctuation sources, such as metal gate granularity (MGG), lin...