In this paper, we present D flip-flop, Quatro, and stacked Quarto flip-flop designs fabricated in a commercial 28-nm CMOS FDSOI technology. Stacked-transistor structures are introduced in the stacked Quatro design to protect the sensitive devices of the original structure. Striking either of the stacked devices will not upset the latch because the conduction path to the supply rail is still cut off by the other off-state device. The irradiation experimental results substantiate that the stacked Quatro design has significantly better SEU tolerance (e.g., higher heavy ion upset Linear Energy Transfer threshold and smaller cross-section data) than the reference designs. It introduces power and area penalties because the proposed design duplica...
International audienceThis paper investigates the design architectures for reliable high-yield low o...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
The last few years have seen the development and fabrication of nanoscale circuits at high density a...
In this paper, a variety of flip-flop (FF) designs fabricated in a commercial 28-nm Fully-Depleted S...
Fully Depleted Silicon on Insulator (FD SOI) technology nodes provide better resistance to single ev...
The explosion market of the mobile application and the paradigm of the Internet of Things lead to a ...
Abstract: A novel Single Event Upset (SEU) tolerant flip-flop design is proposed, which is well suit...
Abstract Conventional flip‐flops are more vulnerable to particle strikes in a radiation environment....
Down-scaling of the supply voltage is considered as the most effective means of reducing the power- ...
International audienceTo meet the requirements of both costeffectiveness and high reliability for lo...
Three layout-hardened Dual Interlocked Storage Cell (DICE) D Flip-Flops (DFFs) were designed and man...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
In this work, a new library is developed for 28-nm FDSOI CMOS technology. The new library is optimiz...
A flip-flop circuit hardened against soft errors is presented in this paper. This design is an impro...
This paper introduces a novel design for a multiple node upset tolerant flip-flop. This design uses ...
International audienceThis paper investigates the design architectures for reliable high-yield low o...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
The last few years have seen the development and fabrication of nanoscale circuits at high density a...
In this paper, a variety of flip-flop (FF) designs fabricated in a commercial 28-nm Fully-Depleted S...
Fully Depleted Silicon on Insulator (FD SOI) technology nodes provide better resistance to single ev...
The explosion market of the mobile application and the paradigm of the Internet of Things lead to a ...
Abstract: A novel Single Event Upset (SEU) tolerant flip-flop design is proposed, which is well suit...
Abstract Conventional flip‐flops are more vulnerable to particle strikes in a radiation environment....
Down-scaling of the supply voltage is considered as the most effective means of reducing the power- ...
International audienceTo meet the requirements of both costeffectiveness and high reliability for lo...
Three layout-hardened Dual Interlocked Storage Cell (DICE) D Flip-Flops (DFFs) were designed and man...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
In this work, a new library is developed for 28-nm FDSOI CMOS technology. The new library is optimiz...
A flip-flop circuit hardened against soft errors is presented in this paper. This design is an impro...
This paper introduces a novel design for a multiple node upset tolerant flip-flop. This design uses ...
International audienceThis paper investigates the design architectures for reliable high-yield low o...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
The last few years have seen the development and fabrication of nanoscale circuits at high density a...